Post on 01-Sep-2020
Working Papers in
Environmental Social Sciences
Handwashing behavior change: infrastructural and commitment interventions in the Borena Zone, Ethiopia Nadja Contzen and Hans-Joachim Mosler
Working Paper 2013-06
Working Papers in Environmental Social Sciences
Department of Environmental Social Sciences Eawag: Swiss Federal Institute of Aquatic Science and Technology Überlandstr. 133 8600 Dübendorf Switzerland http://www.eawag.ch/forschung/ess
Recommended Citation
Contzen, N & Mosler H-J. (2013). Handwashing behavior change: infrastructural and commitment interventions in the Borena Zone, Ethiopia. Working Papers in Environmental Social Sciences 2013-06, Department of Environmental Social Sciences, Swiss Federal Institute of Aquatic Science and Technology (Eawag), Dübendorf, Switzerland. http://www.eawag.ch/forschung/ess/workingpapers/.
Author Information
Nadja Contzen is a PhD student at Eawag and University of Zurich. Hans-Joachim Mosler is a senior researcher at Eawag and titular professor at the University of Zurich. As members of the Environmental Health Psychology group at Eawag, their research focuses on health promotions in developing countries and health behavior change.
Author Contact
Eawag, Überlandstr. 133, 8600 Dübendorf, Switzerland nadja.contzen@eawag.ch +41 58 765 5464 http://www.eawag.ch/about/personen/homepages/contzena/
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Executive summary
Background and objective
In Ethiopia, as well as in many other developing countries, diarrhea is one of the leading causes of
disease burden (10.9% of total disability adjusted life years; 2010b), and handwashing with soap is the
single most effective prevention (Curtis, Cairncross, & Yonli, 2000; Curtis et al., 2011). However,
handwashing rates are considerably low in Ethiopia, with only around 17% of primary caregivers
washing their hands with soap after defecation, and with the majority washing their hands with only
water before eating (Federal Ministry of Health Ethiopia, 2011a, 2011b). Therefore, handwashing
promotions are the focus of many health interventions by local and international relief and
development agencies (Federal Ministry of Health Ethiopia, 2011a, 2011b). These campaigns have
rarely been grounded in theory (Aboud & Singla, 2012). Moreover, they have often been limited to
raising awareness and providing knowledge, while their effectiveness has seldomly been verified.
The present research project, conducted in cooperation with Oxfam America, aimed to select new
theory- and evidence-based promotion activities, and to implement and test them in the Borena zone
of Ethiopia. According to the Risk, Attitudes, Norms, Abilities, and Self-regulation behavioral change
model (Mosler, 2012), it was assumed that, in order to be effective, promotion activities must influence
a set of behavioral factors (i.e., attitudes or norms), which, in turn, change behavior. Thus, in a first
step, a baseline study explored the behavioral factors that are most important in explaining
handwashing with soap. On the basis of this result, in a second step, two handwashing promotions
were selected that were expected to target the key determinants of handwashing: an appeal to
construct tippy taps with maintenance-planning, and primary caregivers’ public commitment (see
below for more details). A participatory f-diagram exercise served as a base intervention. Next, these
promotions were implemented in the field by a local non-governmental organization, Gayo Pastoral
Development Initiative. In a final step, the intervention potential of the promotion activities was tested.
Methods
A longitudinal research design was applied, with two data collection waves; a baseline in early 2012
and a follow-up in early 2013. The selection and implementation of the promotion activities was
conducted in between these two time points.
Four rural Kebeles (the lowest administrative unit in Ethiopia) in the Borena zone served as research
areas: Magole and Kancharo in Dillo district, and Gololcha and Madacho in Dire district. While the
base intervention was implemented in all four Kebeles, the tippy tap construction, and the public
commitment intervention were implemented in a fully crossed design. That is, Kebele 1 received only
the base intervention, Kebele 2 received the public commitment intervention in addition to the base
intervention, Kebele 3 received the tippy tap intervention in addition to the base intervention, and
Kebele 4 received all interventions. Further, half of the households in which a tippy tap was
constructed received a maintenance-planning intervention, while the other half did not.
2
Data were collected by means of structured observations and interviews with primary caregivers in
each household participating in the study. At baseline, primary caregivers of 463 households were
interviewed. Of these, 426 households were maintained at follow-up (dropout rate of 8%). As primary
caregivers of 128 additional households were interviewed at follow-up, the sample size for the
interviews at this time was 554. Observations were conducted in 151 out of the 463 households at
baseline. Of these, 141 were maintained at follow-up (dropout rate of 7%). As all households were
observed at follow-up, the sample size at this time was also 554.
Data were analyzed by means of multiple linear regression and mediation analyses, multivariate
analysis of variance, Kruskal-Wallis and Jonckheere–Terpstra tests.
Results
Baseline results revealed social norms as being an especially crucial determinant of handwashing. In
addition, the prevalence of a rather impractical handwashing practice, involving several vessels and
steps, was observed, while designated places and facilities for handwashing were barely present (only
8% of the respondents had a designated place for handwashing). Further, observations suggested
that forgetting to wash hands was common, and that the persons under study were unaware that they
failed to remember.
On the basis of these results, commitment meetings were organized as a first intervention, whereby
beneficiaries publicly committed to washing their hands at key times and received a scarf as a sign of
their commitment, as well as a commitment certificate. While this intervention was primarily selected to
strengthen social norms and commitment, it was hoped that the scarf and certificate may also serve
as handwashing reminders. As a second intervention, households were motivated to construct tippy
taps to facilitate performance of the behavior, and also to serve as reminders for handwashing. A
supplementary intervention was implemented to facilitate the maintenance of the tippy tap: within the
maintenance-planning intervention, beneficiaries were motivated to schedule and write down when
they planned to re-fill the tippy tap during the day, and with how much water, and when they planned
to re-fill the soap during the week. In the control intervention, beneficiaries learned the f-diagram route
of contamination in a participatory group sorting task.
Due to malfunctioning monitoring, the implementation quality was sometimes questionable. The
quality was least guaranteed in the Kebele receiving the public commitment in addition to the base
intervention.
Longitudinal analyses revealed that the tippy tap intervention alone and in combination with public
commitment had a positive outcome: (1) observed handwashing behavior tended to be higher in the
follow-up than in the baseline for these groups, or at least did not decline; (2) changes in self-reported
handwashing behavior from baseline to follow-up was positive for these groups. Further, almost 100%
of the households that were asked to construct a tippy tap actually did so, and recognized it as their
designated place for handwashing. Moreover, the vast majority of these households had a functioning
tippy tap, with water and soap being present, at follow-up, 2-4 months after completion of
implementation. In addition, the previously mentioned positive outcomes tended to be higher for the
groups that experienced the maintenance-planning, compared to those that did not.
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In contrast, in the group that experienced only the f-diagram, the behavior had a tendency to decline,
or was carried out at a low level at follow-up. In addition, barely any of these households had a
designated place for handwashing, and soap and water was not easily accessible in more than half of
the households.
Although less pronounced, the same tendencies were found for the public commitment-only
intervention group. Again, these results might express the fact that the public commitment had no
impact. Alternatively, it is credible that the public commitment-only intervention was unsatisfactorily
implemented, and was accordingly unable to fulfill its potential. In both cases, the promotion would not
have been capable of slowing natural behavior reduction (see chapter 4.2 for a discussion of these
findings).
With regard to the mechanism of behavior change, mediation analyses revealed that, when compared
with the base intervention, the tippy tap-only and the combined intervention were associated with the
following behavioral factors: norms, hindrance, action planning and remembering. However, hindrance
and action planning did not explain behavior. Therefore, it emerged that only norms and forgetting
significantly mediated the association between behavior and tippy tap-only, and the combined
intervention. Public commitment-only had no associations with any of the tested behavioral factors,
and thus, neither with behavior, when compared to the f-diagram-only.
Conclusion and recommendations
The present research project tested the effectiveness of a public commitment intervention and the
promotion of tippy taps. The implementation of the public commitment intervention alone had no
influence on handwashing behavior. However, since there is evidence that this specific intervention
was not implemented strictly according to instructions, it is doubtful that public commitment should be
abandoned as a handwashing intervention. Further research is necessary to better assess the
intervention potential of public commitment to promote handwashing behavior, and careful intervention
implementation, according to instructions, and close monitoring are crucial. The latter, of course, is
true of every intervention.
More importantly, the research project revealed the promising potential of a tippy tap promotion:
almost all study households were successfully motivated to construct a tippy tap, and nearly all of
these households recognized it as their designated place for handwashing. Moreover, in a substantial
number of households, the tippy tap was functioning, with water and soap being present, 2-4 months
after intervention termination. Maintenance-planning seemed to aid the positive outcome. Therefore, it
can be highly recommended that the tippy tap intervention be further applied to promote handwashing
in the Borena zone; in combination with maintenance-planning, if possible.
To conclude, the tippy tap intervention successfully induced a crucial prerequisite for handwashing: a
designated place and facility for handwashing, in which soap and water is present.
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Acknowledgements
This research was supported by funding from Oxfam America.
The authors especially thank Myra Foster, public health specialist for Oxfam America, for initiating,
supporting, and advising the research project.
Further thanks go to Kebede Eticha, public health specialist for Oxfam America, Horn of Africa
Regional Office and the Oxfam support office in Yabello, especially to Abarufa Jatani, former head of
the Oxfam support office.
Thanks are due to Gayo Pastoral Development Initiative for implementing the handwashing
promotions. Belay Aschalew, WASH coordinator for GDPI during the drought response, is especially
gratefully acknowledged for his continuous help and advice.
Special thanks go to Iara Meili, research assistant, for her continuous support, her critical thoughts
and her hard work during the follow-up.
The fieldwork for this project was only made possible by the great effort of numerous people: Sarah
Zgraggen, research assistant during the baseline; Wario Dima Godana and Chaka Yohannes Chaka,
Field Research Coordinators; the data collectors, especially Ibsa Arero, Abdi Wako and Jarso Dokata;
the Kebele leaders of the study Kebeles; and the community members who participated in the study
and generously shared with us their time, thoughts, and experience.
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Table of Contents
Executive summary ................................................................................................................................. 1
Acknowledgements ................................................................................................................................. 4
Abbreviations ........................................................................................................................................... 7
1 Introduction ...................................................................................................................................... 8
1.1 Diarrheal and respiratory diseases in Ethiopia, malnutrition, the importance of handwashing and its prevalence ....................................................................................................... 8
1.2 The Borena zone in southern Ethiopia: pastoral living, drought responses and handwashing campaigns ............................................................................................. 8
1.3 Results from a preliminary study: evaluating Oxfam handwashing promotions in the 2011-2012 drought response in Borena, Ethiopia ................................................................. 10
1.4 Theoretical background and research questions .......................................................... 13
2 Method ........................................................................................................................................... 14
2.1 Research design ....................................................................................................... 14
2.2 Selection of the study areas and study households ...................................................... 14
2.3 Data collection method and sample size ..................................................................... 14
2.3.1 2-3-hour household observations ........................................................................ 16
2.3.2 Face-to-face interviews – questionnaire and measures.......................................... 18
2.4 Data analysis procedure ............................................................................................ 19
3 Results ........................................................................................................................................... 21
3.1 Socio-demographic variables ..................................................................................... 21
3.2 Results from the baseline survey ................................................................................ 21
3.2.1 Frequency of handwashing at key times and their factor structure .......................... 21
3.2.2 Behavioral factors explaining handwashing behavior ............................................. 23
3.2.3 Prevalence of behavioral factors ......................................................................... 25
3.2.4 Qualitative results: some observations ................................................................. 26
3.3 Selection of handwashing interventions and their implementation process ..................... 27
3.3.1 Public commitment intervention ........................................................................... 28
3.3.2 Promotion of constructing tippy taps .................................................................... 29
3.3.3 Intervention implementation plan and base intervention ......................................... 31
3.3.4 Implementation process, implementation personnel, and their training .................... 33
3.4 The implementation process: some qualitative results .................................................. 33
3.4.1 Some incidents and inconsistencies in the implementation process ........................ 33
3.4.2 A specific shortcoming in the implementation process: the public commitment sign .. 34
3.4.3 Interference in the data collection ........................................................................ 35
3.5 Reach of the promotion activities ................................................................................ 35
3.6 Influence of the handwashing interventions on selected outcome variables .................... 36
3.6.1 Influence on observed behavior ........................................................................... 36
3.6.2 Influence on self-reported behavior ...................................................................... 38
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3.6.3 Proxy measures: tippy taps in function ................................................................. 40
3.6.4 Influence of maintenance-planning on self-reported behavior and presence of soap and water .......................................................................................................... 42
3.7 Mechanism of change: Psychological variables explaining the influence of the handwashing interventions on change in self-reported handwashing ............................. 43
4 Discussion ..................................................................................................................................... 45
4.1 Baseline results: behavioral factors to be addressed and derived promotion activities ..... 45
4.2 Longitudinal study: summary of the interventions’ effect ............................................... 45
4.3 Limitations ............................................................................................................... 48
5 Conclusions and recommendations .............................................................................................. 50
References ............................................................................................................................................ 51
Annex ..................................................................................................................................................... 54
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Abbreviations
BCA Behavior Change Agent
CHV Community Health Volunteer
DLHS District Level Health Supervisor
FDO F-diagram intervention only
FRC Field Research Coordinator
GHD Global Handwashing Day
GPDI Gayo Pastoral Development Initiative
HEW Health Extension Worker
NGO Non-governmental organization
OA Oxfam America
PCO Public commitment intervention only
PC+TT Public commitment and tippy tap intervention
PC+TTMP Public commitment and tippy tap with maintenance-planning intervention
TTO Tippy tap intervention only
TTOMPO Tippy tap intervention with maintenance-planning only
UN United Nations
UNICEF United Nations International Children's Emergency Fund
WASH Water, Sanitation and Hygiene
WC WASH Coordinator
WHO World Health Organization
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1 Introduction
1.1 Diarrheal and respiratory diseases in Ethiopia, malnutrition, the importance of handwashing and its prevalence
Ethiopia has a mortality rate of 188 per 1000 live births in those aged under 5 years (WHO Regional
Office for Africa, n.d.). Diarrhea is the leading cause of these deaths (23% of all deaths in children
aged under 5), followed by pneumonia (15%; WHO Regional Office for Africa, 2010b). Moreover,
diarrheal disease is greatly interlinked with child malnutrition, which is more prevalent in Ethiopia than
in its surrounding countries (34.6% and 22%, respectively of underweight children under five; WHO
regional Office for Africa, 2010a). Diarrhea is not only particularly lethal in malnourished children, it is
also a major cause of malnutrition, which makes children more vulnerable to other diseases (Bartram
& Cairncross, 2010; Prüss-Üstün, Bos, Gore, & Bartram, 2008; UNICEF & WHO, 2009). With respect
to the entire Ethiopian population, diarrhea and pneumonia are the leading causes of disease burden
(10.9% and 14.3% of total disability adjusted life years, respectively; WHO Regional Office for Africa,
2010b). In recent years, several outbreaks of acute watery diarrhea have hit the country (WHO, n.d.),
and, in addition to the element of human suffering, it is estimated that Ethiopia loses up to US$ 650
million each year, as a result of diarrheal and other waterborne diseases (Federal Ministry of Health
Ethiopia, 2011b). With a reduction rate of 40%, the single most effective preventive measure against
diarrheal disease is handwashing with soap at key times (Curtis et al., 2000; Curtis et al., 2011), which
are after defecation or after wiping a child’s bottom (feces-related handwashing), and before eating,
preparing food, or feeding or breastfeeding a child (food-related handwashing). Furthermore,
handwashing lowers rates of childhood pneumonia and other respiratory illnesses by up to 50%
(Curtis et al., 2011; Luby et al., 2005; Luby & Halder, 2008). Malnutrition is also reduced, not only
indirectly through lower diarrhea rates: there is growing evidence to indicate that tropical enteropathy
caused by fecal bacteria is a major cause of malnutrition (Humphrey, 2009), and the best protection
against fecal bacteria is safe feces disposal and handwashing with soap after contact with feces
(Curtis et al., 2000; Humphrey, 2009).
In spite of its preventive power, handwashing is uncommon in Ethiopia, although comparable to rates
in most developing countries (Iyer, Sara, Curtis, Scott, & Cardosi, 2005; Scott, Curtis, Rabie, &
Garbrah-Aidoo, 2007): only around 17% of primary caregivers wash their hands with soap after
defecation, and the majority wash their hands with only water before eating (Federal Ministry of Health
Ethiopia, 2011a, 2011b). Accordingly, handwashing campaigns are high on the agendas of health,
relief, and development agencies (Federal Ministry of Health Ethiopia, 2011a, 2011b).
1.2 The Borena zone in southern Ethiopia: pastoral living, drought responses and handwashing campaigns
More specifically, in the Borena zone in Ethiopia, handwashing promotions started in 2006, when
CARE Ethiopia launched a first handwashing intervention (Aschalew, 2013). Since then, the Ethiopian
government and many NGOs, in addition to CARE, such as GOAL Ethiopia, Action For Development
(AFD), or Oxfam America (OA) through Gayo Pastoral Development Initiative (GPDI), have repeatedly
implemented handwashing promotions.
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The Borena zone is located in the southern part of Ethiopia at an altitude of 1,000 to 1,600 meters
above sea level.1 The region is semi-arid, with 70% of the area being sparsely wooded grassland. The
primary ethnic group in the region is the Borena, which is part of the larger Oromo ethnic group. Their
main livelihood is pastoralism. The Borenas are semi-nomadic, with men seasonally migrating with
their cattle, looking for pasture.2 The water supply coverage is low (20% to 35%; ITAB CONSULT
PLC, 2011), meaning long distances must be walked for water collection, which is the responsibility of
women and girls. The work burden of Borena women is high, encompassing (in addition to water
collection) cooking, collecting fodder for calves and other small animals, and collecting fire wood. The
Borena culture embraces an old and complex political system, the Gada system. This institution
manages the rangeland utilization and natural resources, and contains important social support
mechanisms. These are especially important, since the region is regularly hit by droughts threatening
the survival of livestock and causing food insecurity and famine, such as in 1984–85 (region-wide);
1999–92 (region-wide); 1993 (Moyale); 1996–97 (Teltele, Dire, Moyale, Yabello, Arero, Shakiso, and
Liben); 1999–2000 (lowland Woredas); and 2005–06, 2008–09, and 2011 (region-wide). The
government and NGOs have responded to these droughts with relief food distributions, the
establishment of early warning systems, and development projects, with the first food aid being given
in 1974.
The last drought in 2010-2011 was caused by the failure of two consecutive rain seasons and the
effect of La Nina, leading to a critical emergency situation from October 2010 up to November 2011.
This included a water and food shortage, as well as increased malnutrition and incidence of diseases,
and escalated the number of people affected, and requiring humanitarian assistance. Reports by
NGOs and UN agencies from July 2011 described alarming situations, particularly in the Oromia and
Somali regions of Ethiopia, where child malnutrition was in the tens of thousands, and the overall
number of people in need of food assistance was much higher than indicated in the reports by the
government; 4.5 million people were in need in the country. In collaboration with GPDI, OA
implemented an emergency WASH3 response in four Woredas (districts) in the Borena zone of
Southern Oromia, Ethiopia: Moyale, Teltele, Dillo, and Dire. Part of the WASH response was the
promotion of handwashing with an agent4 at key times. A preliminary research project conducted in
2012 evaluated these handwashing promotions.
1 This paragraph is based on the following work: Debsu, D. N.(2013) . Local institutions, external interventions, and adaptations to climate variability: The case of the Borena pastoralists in southern Ethiopia. In K. Pfeifer (Ed.), Oxfam America Research Backgrounder series. 2 In addition, during droughts men tend to migrate in search of jobs, whereas women stay to care for the family and the farm. 3 WASH stands for Water, Sanitation and Hygiene. The Global WASH Cluster, led by UNICEF, was established as part of the international humanitarian reform programme, and provides an open, formal platform for all emergency WASH actors to work together (http://www.washcluster.info/). The cluster made available a variety of resources and training materials to develop hygiene promotion activities and capacities at the onset of an emergency. 4 GPDI promoted the washing of hands with soap and to use ash or sand if no soap is available. For simplicity, in the following text “handwashing” stands for handwashing with an agent.
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1.3 Results from a preliminary study: evaluating Oxfam handwashing promotions in the 2011-2012 drought response in Borena, Ethiopia
The promotion activities implemented by GPDI were akin to the promotions compiled by the Global
WASH cluster (UNICEF, 2007), and primarily focused on knowledge provision. It was explained how
diarrhea is transmitted (by means of the f-diagram) and what its effect is on the body. Further,
prevention and treatment methods were also explained. With regard to prevention, four key messages
were disseminated around handwashing: Wash your hands with soap (1) …after using the latrine, (2)
…before food preparation, (3) …before eating, and (4) …before breastfeeding and feeding children.
In addition to knowledge provision, coping with barriers was fostered by instructing the beneficiaries to
use ash or sand if no soap is available. Action knowledge was promoted by handwashing
demonstrations, handwashing behavioral trials, and by observing and correcting handwashing
behavior.
The promotion content was disseminated via nine different promotion activities or channels, which are
summarized in Table 1.
Table 1
Overview of promotion activities
Promotion activity Description
Home visit Main goal: disseminate the key messages and to observe and correct behavior. Material: F-diagram and pictures. Conducted by HEW and/or CHV.
Health education at gatherings
Health education at community meetings, cash-for-work sites, women’s cooperative meetings, and coffee ceremonies. Main goal: disseminate the key messages, show how to wash hands and mobilize the community by encouraging the participants to talk with their neighbors about health issues. Material: F-diagram, posters, and leaflets. Conducted by HEW, CHV, and GPDI.
Health information at the market, spread by megaphone
Mass health education by means of megaphone. Main goal: disseminate the key messages. Conducted by GPDI.
GHD activities Activities at the GHD. Main goal: disseminate the key messages, mobilize the community and demonstrate behavior. Activities: drama, poems, handwashing demonstration and joint handwashing, distribution of soap and t-shirts. Conducted by GPDI, with support from the HEW and CHV.
Material distribution with handwashing demonstration
Mass distribution of PUR, soap, and buckets. Main goal: provide material, explain how it is used, and why it should be used, dissemination of the key messages. Conducted by GPDI.
Handwashing demonstration
Demonstration of how to wash hands with soap. Main goal: disseminate action knowledge, and the key messages. Conducted by GPDI.
F-Diagram Used at home visits and during health education. Main goal: explain how diarrhea is transmitted.
Picture Used at home visits, and during health education. Main goal: show when and how to wash hands with soap.
Leaflet Distributed at community meetings. Main goal: explain diarrhea prevention methods, including washing hands with soap.
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While GPDI workers implemented some of the promotion activities themselves, other activities were
carried out by the Health Extension Workers (HEW) and the Community Health Volunteers (CHV) in
each Kebele5. For these purposes, GPDI held trainings with the HEW and CHV in each Woreda to
pass on the required health knowledge and explain the different promotional approaches.
Although all the activities disseminated the same key messages, and all were aimed at changing
handwashing behavior, their effectiveness differed.
The overall associations between the promotion activities and self-reported feces- and food-related
handwashing (the total effects) are displayed in Figure 1 and 2. Only three promotion activities had a
significant total association with feces- and food-related handwashing. Significant positive associations
were found for receiving a leaflet and for taking part in a material distribution: beneficiaries that
received a diarrhea leaflet or participated in a material distribution tended to wash their hands more
often than those who did not receive a diarrhea leaflet. Global Handwashing Day (GHD) was also
significantly associated with handwashing frequency, however, negatively. Those who participated in
the GHD activities tended to wash their hands less often than those who did not take part. The
remaining six promotion activities were not significantly associated with feces- and food-related
handwashing.
Figure 1. Total unstandardized effects of promotion activities on self-reported feces-related handwashing. N = 443. Dark blue bars represent significant unstandardized regression coefficients with p < .05.
Therefore, only diarrhea leaflets and material distributions were positively associated with
handwashing, and thus have the potential to effectively promote handwashing. One reason for the
effectiveness of diarrhea leaflets, amongst others, might be that, when hung up in the house, such a
leaflet may serve as a prompt and deliver information continuously. In terms of material distributions,
the result parallels the findings from a study conducted in Haiti, where material distributions were also
positively associated with handwashing (Contzen & Mosler, 2013). This promotion activity has the
advantage of providing the beneficiaries with the required materials and, probably more importantly,
fosters the beneficiaries’ behavioral competence by demonstrating correct behavior.
5 Lowest administrative unit in Ethiopia.
12
In contrast, GHD activities were negatively associated with handwashing and might even have
hindered this behavior. Respondents’ evaluation of the promotion activities corresponded to the
negative association: while the beneficiaries rated the applied promotion activities very favorably
overall6, they liked the GHD activities slightly less than the other activities. Although the observed
association is contrary to expectations and contradicts the purpose of the promotion activity, the
finding is in line with results from Haiti, where GHD activities also had a negative association with self-
reported handwashing (Contzen & Mosler, 2013).
Figure 2. Total unstandardized effects of promotion activities on self-reported food-related handwashing. N = 443. Dark blue bars represent significant unstandardized regression coefficients with p < .05.
None of the remaining promotion activities; home visits, health education provided at gatherings,
health information provided at the market, handwashing demonstrations, an f-diagram, and pictures,
were significantly associated with handwashing; in their current form they do not appear to have the
potential to effectively change behavior.
Given the importance of handwashing in preventing diarrhea, these mixed results are disquieting and
call for alternative handwashing promotions beyond knowledge provision. Therefore, the goal of the
present research project, which is part of the recovery phase of Oxfam’s drought response of 2010-
2011, was to select new, evidence-based, and potentially more effective promotion activities, and
implement and test these in the Borena zone.
6 Mean levels of liking, conviction, and trustworthiness were M = 3.20 and higher on a scale ranging from 0 to 4.
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1.4 Theoretical background and research questions
Effective hygiene promotions change unhealthy, unhygienic behavior into healthy, hygienic behavior,
by altering behavioral factors within the individuals concerned. Therefore, a constellation of behavioral
factors must be present in the individual for a target behavior to be sustainably adopted.
Consequently, those hygiene promotions that affect these critical behavioral factors are most effective
in changing behavior. Behavioral factors potentially relevant in changing behavior were specified in a
recent model of behavior change; the RANAS model (Mosler, 2012)7, which integrates the behavioral
factors proposed by major theories of behavior change, such as the Health Belief Model (Rosenstock,
1974), Protection Motivation Theory (Floyd, Prentice-Dunn, & Rogers, 2000), or the Theory of Planned
Behaviour (Ajzen, 1991), into a comprehensive model. These RANAS factors can be classified into
five factor blocks: risk factors, attitude factors, norm factors, ability factors, and self-regulation factors.
A description of the five factor blocks is shown in Table 2.
Table 2
Overview of the RANAS model
Factor block Description
Risk factors Perceived vulnerability and perceived severity of contracting a disease, and factual knowledge about the possibility of being affected by a potential contamination.
Attitude factors Instrumental beliefs about costs and benefits of the targeted behavior, as well as affective beliefs, i.e., feelings arising when thinking about the behavior.
Norm factors Include different social influences: descriptive norms (behaviors typically performed by others), injunctive norms (behaviors typically approved or disapproved of by others) and personal norms (personal standards, what should be done).
Ability factors People’s perceptions of performing a behavior (perceived behavioral control) and the confidence in one’s ability to organize and manage the targeted behavior (self-efficacy).
Self-regulation factors
Help to manage conflicting goals and distracting cues when intending to implement and maintain a certain behavior. Important determinants are action control, coping planning, remembering the behavior, and commitment.
To accomplish the above specified research goal in the present study, the critical behavioral factors
first had to be specified; the behavioral factors explaining handwashing behavior were determined. On
the basis of this result, in a next step, handwashing promotions that were expected to target exactly
these behavioral factors were selected. The promotions were then implemented in four Kebeles in two
out of the four Woredas where GPDI was working during the drought response. The promotions’
effectiveness was tested longitudinally in a final step.
To summarize, the following research questions were addressed:
1. Which behavioral factors best explain handwashing with soap, and thus should be targeted by
handwashing promotions?
2. By means of which promotional activities is it expected that these behavioral factors will be
changed?
3. What is the intervention potential of the selected handwashing interventions on handwashing
behavior?
7 See Supplemental material 1 for the paper by Mosler (2012).
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2 Method
2.1 Research design
To answer the above research questions, a longitudinal research design was applied. That is, data
were collected at two points in time, with a promotion phase in between. Figure 3 displays the different
study phases. Between the end of the implementation period and the beginning of the follow-up data
collection, there was a time lag of 2–4 months. A longitudinal design provides evidence for the effects
of an intervention.
Figure 3. Study phases.
In addition, the selected handwashing promotions were tested in the field in an experimental design,
with four different Kebeles receiving different promotions, or combinations of these, respectively (see
further below).
2.2 Selection of the study areas and study households
Two out of the four Woredas where GPDI was working were chosen as study areas, according to their
geographic location near Yabello; Dillo and Dire. Within each of the two Woredas two Kebeles were
selected, according to the following criteria: limited NGO operation, apart from GPDI, reasonable
access, and type of the foregoing OA drought response. For Dire, Madacho and Gololcha were
selected, and Magole and Kancharo were chosen in Dillo. The selection of the four Kebeles was
approved by the zonal health office and the two Woreda health offices after they had received detailed
information about the research project; all three offices promised their support for the project. Kebele
leaders and elders were also visited to inform them of the planned research project and to ask for their
support, which was readily provided.
Within the Kebeles, Ollas (rural villages) were chosen according to size and accessibility. Only
households with at least one child under the age of 5 years, and where the primary caregiver was
present during data collection, were included in the study. Although the plan had been to select every
third household within an Olla, in the majority of Ollas the number of households was too small to
apply this procedure. Thus, every available household was included.
2.3 Data collection method and sample size
Data were collected in February and March 2012 (T1) and in February and March 2013 (T2), by
means of 2- to 3-hour household observations and structured face-to-face interviews. At T1, primary
caregivers of 463 households were interviewed. Of these, 426 households were maintained.
Therefore, with only 37 dropouts, the dropout rate was very low (8%). Half of the 37 dropouts (i.e., 18
Phase 1 – 1/1/12 to 4/30/12
Baseline data collection and baseline study to determine relevant behavioral factors
Phase 4: 1/1/13 to 6/30/13
Follow-up data collection and longitudinal study to evaluate the implemented
Phase 2 – 1/5/12 to 30/6/12
Selection of handwashing promotions, based on the results of phase 1
Phase 3 – 1/7/12 to 1/16/13
Implementation of the selected handwashing promotions
15
households) had moved to other Kebeles, a quarter was out of the village during the data collection
days (i.e., nine households), and six households were unexpectedly not at home at the appointed
time. Only three primary caregivers explicitly refused to take part in the second data collection (< 1%
refusal rate). The low dropout rate was achieved by the following measures:
1. The support of the Kebele leaders and elders was gained prior to data collection.
2. Each household was visited one day prior to data collection to convince the primary caregiver
to participate. It was explained in detail how important it was to maintain the households
observed and members interviewed in the baseline study for the success of the project.
3. The main reason for primary caregivers being reluctant to re-participate was that they had
planned to go to fetch water during the appointed observation and interview time. Therefore,
the research team started to go to fetch water for the study households, whenever indicated.
This dramatically boosted the willingness to participate. However, it simultaneously led to
many additional logistical and physical efforts by the drivers and the research team, especially
the Field Research Coordinator (FRC), and was very time-intensive.
In one Kebele, Kancharo, in 2012, data collection was terminated earlier than scheduled; fewer data
were collected than planned, leading to a relatively small sample size within this Kebele. The earlier
termination was caused by major exhaustion8, which affected the data collection team, the driver and
the research team. In 2013, new households (i.e., 128) were recruited in Kancharo to increase the
sample size. Thus, the sample size at T2 was 554 for the interviews. Observations were conducted in
151 out of the 463 households at T1. Of these, 141 were maintained at T2 (a dropout rate of 7%). As
all households were observed at T2, the sample size for observations at this time point was also 554
(see Table 3 regarding the distribution of the sample over the Woredas and Kebeles). The new
households recruited at T2 were not included in the primary longitudinal analyses.
The primary caregiver in each household was interviewed, since this is the person who is responsible
for childcare and food preparation, and thus has the highest chance of passing on diarrheal diseases
to other family members. In addition, primary caregivers are thought to be capable of influencing the
hygiene behaviors of other members of the household, especially children, and other members of the
community, by acting as role models and passing on their knowledge and habits. Only households
with a child under the age of 5 years were considered for observation/interview. All participants
provided informed consent.
The interviews and observations were carried out by a team of 10 (T1) and 14 (T2) local students and
social workers. Although female applicants were explicitly encouraged to apply for the job, the
research teams consisted of only two females, but 8 and 12 males, respectively. In Ethiopia, women
are still disadvantaged in terms of education. Therefore, we were not successful in finding a greater
number of women who possessed the skills and qualifications to accomplish the job. Analyses testing
for data collector effects showed that the gender of the data collectors did not influence the answers or
observation pattern.
8 The exhaustion was due to early departure times (as early as 4 am), long travel times (up to 2.5 hours’ drive), hard working conditions, and an enormous work-overload, caused by a prescribed limited timeline. This experience meant that data collection was reorganized at T2, insofar as a greater number of days were appointed for data collection, and the entire team stayed in the field to avoid the early departure times and long travel distances.
16
In both years, the team was trained in interviewing and observation techniques in a workshop, prior to
data collection, and supervised during data collection by researchers and the FRC. Observations and
interviews are both described in the following sub-sections.
Table 3
Distribution of the sample over Woredas and Kebeles
Woredas
Dillo Dire
Kebeles Madacho Gololcha Total Magole Kancharo Total
Dat
a co
llect
ion
met
ho
d
T1 Interviews 135 167 302 132 29 161
Observations 48 49 97 46 8 54
T2 Revisited Interviews & Observations
127 153 280 123 23 146
New HH Interviews & Observations
- - - - 128 128
Total Interviews & Observations
127 153 280 123 151 274
Note. HH = household.
2.3.1 2-3-hour household observations
Potential households were visited 1 day before planned observations, and asked for permission to
conduct the observation. The specific objectives of the study were undisclosed to avoid reactivity. In
addition, observers were instructed to keep interaction with household members to a minimum during
observation. At T1 and T2, observations began immediately after the family woke up in the early
morning (around 6 am). At T2, in order to conduct observations in all households, additional
observations were conducted at around 11 am, when the primary caregivers returned from fetching
water, collecting firewood, etc., and started to prepare lunch for their families. The observers seated
themselves in such a way that they could view handwashing behavior at key times. The following
critical behaviors engaged in by the primary caregiver were observed: cleaning a child’s bottom after
its defecation, clearing up a child’s feces, primary caregiver going to the bush or latrine for defecation9,
food preparation, feeding or breastfeeding10 a child, primary caregiver eating, drinking, and water-
handling11. In the case of a critical event occurring, it was marked down in a structured format, along
with the information regarding whether one or two hands were washed with water before or after the
event, respectively, and whether soap, ash, or sand was used. During data preparation, observed
handwashing was calculated for each critical event (e.g., food preparation) separately, as the
percentage of critical events (e.g., food preparation), in which both hands were washed with soap,
9 This could be observed quite straightforwardly, insofar as beneficiaries most often go for defecation right outside the Olla’s fence. Thus, the proxy for observing primary caregiver defecation was the latter leaving the house and going to a latrine, or passing through the fence and squatting behind a nearby bush. 10 In the Borena zone, breastfeeding is not a sensitive behavior that is done only in private or in front of family members or females. Thus, it was possible for male data collectors to observe breastfeeding as easily as did female data collectors. 11 Handling drinking water means taking water out of the jerry can stored in the house. This is not to be confused with water-fetching, whereby women go to a water source to collect water. The latter behavior was not observed; it happened before or after observation (depending on the time of observation), as the water sources are rather distant from the households.
17
ash, or sand, out of all critical events (e.g. food preparation) that happened, in which the person
should have washed her hands.
In each household, the primary caregiver was also interviewed immediately after the observation was
completed.
At T1, observations were conducted for 3 hours in each household, followed by a 1-hour interview.
However, it emerged that 3-hour observations did not fit with the usual schedule of Borena women,
who finish their household work around 2 to 3 hours after rising. They then leave the house to fetch
water at water sources distant from the house, look after the small livestock or collect firewood or
fodder. Therefore, they leave the house for 1 to several hours. This often caused earlier termination of
observations at T1, and enormous efforts of persuasion were required to convince participants to stay
at least for the interview. Furthermore, when participants were willing to stay for the remaining
observation time, they had no work to do, and were often just sitting around, chatting with the data
collector, without engaging in any critical behavior. Consequently, the duration of observations was
reduced to 2 hours at T2.12
Due to the reduction in observation time and the additional observations at 11 am13, somewhat fewer
critical events were observed at T2 than at T1. Since observed handwashing was calculated as a
percentage (see above), the reduction in critical events observed should not have influenced the
observation measure.
The sample size of the longitudinal observation data was too small for the purpose of drawing
statistically rigorous conclusions.14 The reasons for the small sample size are as follows:
1. Due to budget and time constraints, it was decided that not all study households, but only 200
out of 600, would be observed.15
2. At T1, only 151 observations could be conducted due to (a) difficulties in obtaining the
required number of households in each Kebele because of low population density and high
absence of households during data collection days, and (b) the earlier termination of the data
collection in one Kebele, in Kancharo.
3. During the observations, critical events happened with low frequency. Therefore, at T1 and T2
feces-related events were observed in only around 50% of the households; feces-related
events were observed at both T1 and at T2 in only 38 households. Furthermore, the average
12 The reduction was necessary, although water was fetched by the research team for the majority of the study households. 13 While we could observe behavior at both points in time, primary caregiver defecation, for example, happens more often in the early morning than around midday. The frequency of other behaviors, such as cleaning a child’s bottom, is not dependent on the time of day. 14 When sample sizes are too small, the power of a test is also small. This means that the test cannot detect associations or differences that are present in reality. 15 At T2, a greater number of observations could be conducted because (1) more days were available for data collection, (2) observations were also conducted at midday, and (3) additional money that was not part of the research grant was allocated for the data collection.
18
event frequency was below one for feces-related events and between three and four for food-
related events, meaning that the data drew on a limited number of observed events.16
As a consequence, observation data could not be used for the primary longitudinal analyses. Rather,
these had to be realized by using self-reported data collected by structured interviews.
2.3.2 Face-to-face interviews – questionnaire and measures
At T1 and T2, structured interviews were conducted in Afan Oromo. Each interview took around 1
hour, and was based on a questionnaire that covered socio-demographic characteristics, self-reported
handwashing frequencies, and behavioral factors, such as attitudes and beliefs. In addition, previously
experienced promotion activities were measured. The questionnaire was prepared in English and was
translated into Afan Oromo at T1 by an Ethiopian social worker who had been employed by Eawag in
earlier projects, and who was very familiar with the type of research and the associated questionnaire.
The translation of each question was subsequently checked in terms of its adequacy by the FRC and
the project leader together; the exact meaning of each question in English was discussed and
compared to the meaning in Afan Oromo. For T2, some additional questions were added. These were
translated by one of the data collectors at T1, a linguist that was also familiar with the research
background and the type of questionnaire. A countercheck was conducted at T2 in the same way as at
T1.
A pretest verified the applicability of the questionnaire (N = 20).
Figure 4. One of the data collectors conducting an interview with a primary caregiver.
Handwashing at key times: At T1 and T2, handwashing behavior was measured by means of self-
reports, using 5-point Likert-scales, ranging from “0 – almost a no time” to “4 – almost at each time”.
For the primary longitudinal analyses, the measure was recoded, ranging from 0% to 100%
handwashing, in order to make it easier to understand the results. The questions were introduced by
the sentence “In general, how often do you wash your hands with soap and water when the following
situations occur?” Surveyed key times were handwashing after defecation, after wiping a child’s
16 It has been suggested that household observations should be conducted for at least 3, or better, 5 hours. However, the limited timeline and the usual schedule of Borena women precluded longer observation times.
19
bottom, after other kinds of contact with feces, before eating, before preparing food, before feeding a
child, before breastfeeding a child, and before handling water. A sample question would be: “Before
you eat, how often do you wash your hands with soap and water?”
At T2, imaginative-covered handwashing recall was also used. In this, interviewees were presented
with short sequences of daily routines representing handwashing key times and asked to explain how
they usually carry out these routines, in as much detail as possible. An example would be:
Imagine you have just finished feeding the goats. Now your child is hungry and you have to feed it.
Please describe exactly what you do from leaving the goats’ house until you feed the child.
Data collectors recorded whether the interviewee mentioned handwashing with water, handwashing
with soap, or no handwashing behavior during the description of their routine.
Proxy measures were used at T1 and T2 as approximations for handwashing behavior, such as
presence of a designated place for handwashing, or presence of soap and water.
Behavioral factors were measured at T1 and T2, according to suggestions in the RANAS approach
(Mosler, 2012), and supplemented with items from previous handwashing studies (Aunger et al., 2010
see Annex 1 for example items, means and standard deviations). For each factor, one or several
questions were included in the questionnaire. Principal factor analysis with promax rotation and
reliability analysis were executed with SPSS 19 to test the factor structure. If possible, questions
measuring the same factor were combined in summary variables to facilitate the analyses (see Annex
1 for question numbers and Cronbach’s alpha). 9-point Likert-scales were used to measure bipolar
variables and 5-point Likert-scales were used to measure unipolar variables. With regard to risk
factors, the questionnaire included questions concerning perceived vulnerability and perceived
severity of a diarrhea contagion, and health knowledge. Attitude factors were covered by questions
measuring instrumental beliefs (i.e., efforts and costs, return, attractiveness, and nurture) and affective
beliefs (i.e., liking, the smell of soap and disgust). Furthermore, the questionnaire contained questions
capturing descriptive, injunctive, and personal norms, and compliance with community mobilizers.
Regarding ability factors, perceived behavioral control, maintenance and recovery self-efficacy,
response efficacy, and hindrance were included. Self-regulation factors were covered by questions
measuring action control, action planning, action knowledge, forgetting, control planning, and
commitment.
Promotion activities: Experience of promotion activities was surveyed by self-reports using a
dichotomous format; experienced versus not experienced. In addition, attitudes towards experienced
promotion activities and self-reported promotional effects were measured using Likert-scales.
2.4 Data analysis procedure
In phase 1, regression analyses were conducted to test which behavioral factors best explained self-
reported handwashing, on the basis of which handwashing promotions were selected. Regression
analysis is used to assess the amount of variance in a dependent variable, here handwashing, which
can be explained by one or more independent variable(s), here behavioral factors. An independent
variable explains the dependent variable if a change in the independent variable is accompanied by a
change in the dependent variable. For example, we could expect that ease of handwashing would
explain actual handwashing behavior. If the former actually explains the latter, than a change in the
perceived ease of handwashing should be accompanied by a change in the amount of handwashing
20
behavior. More specifically, if one person thinks that it is very easy to always wash hands, while
another thinks that it is very difficult to always wash hands, and if ease of handwashing does indeed
explain actual handwashing behavior, then the first person should show more frequent handwashing
behavior than the second person. The coefficients received by regression analysis indicate how much
the magnitude of handwashing changes when the magnitude of any of the relevant behavioral factors
changes, while all other variables are held fixed. Those behavioral factors that substantially explained
handwashing (B 0.10 and ≤ .05) should be targeted by promotion activities.
In phase 4, the effectiveness of the applied handwashing promotions was tested. A behavior increase
from T1 to T2 suggests that a particular intervention was successful in achieving its goal. Between-
subjects multivariate analysis of covariance (MANCOVA) was conducted to test for group differences
between the intervention groups, with regard to change in self-reported behavior. MANCOVA
evaluates whether the population means on a set of dependent variables vary across groups. In the
present study, MANCOVA tested whether groups (approximately Kebeles) experiencing different
promotions, or combinations thereof, differed in their means of change in self-reported feces- or food-
related handwashing. Therefore, the changes from T1 to T2 in self-reported feces- or food-related
handwashing served as the dependent variables in the analysis, while the handwashing promotions
were the independent variable. Change from T1 to T2 was calculated by subtracting the T1 values in
behavior from the values obtained at T2. Age and self-reported handwashing frequency at T1 were
entered as covariates.
In addition, Kruskal-Wallis tests, a nonparametric test equivalent to ANOVA and Jonckheere-Terpstra
tests, checking for linear trends in data, were conducted to test for group differences in terms of the
imaginative-covered handwashing recall at T2.
Further, mediation analyses were conducted to test whether the change in self-reported handwashing
behavior, due to the interventions, was mediated by the hypothesized behavioral factors. That is, we
assessed whether the tippy tap intervention and the public commitment intervention, or their
combination, in contrast to the control group (f-diagram-only), influenced the hypothesized behavioral
factors, and whether these influenced the handwashing behavior. Mediation analyses test for these
indirect influences. Indirect effects are obtained by multiplying the effect that an intervention has on a
single behavioral factor by the effect that this single behavioral factor has on handwashing. The total
indirect effect is the sum of all indirect effects per intervention and represents the association that an
intervention has with handwashing, via all behavioral factors tested. Finally, the total effect
summarizes the total indirect effect of an intervention and the direct effect that the intervention has on
handwashing. It is the overall influence of the intervention on the behavior.
For all analyses, all assumptions for conducting the analyses were tested and met and the a priori
level of significance was set at = .05.
In addition, the frequencies of observed handwashing behavior and some proxy measures were
examined between groups to improve understanding of the behavior change potential of the applied
promotion activities.
21
3 Results
3.1 Socio-demographic variables
The age of the respondents ranged between 15 and 96 years, with a mean age of 34.26 years (SD =
13.79). All respondents were female, and 90% were married. A total of 97% of the sample had never
attended school, and 98% could neither read nor write. Of the sample, 94% had traditional beliefs,
while the remaining 6% consisted of Muslims, Protestants, and Catholics. All the respondents were
Oromo. The main type of livelihood was pastoralism and livestock for 98% of respondents. On
average, study households comprised one child under the age of 5 years.
3.2 Results from the baseline survey
3.2.1 Frequency of handwashing at key times and their factor structure
To assess the prevalence of handwashing, two different measures were accounted for; self-reports
and observations.
For self-reports, the mean level of handwashing at key times was rather high (see Table 4). On
average, respondents stated that they washed their hands slightly more than most of the times after
wiping a child’s bottom (M = 3.34), after other kinds of contact with feces (M = 3.15), before eating (M
= 3.07), before preparing food (M = 3.05), and before feeding a child (M = 3.07). Hands were washed
slightly less than most of the times after defecation (M = 2.95), before breastfeeding (M = 2.76), and
before handling drinking water (M = 2.75).
Table 4
Means (M) and standard deviations (SD) of handwashing for self-reports and observations
Self-report Observations
Key time N M SD N M SD
After defecation 461 2.95 1.16 40 1.05 1.75
After wiping a child’s bottom 444 3.34 1.08 40 2.30 2.00
After other kinds of contacts with feces 461 3.15 0.99 44 2.09 2.02
Before eating 461 3.07 0.99 131 1.38 1.82
Before breastfeeding 352 2.76 1.26 54 0.49 1.15
Before feeding a child 443 3.07 1.09 79 1.21 1.82
Before preparing food 461 3.05 1.03 98 2.27 1.85
Before handling water 458 2.75 1.22 56 1.64 1.95
Note: Introductory question for self-reports: In general, how often do you wash your hands with soap and water when the following situations occur? All measures ranged from 0 – (almost) at no time /0 out of 10 times to 4 – (almost) each time / 10 out of 10 times. The same range applied to observations.
Observation data revealed that self-reported handwashing frequencies were overestimated (see Table
4). Observed behavior ranged between washing hands one out of 10 times (M = 0.49; before
breastfeeding) and washing hands approximately half of the times (M = 2.30; after wiping a child’s
bottom). While the mean levels of the observation data were markedly lower than the self-reported
results, the ranking order of the handwashing frequencies for the different key times was almost
22
identical (see Figure 5). The ranking differed between self-report and observation for only two key
times: washing hands before preparing food and washing hands before handling drinking water were
observed more frequently than would have been expected from the self-report ranking order.
Figure 5. Mean level of handwashing at key times – comparison between self-report and observational data.
All the analyses in the baseline study presented in the following were conducted using the self-
reported data. However, additional analyses using observation data would be valuable.
Confirmatory factor analysis with Mplus showed that self-reported handwashing can be divided into
feces- and food/water-related handwashing. To facilitate further analysis, two mean scores were
computed to represent the two factors (see Table 5). The first mean score incorporates handwashing
before eating, before preparing food, before feeding and before breastfeeding a child, and before
handling drinking water, while the second subsumes handwashing after defecation, after wiping a
child’s bottom, and after other kinds of contact with feces. Subsequent analyses were separately
conducted for feces- and food/water-related handwashing.
Table 5
Means (M) and standard deviations (SD) of feces- and food-related handwashing
Self-report Observations
Handwashing type N M SD N M SD
Feces-related hand washing (mean score) 463 3.15 0.97 77 1.76 1.84
Food-related hand washing (mean score) 463 3.00 0.92 146 1.63 1.54
Note: Range: 0 – (almost) at no time /0 out of 10 times to 4 – (almost) each time / 10 out of 10 times.
In addition to the prevalence of handwashing, the reasons given for handwashing were investigated
using an open questions format; that is, no answer categories were given (see Figure 6). The majority
of respondents stated that they wash their hands due to health reasons (52%), namely to protect their
health (14%) and protect against diarrhea (11%), sickness (18%), or bacteria (9%). Nevertheless, 30%
of the respondents said that they washed their hands to remove dirt or smell.
23
Figure 6. Reasons for washing hands with soap. Open question: “In general, why do you wash your hands with soap, ash, or sand?” N (stated reasons) = 1083.
3.2.2 Behavioral factors explaining handwashing behavior
To successfully change behavior, promotion activities must address the factors that influence
behavior. Therefore, in phase 1, the behavioral factors explaining self-reported handwashing had to be
identified to enable an evidence-based selection of promotion activities. Multiple linear regression
analyses were used to identify relevant behavioral factors for feces- and food-related handwashing
(see Table 6). Four behavioral factors were significantly and substantially positively associated with
feces- and food-related handwashing:
respondents who thought that diarrhea is severe (severity),
who washed hands to set a good example to the children (nurture – teaching),
who thought it is disgusting not to wash hands after defecation or before handling food
(disgust),
whose family members washed hands and expect the respondent to wash hands (norms),
tended to wash hands more often after any contact with feces and before handling food than other
respondents.
In addition, in terms of feces-related handwashing, respondents who felt committed to washing hands
tended to do so more frequently after any contact with feces than other respondents (commitment).
Further, one significant and substantial negative association was elicited for feces- and food-related
handwashing: respondents who thought they were often hindered in washing hands (hindrance) did so
less frequently than other respondents after any contact with feces and before handling food.
Moreover, and contrary to expectations, those who were certain that handwashing is effective in
prevention against diarrhea (response efficacy) washed their hands with soap less often before
handling food than did other respondents. However, in contrast with the regression results, the
correlation between response efficacy and food-related handwashing was positive. This indicates that
the negative association within regression could have emerged due to suppressor effects.
24
Table 6
Linear regression analysis for behavioral factors explaining self-reported handwashing
Handwashing type
Feces-related Food-related
Behavioral factor group
Behavioral factor
Constant -0.97 -0.48
Risk factors Perceived vulnerability -0.06 0.00
Conditional vulnerability: not washing hands 0.02 0.02
Conditional vulnerability: washing hands 0.05 0.01
Perceived severity 0.34*** 0.42***
Health knowledge -0.10 0.02
Attitude factors Instrumental – attractiveness 0.10 0.04
Instrumental – nurture: Health of children 0.09 0.07
Instrumental – nurture: Teaching 0.40*** 0.15*
Instrumental – return -0.09 0.03
Response efficacy -0.07 -0.13*
Affective – liking and pleasantness -0.03 0.00
Affective – cleanliness -0.04 -0.03
Affective – disgust 0.11* 0.15**
Norm factors Norms – descriptive and injunctive 0.34*** 0.50***
Personal norm – obligation 0.02 -0.10
Personal norm – guilt -0.06 -0.06
Compliance with HEW/CHV -0.02 -0.01
Ability factors Perceived behavioral control –
difficulties
-0.08 -0.07
Maintenance and recovery self-efficacy – handwashing in general
-0.03 0.04
Self-efficacy – feces 0.07 0.00
Hindrance -0.20** -0.19**
Self-regulation factors Action control 0.05 0.09
Action planning – handwashing facility -0.08 -0.02
Action knowledge – handwashing -0.02 -0.05
Coping planning – no water 0.04 -0.01
Coping planning – no agent 0.00 0.05
Coping planning – forgetting 0.03 -0.02
Commitment 0.16** 0.00
Adjusted R2 .51 .49
Note: *p ≤ .05, **p ≤.01, ***p ≤.001. Factors in bold should be considered for targeting by promotion activities, due to significance level ≤ .05 and unstandardized regression coefficient 0.10.
25
To summarize, five behavioral factors were revealed as those that should be targeted in handwashing
promotions to effectively change handwashing behavior: severity, the teaching aspect of nurture,
disgust, norms, and (lowering of) hindrance. Commitment is also relevant with regard to feces-related
handwashing.
The behavioral factors together explained 51% of the variance in feces- and 49% of the variance in
food-related handwashing. Therefore, 51% and 49%, respectively, of the differences between
respondents in the frequency of feces- and food-related handwashing were explained due to
differences in behavioral factors. An explained variance of around 50% is average within psychological
studies, while an explained variance of under 30% would be small, and an explained variance of over
60% would be high. The remaining 49% and 51%, respectively, of the variance is explained by factors
not captured within the analysis. These could be environmental facilitators or barriers (Curtis,
Danquah, & Aunger, 2009; Schmidt et al., 2009).
3.2.3 Prevalence of behavioral factors
The RANAS model (Mosler, 2012) states that a behavior is sustainably adopted when certain attitudes
and beliefs, the behavioral factors, are present at an optimal level in an individual. The nearer the
actual level is to this optimal level, the more likely it is that a behavior is executed (given that the
behavioral factor actually influences the behavior). Promotion activities should focus especially on
those behavioral factors for which the mean level is suboptimal, since they have the highest potential
to change. Annex 1 presents the behavioral factors included in the present study and their mean level
in the sample. Mean levels that were suboptimal are in bold lettering.
With regard to risk factors, the level of perceived vulnerability, conditional vulnerability, and health
knowledge was not optimal: the respondents were inadequately aware of the risk of contracting
diarrhea, and their knowledge of its causes and effects and prevention methods was insufficient.
The mean levels of the attitude factors were close to optimal. In particular, the levels of the
instrumental beliefs effort, expensiveness, distance of the handwashing facility, and time consumption
were almost perfect: respondents thought that it was not at all an effort, not at all expensive and not at
all time-consuming to wash hands, and that the handwashing facility was not at all distant from their
usual area of activity. In addition, the variance of these behavioral factors was near zero.
The mean levels of the following norm factors were only mediocre: descriptive and injunctive norms,
personal obligation, and compliance with the HEW/CHV, meaning that the belief that personally
important people approve handwashing and wash their hands themselves, was not markedly present,
nor was the feeling of being personally obliged to wash hands, or the tendency to wash hands to
comply with the HEW or CHV.
The ability factors were close to optimal in the sample. Only maintenance and recovery self-efficacy
had some progression potential, meaning, that respondents were not entirely sure whether they would
be capable of maintaining handwashing behavior, even when problems arise, or that they would
restart washing hands after being hindered.
Of the self-regulation factors, the level of action knowledge was only mediocre: people were not
completely aware of how to wash hands correctly. The level of coping planning was insufficient: most
of the respondents had no specific and detailed plan of how to cope with the problems of having no
water, having no handwashing agent, and of forgetting. Further, action planning had a very low
prevalence in the communities. This factor was measured very narrowly: respondents were asked if
26
they had a specific place and facility for handwashing. Only 8% of the respondents answered yes to
this question, while 92% had no particular handwashing facility and location.
In summary, the prevalence of the following factor blocks had progression potential: risk factors, norm
factors, and self-regulation factors.
3.2.4 Qualitative results: some observations
During data collection, some qualitative results were gathered in addition to the presented quantitative
results, primarily by researchers’ observations.
First, it was observed that respondents washed hands without utilizing any sort of handwashing
station, and did not have a designated place and facility for handwashing. Rather, the usual
handwashing technique in the communities was to pour water out of the 20 liter jerry can into a mug,
from which the water was then poured over the hands. This technique seems to be rather
inconvenient, especially when there is no one present to help in pouring the water; therefore, washing
both hands properly is rather challenging. It was accordingly expected that respondents would rate
handwashing as an effort. However, the opposite was true: handwashing was rated by the majority as
being no effort at all. There are three possible explanations for this: 1) respondents are actually
satisfied with their handwashing technique, and indeed do not perceive handwashing as an effort or as
inconvenient; 2) respondents are not actually satisfied with their handwashing technique, but are used
to it, and are not aware of more convenient alternatives, and thus do not perceive it to be an effort; 3)
effort was understood by the respondents in a physical sense (exertion of force), and does not
adequately capture the aspect of inconvenience; other words, such as “inconvenient” or
“cumbersome”, might have been more appropriate. While explanations 1 and 3 cannot be completely
ruled out, it seems most likely that the second explanation is correct: respondents are not aware of
how much a handwashing facility would ease their handwashing practice. In support of this
interpretation, there is an evidence base that shows that a designated place and facility for
handwashing fosters this behavior: “If a busy mother needs to look for soap before preparing a meal,
or a child does not have easy access to water and soap after using the latrine, the probability of
handwashing with soap actually taking place is lower (…) hand-washing with soap is positively
correlated with having a designated place for family members to wash their hands” (Devine, 2010).
Further studies showed that a handwashing device strengthens women’s intentions and plans to wash
hands (Devine & Koita, 2010), can act as a reminder (Nguyen, Paynter, & Thi Nguyen, 2011), and
facilitates behavior change (Devine & Peschiera, 2010).
Second, observational results showed that handwashing behavior was by far not executed at all the
times when it should have been, and when it was stated to be executed. While socially desirable
answering was certainly responsible for this gap between reported and observed handwashing
behavior, it is likely that forgetting also contributed. Although respondents claimed not to forget
handwashing at all, it is likely that they did not realize that they forgot to wash their hands. Regarding
other public health behaviors, such as water treatment, forgetting is traceable, and becomes evident
rather quickly and easily: if someone forgets to filter the water there is eventually an absence of
filtered water, so it becomes evident that the execution of the behavior was forgotten. However,
forgetting to wash hands at a certain moment may never become salient. Therefore, it might be the
case that forgetting is severely underestimated in the communities, and is indeed a major obstacle to
regular handwashing behavior.
27
3.3 Selection of handwashing interventions and their implementation process
Promotion activities to effectively change behavior must influence the critical behavioral factors and
optimize their prevalence in the beneficiaries. According to the above-reported quantitative and
qualitative results, several behavioral factors would have had the potential for targeting by promotion
activities (see Table 7 for a summary).
Therefore, a number of promotion activities would have been conceivable for implementation, or
forgoing promotion activities, implemented during the drought response, could have been optimized by
targeting exactly these behavioral factors. Annex 2 provides an overview of these potential
handwashing promotions, and gives some ideas as to how the forgoing promotion activities could
have been adapted. However, in order to test the promotion activities in as controlled a manner as
possible in an approximated experimental design, only a limited number of promotions could be
selected and implemented in the field; that is only a limited number of behavioral factors could be
decisively targeted.
Table 7
Overview on behavioral factors relevant for handwashing promotions
Factor blocks Behavioral factors Type of evidence
Risks Severity
Vulnerability
Health knowledge
Regression results: ≤ .05 and B 0.10
Prevalence in community is suboptimal
Prevalence in community is suboptimal
Attitudes
Nurture – teaching Disgust
Regression results: ≤ .05 and B 0.10
Regression results: ≤ .05 and B 0.10
Norms Descriptive and injunctive norms Regression results: ≤ .05 and B 0.10/prevalence in community
Personal obligation Compliance with HEW/CHV
Prevalence in community is suboptimal
Prevalence in community is suboptimal
Abilities Action knowledge Hindrance/Ease of performance
Prevalence in community is suboptimal
Regression results: ≤ .05 and B 0.10/qualitative results
Self-regulation Action planning Coping planning
Forgetting/Remembering
Commitment (feces-related handwashing)
Prevalence in community is suboptimal
Prevalence in community is suboptimal
Qualitative results
Regression results: ≤ .05 and B 0.10/qualitative results
Note. Behavioral factors in bold were decisively planned for targeting, that is, promotions were selected on the basis of these. Behavioral factors in italics were also expected to be affected by the selected promotion activities.
Combining the quantitative and qualitative evidence, two groups of behavioral factors were chosen to
be targeted: descriptive and injunctive norms, and hindrance and ease of performance. While several
promotion activities would have been conceivable for tackling these factors, the construction of
handwashing stations and a public commitment intervention were selected.
28
3.3.1 Public commitment intervention
A public commitment is an oral or written pledge or promise to change behavior, and includes the
announcement of the pledge to the community. It can be done by mass media (e.g., local newspaper),
via a poster that is put up, or in a community meeting, where the individual orally commits in front of
the community members.
For the present research project, we decided to organize community meetings in which the
participants would orally commit (see Supplemental material 2 for the written instruction). In return, the
participants would receive a commitment sign, a scarf, which they would be asked to wear to signify
their commitment (see Figure 7). In addition, commitment certificates would be handed out, which the
participants would be asked to pin up in their homes.
Figure 7. A primary caregiver wearing the public commitment scarf.
Public commitment was selected as an intervention, as it was assumed to tackle the descriptive and
injunctive norms (1) by beneficiaries witnessing community members publicly committing during the
community meeting and, in the longer term, (2) by beneficiaries seeing community members wearing
the scarf as a sign of their commitment, and by seeing their certificates (see Figure 8). While norms
could have been targeted by alternative interventions (see Annex 2), two positive side effects of the
public commitment were anticipated, which made this intervention the first choice: it was expected that
the intervention would foster (1) remembering by beneficiaries, on seeing their own and others’ scarfs
and certificates, and (2) commitment, by beneficiaries actually committing publicly.
To our knowledge, public commitment has never been used in handwashing or hygiene interventions
to date. However, it has been successfully applied to promote the use of solar disinfection (Huber,
2008; Kraemer & Mosler, 2012), HIV-prevention (Perlini & Ward, 2000), energy conservation (Richard
D. Katzev & Johnson, 1983; Pallak & Cummings, 1976; Shippee & Gregory, 1982), and recycling
(Richard D. Katzev & Pardini, 1987-1988).
29
Figure 8. Expected influence of public commitment intervention on behavioral factors and thus behavior.
3.3.2 Promotion of constructing tippy taps
As a second intervention, it was decided to motivate study households to construct a handwashing
station for their family, and to train and support them in the construction (see Supplemental material 3
for the written instruction). The type of handwashing station selected for promotion was the so-called
tippy tap. The tippy tap is constructed out of branches and a jerry can; an example is displayed in
Figure 9. It is operated by a foot lever, so that (1) both hands are free for handwashing and (2) the
chance for bacteria transmission is reduced, as the user touches only the soap (tippytap.org, n.d.).
The tippy tap uses only 40 milliliters of water for handwashing, versus 500 milliliters using a mug,
which is the traditional handwashing technique used in the Borena zone. In addition, the used “waste”
water can go to plants or back into the water table. The tippy tap is a low-cost technology and can be
made with local materials; therefore replacement parts can easily be organized.
Figure 9. A tippy tap constructed by one of the research households.
The acceptance and applicability of the tippy tap in the Borena zone was pre-tested in one of the study
Kebeles, Madacho, whereby GPDI constructed a tippy tap in the presence of the community, and its
members were invited to try it out. The community’s reaction was very positive: they liked the tippy
30
tap, thought that it was appropriate and locally applicable, and that it made handwashing easier (Gayo
Pastoral Development Initiative, 2013).
Households were motivated for construction during visits, in which they were invited, and convinced,
to construct a tippy tap. They were informed of the materials17 they would need to obtain for the
construction, and that GPDI would contribute a jerry can. If the households agreed to the construction,
they were supported in selecting the most convenient place for the handwashing station; that is, a
place that is near the usual area of activities and that is visible, so as to remind people of
handwashing. Constructions took place after a community meeting, during which the construction was
explained by the building of a tippy tap in the group, and where the jerry cans were distributed.
It was decided to motivate the households to construct the tippy tap by themselves to the end that the
intrinsic motivation and commitment to use and maintain it would be higher than if a handwashing
device had been provided and erected.
The construction of tippy taps was selected as an intervention, as it was assumed that it would
facilitate the behavior performance and with that to lower hindrance (see Figure 10). Further,
possession of a designated place and facility for handwashing fosters action planning. Seeing their
own and others’ tippy taps should help in remembering to handwash. Seeing community members
using their tippy tap was assumed to tackle social norms.
Figure 10. Expected influence of the tippy tap construction and maintenance-planning on behavioral factors, and thus behavior.
The selection is supported by evidence from previous studies showing that a designated place for
handwashing is correlated with higher levels of handwashing and lower disease occurrence (Biran,
Tabyshalieva, & Salmorbekova, 2005; Devine, 2010; Luby & Halder, 2008). Further research showed
that a handwashing device facilitates behavior performance by making water and soap easily
accessible, and that it helps in intention-formation and planning, as well as serves as a reminder
(Devine, 2010; Devine & Koita, 2010; Devine & Peschiera, 2010; Nguyen et al., 2011).
17 The materials were: four branches of wood, rope, a nail, digging tools, a knife, a candle, and gravel.
31
Maintenance-planning
A tippy tap is only of use when there is water and soap present, so an additional intervention was
chosen to target a continuous provision of water and soap at the tippy tap; the maintenance-planning
intervention. It was planned to visit households that had constructed a tippy tap, and motivate the
primary caregiver to establish a routine regarding when to fill water and when to check if soap has to
be replaced. The primary caregiver was invited to develop specific and realistic plans and fill out a
planning file, which should help them to remember their plans. The file is displayed in Annex 3.
Households were asked to pin the file up in their home. The maintenance plan was expected to tackle
action planning, more precisely, to ensure that soap and water was always available and accessible.
3.3.3 Intervention implementation plan and base intervention
The selected interventions were implemented in the four study Kebeles, as follows:
The tippy tap construction and the public commitment intervention were applied in a fully crossed
design (see Table 8). Therefore, in a first Kebele, Kancharo, neither of the two interventions was
implemented; in a second, Magole, the public commitment was implemented only; in a third, Gololcha,
the tippy tap construction was implemented only; and in the last, Madacho, both interventions were
applied.
Table 8
Overview of the implementation of the different interventions within the four Kebeles
Tippy tap construction
Not
implemented
Implemented
Maintenance-planning
Implemented Not implemented
Public
commitment
Not implemented Kancharo Gololcha, zone 2 & 3 Gololcha, zone 1
Implemented Magole Madacho, zone 1 & 2 Madacho, zone 3
For ethical reasons, it was not feasible to leave one Kebele without any intervention at all. Therefore, a
base intervention had to be selected for application across all four Kebeles. For that purpose, an
intervention that is rather regularly used by relief and development agencies, and which focuses
mainly on knowledge provision, was selected; the f-diagram, which depicts the diarrheal disease
transmission. This promotion activity had already been applied in the drought response in 2011, and
was found to have no association with handwashing behavior. However, in the drought response, the
f-diagram was used in a teacher-centered form by which the health workers explained the route of
contamination by means of the f-diagram. In contrast, it has been suggested that the f-diagram be
used in an interactive learning setting (Krukkert, da Silva Wells, Shrestha, & Duwal, 2010; WASH
Cluster, 2011). This form was also selected for the present interventions, that is, f-diagram group
exercises were conducted (see Supplemental material 4 for the written instruction). The f-diagram
exercise was implemented in the form of a health education session during a community meeting. At
the meeting, participants were divided into small groups. Each group received a set of picture cards in
32
a random order and was asked to put the pictures into an ordered sequences representing the route of
contamination for diarrheal disease (see Figure 11).
To our knowledge, the f-diagram exercise had never been formally tested with regard to its
effectiveness.
Figure 11. F-diagram cards in ordered sequence.
Figure 12. Expected influence of the f-diagram exercise on behavioral factors and thus behavior.
Application of the above-presented implementation design made it possible to test whether the public
commitment intervention and the tippy tap construction, respectively, are more effective in changing
handwashing behavior than the f-diagram exercise alone, whether the public commitment intervention
or the tippy tap construction is more effective, and whether the combination of the public commitment
intervention and the tippy tap construction is more effective than the two interventions alone.
Further, half of the households in which a tippy tap was constructed received a maintenance-planning
intervention, while the other half did not (see Table 8). Thus, it was possible to determine whether
tippy tap construction was more effective with or without maintenance-planning.
33
3.3.4 Implementation process, implementation personnel, and their training
The implementation process began with the signing of the project agreement by GPDI and the
government offices. A launching workshop was held by GPDI in Yabello, to which officials from the
zonal and district health offices and the Kebeles were invited and, furthermore, in which additional
staff from GPDI, OA, and Eawag participated. Its aim was to inform the key stakeholders about the
project in detail, to get their approval with regard to the selected interventions and the implementation
plan, and to gain their active support for implementation of the interventions. The latter included the
warranty that no concurrent promotions by the government or other NGOs would be conducted during
the project phase. In addition, in each Kebele, the leaders and elders were visited to ensure their
approval and support. Their support was especially crucial, due to their influence within the
communities and their being role models therein.
The promotion activities were implemented by 10 Behavior Change Agents (BCA, two or three per
Kebele) employed by GPDI. These were supported by HEWs (one or two per Kebele) and CHVs
(between four and six per Kebele). In both Woredas, a Districts Level Health Supervisor (DLHS,
employed by GPDI) supported and monitored the BCAs, HEWs, and CHVs. The overall responsibility
for the promotion implementation lay with GPDI’s WASH coordinator (WC). He was supported by the
FRC, a local Eawag employee, whose responsibility was the external monitoring of the implementation
process.
The BCAs were trained in a 2-day workshop outlined by Eawag, which also provided detailed written
instructions for each promotion activity (see Supplemental material 2-4), and detailed implementation
and monitoring plans. The workshop was held by the WC, two OA agents, and the FRC, and its goals
were to ensure that the BCA knew why and how the interventions were conducted, were aware of their
role and responsibility, and were aware of the implementation plan. Therefore, the baseline results
were first briefly presented and it was explained how the selected interventions were deduced from
these results. Second, the promotion activities were explained in detail. Third, the promotion activities
were practiced by means of role plays, including the construction of the tippy tap. Fourth, the BCA’
role and responsibility was explained, as well as the reporting chain and monitoring files. Finally, the
implementation plan per Kebele was discussed.
HEWs and CHVs were trained in additional workshops at Kebele level, which were held by the WC,
the FRC, and the responsible DLHS and BCA in each Kebele. In this training, the interventions were
explained in detail, and learning occurred by means of role plays. In the case of the tippy tap
intervention, these were actually constructed. After training, HEWs and CHVs were highly motivated,
and promised to contribute to the activities (Gayo Pastoral Development Initiative, 2013).
3.4 The implementation process: some qualitative results
3.4.1 Some incidents and inconsistencies in the implementation process
The implementation process was marked by some shortcomings. First, the planned monitoring
process was restricted, with the necessary transportation means not being appropriately provided.
This led to a lack of monitoring visits by the DLHSs during the entire implementation phase, and
especially by the WC and FRC. Consequently, the quality assurance of implementation was not
continuously guaranteed, and potentially necessary corrective actions could not be taken at all times.
Further, in one Kebele, Magole, the filled monitoring files were inconsistent with the information
provided by the respondents: while it was reported in the monitoring files that all primary caregivers
34
interviewed during the baseline data collection had been reached, 11% of the interviewed individuals
stated that they had not experienced the intervention. In contrast, in the other three Kebeles, where
the monitoring files indicated that a small amount of households could not be accessed, only 1-4% of
the respondents stated that they had not experienced the intervention.
Second, not all the promotion material was provided as instructed and agreed upon. Color prints of the
f-diagram cards could not be produced in due time. Therefore, the f-diagram-exercises had to be
conducted using qualitatively inferior monochrome prints. Further, the maintenance-planning file had
not been translated from English into Afan Oromo. As most of the beneficiaries were illiterate, the file’s
content was delivered by pictures and text in unison. Therefore, it can be assumed that beneficiaries
understood the file’s content, regardless. However, the same file in a local or a foreign language may
have a different impact, due to socio-cultural factors, such as familiarity, acceptance, or trust.
Moreover, the required number of promotion materials was not always available: several study
households stated that they did not receive the promised materials, such as the public commitment
scarf or certificate, or the jerry can to construct the tippy tap. In contrast, in other households that were
hindered in participating in the promotion activity, the promotion material was sent through a neighbor
or a relative. In doing this, the purpose of the promotion activity and of the sent material was not
adequately delivered: the concerned respondents were not aware of the content and sense of the
public commitment and its sign.
3.4.2 A specific shortcoming in the implementation process: the public commitment sign
Part of the public commitment intervention was the presentation of a public commitment sign to the
committing beneficiaries. Several deficiencies emerged with respect to this sign.
The first of these concerns the selection of the sign, a process that, although extended over several
months, resulted in a suboptimal choice. The following criteria guided the selection: being unique and
prominent, but nevertheless appropriate for the local cultural context, belonging and relating to the
primary caregiver instead of the entire household, and with a cost maximum of US$ 2. From the long
selection process, a scarf to be tied around the head appeared to be the most appropriate
commitment sign. However, after implementation it appeared that this scarf was inadequate as a
public commitment sign: only five respondents were actually wearing it when being invited for
observation and interview. This might be explained by the fact that, in the Borena zone, tying a scarf
around the head is rather common for men, but not particularly so for women. As women were not
used to wearing scarfs, they would have had to change their dressing behavior to do so. Therefore, a
behavior change would have been necessary merely to bring the public commitment sign into force
and with that, to elicit the intended behavior change, namely handwashing. Thus, a public commitment
sign should be something that it is either already customary to wear (so that no behavior change is
necessary), is permanently wearable (such as some jewelry), or is stationary instead of worn (such as
a door curtain). Although the selection took a long time and involved many discussions, the selected
sign should have been pre-tested carefully in the field in terms of its appropriateness.
There are indications that the idea behind the public commitment sign went astray during the BCA
training. The researchers’ original idea behind the sign was that people expressed their commitment to
the community by wearing the scarf; that is, that the commitment process proceeds to continuously
trigger social norms and commitment. However, what was taught during training, and consequently
conveyed to the communities, was that the scarf serves as a reminder to always wash hands with
35
soap at key times.18 This is reflected in the result that 86% of the respondents stated that they wear
the scarf as a reminder of handwashing, hygiene, or cleanliness, whereas only 2.5% stated that they
wear the scarf as a sign of commitment. Although provision of a reminder is a valid alternative
promotion strategy, the original strategy got lost.
In one Kebele, Magole, there is evidence to suggest that the basic idea of wearing the scarf to foster
handwashing behavior was completely overridden in some cases: respondents said that they were
told to wear the scarf to be given a lift, or simply to always wear the scarf when people from outside
visited the village, without any other explanation for wearing the scarf being given. For both of these
incidents of distortion, the link between scarf and handwashing was removed, rendering the scarf
impotent for eliciting handwashing behavior.
3.4.3 Interference in the data collection
During data collection, the enumerators were repeatedly informed by interviewees and the community
that promotion implementers had come to their villages and had informed residents of the forthcoming
data collection. Targeted individuals were asked to act in a promotion-favoring manner during data
collection. Therefore, they were asked to wear the public commitment scarf, to use the tippy tap
frequently, and to give favorable answers. How far data were affected by these interferences cannot
be assessed, but it could have happened in two ways: (1) respondents followed the request and
answered more favorably; or (2) respondents were indignant at the influencing attempts and reacted
with reactance by answering more unfavorably.
The research team tried to mediate the effect of these attempts by (1) asking the data collectors to be
attentive to such statements, especially as they were often given outside the immediate interview
situation, by (2) trying to obtain additional information beyond the scope of the questionnaire whenever
indicated, and by (3) adapting some of the data collection methods, such as recording whether the
target individual was wearing the public commitment scarf, not only during the interview, but also
during the interview invitation when the visit was unexpected.
Further, contrary to agreement, GPDI organized some bush-clearing and pond-rehabilitation activities
during data collection. Consequently, some target individuals were absent during planned data
collection and had to be visited at another time, leading to additional transportation and loss of time.
3.5 Reach of the promotion activities
Table 9 displays the reach of the promotion activities. Around a fifth of the sample experienced the f-
diagram-only intervention and the public commitment-only intervention. Slightly less (17%)
experienced the tippy tap intervention in combination with the public commitment. A total of 30%
experienced the tippy tap-only intervention. Although the implementation design was intended to reach
the complete study sample, 10% stated that they had not experienced any of the promotion activities.
Since self-selection processes might be responsible for the nonparticipation, these respondents were
excluded from further analyses.
18 That the scarf could serve as a reminder was assumed to be a positive side effect. However, the main idea of the scarf was to serve as a sign of commitment.
36
Table 9
Reach of the promotion activities
Intervention groups
NI FDO PCO TTO total PC+TT total
N 58 114 110 166 95
Percentage 10.7 21.0 20.3 30.6 17.5
TTO TTMPO PC+TT PC +TTMP
N 74 92 52 43
Percentage 13.6 16.9 9.6 7.9
Note. NI = no intervention; FDO = f-diagram-only; PCO = public commitment-only; TTO = tippy tap-only; TTMPO = tippy tap with maintenance-planning -only; PC+TT = public commitment and tippy tap; PC+TTMP = public commitment and tippy tap with maintenance-planning; TTO total = TTO and TTMPO; PC+TT total = PC+TT and PC+TTMP.
3.6 Influence of the handwashing interventions on selected outcome variables
3.6.1 Influence on observed behavior
In terms of observed behavior, the longitudinal sample was too small for the purpose of drawing
statistically rigorous conclusions.
As a consequence, only tendencies in behavior change can be reported by looking at the rate in
observed handwashing behavior before (T1) and after (T2; see Figure 13 and 14 and Annex 4) the
handwashing promotions. In Figures 13 and 14, the rate of feces- and food-related handwashing,
respectively, are displayed. That is, the percentage of observed situations in which study participants
actually washed their hands out of all the observed situations in which they were supposed to wash
their hands is displayed.
Observed handwashing after contact with feces was substantially higher at T2, compared to T1, for
the groups who experienced the tippy tap-only intervention or the combined tippy tap/public
commitment intervention (see Figure 13). In contrast, for the group who experienced only the public
commitment intervention, the handwashing rate was lower at T2, compared to T1. For the group who
experienced the f-diagram-only, the handwashing rate was higher at T2, compared to T1 (where
handwashing was non-existent). However, their handwashing rate at T2 was quite low, compared to
the rates of the groups having experienced the tippy tap-only intervention or the combined
intervention.
Figure 14 shows that observed food-related handwashing was rather low for all intervention groups at
T2. In the groups experiencing the tippy tap-only or the combined intervention, behavior did not
change from T1 to T2. In contrast, there was a substantial behavior decrease in the group who
experienced only the f-diagram, and a considerable decline in the group experiencing only the public
commitment intervention (see chapter 4.2 for a discussion).
37
Figure 13. Mean rates of observed feces-related handwashing at T1 and T2. * Handwashing rate was zero at T1.
Figure 14. Mean rates of observed food-related handwashing at T1 and T2.
In summary, handwashing rates at T2 compared to T1 tended to be most satisfactory in the groups
who experienced the tippy tap-only intervention or the combined PC+TT intervention, while they were
least satisfactory in the f-diagram-only group, followed by the public commitment-only group.
38
3.6.2 Influence on self-reported behavior
3.6.2.1. Self-reported handwashing behavior
To examine changes in self-reported handwashing behavior, self-reported handwashing at T1 was
subtracted from self-reported behavior at T2. This measure of change was examined using a
MANCOVA, while controlling for the age19 of the respondents and self-reported behavior at T120 (see
Annex 5 for more detailed statistical parameters).
In terms of feces-related handwashing, groups who experienced the combined intervention with
maintenance-planning changed most positively from T1 to T2, followed by those experiencing the
tippy tap-only intervention with maintenance-planning (see Figure 15). In contrast, handwashing
behavior decreased in those groups experiencing the f-diagram-only or the public commitment-only.
Change was marginal in the group experiencing the combined intervention without maintenance-
planning and the tippy tap-only intervention. Planned contrasts revealed that means differed
significantly between the f-diagram-only group and the two groups experiencing significant positive
change, and between the public commitment-only intervention and the group experiencing the
combined intervention with maintenance-planning. The effect size of the mean difference (MD) in
change between the most and least successful intervention (PubComm+TippyTap+MP versus
FDiagramOnly) was high: MD = 27%, d = .80.
Figure 15. Mean changes in self-reported feces-related handwashing from T1 to T2. PubComm = public commitment; TippyTap = tippy tap promotion; MP = maintenance-planning; FDiagram = f-diagram.
Figure 16 shows that, with regard to food-related handwashing, the group experiencing the combined
intervention, with or without maintenance-planning, changed most positively, while behavior
decreased again in the groups experiencing only the f-diagram or only the public commitment.
Marginal changes were found in the groups experiencing the tippy tap-only intervention, with and
without maintenance-planning. According to planned contrasts, means differed significantly between
the f-diagram-only and both tippy tap-only groups and both combined groups. The public commitment-
19 Age was the only socio-demographic variable that emerged as explaining handwashing behavior, insofar as older respondents showed greater behavioral change. Thus, age was the only socio-demographic variable included as a covariate in the MANCOVA. 20 At T1, the four Kebeles differed in terms of their mean self-reported handwashing behavior, with lower levels in Madacho and Gololcha than in Magole and Kancharo. Consequently, behavior at T1 was included as a covariate in the MANCOVA.
39
only group differed significantly from the combined group with maintenance-planning. The effect size
of the mean difference (MD) in change between the most and least successful intervention
(PubComm+TippyTap+MP versus FDiagramOnly) was also high: MD = 35%, d = 1.03.
Figure 16. Mean changes in self-reported food-related handwashing from T1 to T2. PubComm = public commitment; TippyTap = tippy tap promotion; MP = maintenance-planning; FDiagram = f-diagram.
To summarize, the results for change in self-reported handwashing supported the tendency found in
the observed data: in groups experiencing the f-diagram-only intervention or the public commitment-
only intervention, there was a behavior decrease, while change in groups experiencing the tippy tap-
only intervention or the combined intervention was positive, or only marginal.
3.6.2.2. Imaginative-covered recall
Handwashing was measured by means of the imaginative-covered recall at T2 only. Thus,
comparisons were only possible between intervention groups at this time. These were realized by
means of a Kruskal-Wallis test (see Annex 6 for more detailed statistical parameters). Figures 17 and
18 show the median rate of recalled feces- and food-related handwashing; the percentage of
descriptions of daily routines, in which study participants stated that they washed their hands with
soap, out of all the sequences of daily routines that were presented to the participants, is shown.
Feces-related handwashing was highest for groups experiencing the tippy tap-only intervention, or the
combined intervention, and lowest for the group experiencing the f-diagram-only (see Figure 17). A
significant trend was revealed, in as much as rates significantly increased from the f-diagram-only to
the combined intervention.
An almost identical picture was found for food-related handwashing (see Figure 18). Median
handwashing was lowest for the f-diagram-only group and the public commitment-only group, and
highest for the tippy tap-only and the combined intervention groups. This linear trend was again
significant.
40
Figure 17. Median rates of imaginative-covered recall of feces-related handwashing at T2.
Figure 18. Median rates of imaginative-covered recall of food-related handwashing at T2.
In summary, and similar to the results presented above in terms of the self-reported data, according to
the imaginative-covered recall, handwashing rates were lower for the groups having experienced the f-
diagram-only or the public commitment-only than for the groups having experienced the tippy tap-only
intervention or the combined intervention.
3.6.3 Proxy measures: tippy taps in function
A crucial facilitator of handwashing is a designated place and facility for handwashing, and the tippy
tap intervention directly tackled this. However, merely providing a tippy tap to a household is
insufficient to enable handwashing behavior. First, household members must recognize and accept a
handwashing station as their designated place to wash their hands. This is better achieved when
households are motivated to construct their handwashing station by themselves, than when a
handwashing station is simply provided. Therefore, in the present interventions, households were
motivated and supported in constructing their own tippy tap. Second, they have to maintain the
handwashing station and make sure that soap and water is always present at the tippy tap, which was
directly addressed through the maintenance-planning intervention.
In the two Kebeles where the tippy tap intervention was applied, 94% (Madacho) and 99% (Gololcha)
of the respondents actually constructed a tippy tap. That is, almost 100% heeded the call and invested
material and time in the construction.
While only a small minority of households stated that they had a designated place and facility for
handwashing at T1, at T2, in those groups having constructed a tippy tap (with or without combination
with public commitment), almost 100% stated that they had a designated place and facility for
41
handwashing (see Figure 19). Therefore, nearly 100% not only constructed a tippy tap, but were still
using it, and actually recognized the tippy tap as their designated place for handwashing. This is quite
substantial, especially when considering that the interventions had ended 2-4 months prior to data
collection.
Figure 19. Percentages of households having a designated place for handwashing at T1 and T2. FDiagram = f-diagram; PubComm = public commitment; TippyTap = tippy tap promotion; MP = maintenance-planning.
At T2, those respondents who stated that they had a designated place and facility for handwashing
were asked to show the place (in most cases the constructed tippy tap), and those stating that they did
not have a designated place and facility for handwashing, were asked to show the place where family
members most often washed their hands (in most cases the place where the jerry can with water was
stored). In both cases, the data collectors checked whether there was water and soap available at the
place they were shown.
In those groups having constructed only a tippy tap, water was present in more than 90% of cases
(see Figure 20). In the group having experienced the combined intervention with maintenance-
planning, water was present in almost 80% of cases. For the groups having experienced the
combination without maintenance-planning, or only the public commitment, or only the f-diagram,
water was present in fewer than 70% of cases.
Figure 20. Percentages of households having water at their usual place for handwashing at T1 and T2. FDiagram = F-diagram; PubComm = public commitment; TippyTap = tippy tap promotion; MP = maintenance-planning.
42
With regard to soap, again, the groups that had constructed a tippy tap were best positioned, with
soap being present in around 80% of cases (see Figure 21). In groups having experienced the
combination, soap was present in slightly more than half of cases. In less than half of cases, soap was
present in groups having experienced the public commitment-only, or the f-diagram-only.
Figure 21. Percentages of households having soap at their usual place for handwashing at T1 and T2. FDiagram = f-diagram; PubComm = public commitment; TippyTap = tippy tap promotion; MP = maintenance-planning.
All in all, groups that were invited to construct a tippy tap not only accepted the invitation in high
numbers, but they also recognized the tippy tap as their designated place for handwashing. What is
more, in 50-80% of the households, the tippy tap was functioning, with water and soap being present.
In contrast, in groups having experienced the f-diagram-only or the public commitment-only, water and
soap was present at the place where they most often washed their hands in only 40-60% of the
households.
3.6.4 Influence of maintenance-planning on self-reported behavior and presence of soap and water
The above results revealed that in terms of self-reported handwashing and the proxy measures,
groups with maintenance-planning were best-positioned. Consequently, we tested whether the tippy
tap intervention with maintenance-planning was significantly more effective than without maintenance-
planning. However, no significant differences were found between the tippy tap-only intervention with
and without maintenance-planning, and between the combined intervention with and without
maintenance-planning, in terms of self-reported handwashing behavior or the proxy measures of
having water and soap present (see Annex 7 for detailed statistical parameters).
43
3.7 Mechanism of change: Psychological variables explaining the influence of the handwashing interventions on change in self-reported handwashing
With regard to the mechanism of change, it was hypothesized that the public commitment intervention
would change handwashing behavior by influencing norms, commitment, and remembering. In terms
of the tippy tap intervention, it was assumed that the intervention would affect hindrance, action
planning, norms, and remembering, and thereby behavior. Mediation analyses were conducted to test
these hypotheses; that is, whether the public commitment and tippy tap interventions and their
combination, compared to the f-diagram-only group, explain a change in these behavioral factors,
which then explain a change in handwashing behavior. As mediators, the change in behavioral factors
from T1 to T2 was included. In addition to the hypothesized factors, (additional) behavioral factors,
which emerged from regression analyses to significantly explain change in handwashing, were also
included in the mediation analysis to test whether additional factors can explain the intervention
effects.21 These were vulnerability and severity for both outcomes, nurture to keep children healthy
with regard to feces-related handwashing, and nurture as setting a good example, with regard to food-
related handwashing. The associated regression analyses are presented in Annex 8.
In Figures 22 and 23, mediation results for change in feces- and food-related handwashing,
respectively, are presented.22 On examination of the influence of the interventions, it appears that
public commitment-only, compared to the control group, had no significant influence on any of the
behavioral factors in both mediation models. In contrast, tippy tap-only and the combined intervention
(public commitment and tippy tap) led to a positive change in norms and action planning, and to a
reduction in hindrance and forgetting. In the feces-related handwashing model, the latter intervention
additionally influenced change in nurture to keep children healthy. While tippy tap-only and the
combined intervention explained food-related commitment, this was not the case for feces-related
commitment, the latter result contradicting the hypotheses. Regarding the associations between
hypothesized mediators and handwashing, only two behavioral factors significantly explained feces-
and food-related behavior change; norms and forgetting. In parallel with results from the baseline
study, commitment itself explained only feces-, but not food-related handwashing. Hindrance and
action planning, did not at all explain change in handwashing. When looking at mediation effects (blue
arrows), it appears that norms and forgetting significantly mediated the effect of tippy tap-only, and the
combined intervention. In the feces-related model, nurture was also found to mediate the influence of
the combined intervention.
To summarize, compared to the control group, tippy tap-only and the combined intervention had the
hypothesized influences on norms, hindrance, action planning and remembering, and thus behavior.
Commitment was tackled only in terms of food-related handwashing. However, public commitment-
only had no influence on any of the hypothesized behavioral factors, and thus, neither on behavior.
21 Factors that do not explain change in handwashing behavior cannot mediate an intervention effect. 22 Mediation tables are presented in Annex 9.
44
Figure 22. Mediation results comparing intervention groups to the control group, f-diagram-only: Effects of interventions on change in selected behavioral factors and of change in selected behavioral factors on change in feces-related handwashing. Numbers next to the arrows indicate unstandardized regression coefficients. Higher numbers signify stronger associations. Only significant coefficients with p < .05 are displayed. Behavioral factors that were hypothesized to mediate the interventions’ effect are highlighted in lilac. Significant indirect paths are marked in blue.
Figure 23. Mediation results comparing intervention groups to the control group, f-diagram-only: Effects of interventions on change in selected behavioral factors and of change in selected behavioral factors on change in food-related handwashing. Numbers next to the arrows indicate unstandardized regression coefficients. Higher numbers signify stronger associations. Only significant coefficients with p < .05 are displayed. Behavioral factors that were hypothesized to mediate the interventions’ effect are highlighted in lilac. Significant indirect paths are marked in blue.
45
4 Discussion
4.1 Baseline results: behavioral factors to be addressed and derived promotion activities
With regard to research question one (Which behavioral factors best explain handwashing with soap,
and thus should be targeted by handwashing promotions?), regression analyses revealed that the
following behavioral factors best explained handwashing behavior in our study, and should thus be
considered for future promotion activities:
severity
nurture to teach children
disgust
descriptive and injunctive norms
hindrance
commitment.
As a second selection criterion, mean levels of the behavioral factors were examined. Its goal was to
specify those behavioral factors that significantly explained handwashing behavior, while
simultaneously having only a small or mediocre mean level in the communities. This combined
examination suggested that descriptive and injunctive norms have the highest intervention potential
(high regression coefficient and only mediocre mean level), and should thus be targeted by
handwashing promotions.
Further, qualitative results suggested that a rather cumbersome handwashing technique, washing
hands with a mug, was prevalent in the community, and this seemed to inhibit an easy behavior
performance. In addition, forgetting might have been a major obstacle to regular handwashing
behavior.
Research question two read: By means of which promotional activities is it expected that these
behavioral factors will be changed? Several interventions were considered to target norms (see Annex
2). However, the first choice was a public commitment intervention, as it was anticipated that it would
not only change norms, but also, as a positive side effect, help in remembering. Easy behavior
performance was expected to be best met by households using a handwashing facility. Therefore, the
promotion of a tippy tap construction was selected. Again, a positive side effect of remembering was
anticipated.
4.2 Longitudinal study: summary of the interventions’ effect
When looking at the combined evidence drawn from observed and self-reported data and from proxy
measures, it was revealed that the tippy tap-only intervention and its combination with public
commitment have promising intervention potential with regard to handwashing: observed
handwashing behavior tended to be higher at T2 than T1 for these groups (feces-related), or did not
decrease (food-related), changes in self-reported handwashing behavior from T1 to T2 were positive
for these groups, and the median level in the imaginative-covered recall at T2 was highest for these
groups. Further, nearly 100% of the households that were asked to construct a tippy tap actually did
so, and recognized it as their designated place for handwashing. In addition, the vast majority of these
households had a functioning tippy tap, with water and soap being present, at T2; 2-4 months after
implementation completion. In contrast, for the group that experienced only the f-diagram, the
behavior decreased in frequency or was at a low level at T2. Further, these households rarely had a
46
designated place for handwashing, and soap and water were not easily accessible for handwashing in
more than half of the households. Although less pronounced, the same was true of the public
commitment-only intervention.
While the f-diagram exercise was selected as a base intervention in part because no substantial effect
on handwashing behavior was expected, it was not anticipated that frequency of behavior might
decline. Moreover, public commitment was selected specifically to boost social norms and, with that,
behavior. However, the opposite was true, with the public commitment-only intervention having a
marginal, or even detrimental, effect on handwashing behavior. There are several potential
explanations for these results, as follows:
1. The f-diagram exercise and the public commitment intervention had no impact and were not
capable of slowing the natural decrease in behavior. The baseline data collection took place
immediately after the drought response had finished. It is credible that handwashing was at a
rather high level, due to the handwashing promotions that had been conducted as part of the
drought response. However, there are studies that show that sustainability of behavior change
is not always a given (Arnold, Arana, Mausezahl, Hubbard, & Colford, 2009; Luby et al.,
2009). Thus, behavior might have decreased from T1 to T2 because the forgoing behavior
change was unsustainable. Having no impact, the interventions were not capable of slowing
this decline.
2. The f-diagram exercise had a genuinely negative impact. The f-diagram exercise assessed
the route of contamination as a whole. That is, it depicted not only how handwashing can
prevent diarrhea, but also how, amongst other things, sanitation and safe water are crucial.
These are not comprehensively guaranteed in the area. It is credible that participants were
over challenged by the sheer number of changes necessary, so they gave up instead of
focusing on the feasible changes. Whether this was the case could be further investigated in
focus groups.
3. The public commitment-only intervention was unsatisfactorily implemented, and was
accordingly unable to fulfill its potential and to slow a natural behavior decline (which would be
explained analogous to point 1). There are two reasons for concern with regard to the correct
implementation of the public commitment-only intervention. First, if it were the public
commitment intervention in itself that did not work, the combined intervention should have
performed the same, or poorer, than the tippy tap-only intervention. However, the opposite
was true. Second, it was in the Kebele with public commitment-only, Magole, where the
majority of concerns around implementation quality arose.
With regard to the maintenance-planning, groups experiencing this intervention had a tendency toward
more positive outcomes than those not experiencing it. However, these differences were not
significant. For maintenance-planning to be effective, it is crucial that the stated plans are specific and
realistic. It might be that some of the plans did not meet this criterion, which would lower the
effectiveness of this intervention. Further, as stated, the maintenance-planning file was, contrary to
instructions, not translated from English into Afan Oromo. It is possible that beneficiaries would have
more widely accepted a file written in their own language and thus, would have felt more committed to
following their plans. Moreover, to fulfill its intervention potential, the maintenance-planning file should
serve as a reminder to actually implementing the plans. The file, being a monochrome print, might
have been unable to awaken attention and thus, serve as a prompt. Future studies should address
these issues by investigating how specific and realistic are the established plans, by comparing the
impact of files in a foreign and local language, and by using eye-catching maintenance-planning files.
47
In terms of the mechanism of behavior change, it had been hypothesized that public commitment
would change handwashing behavior by influencing norms, commitment, and remembering. In terms
of the tippy tap intervention, it was assumed that it would affect hindrance, action planning, norms, and
remembering, and thereby behavior. Mediation analyses revealed that public commitment-only, when
being compared to f-diagram-only, had no associations with any of the hypothesized behavioral
factors, and thus, neither with behavior. Tippy tap-only and the combined intervention appeared to
have the hypothesized associations with norms, hindrance, action planning and remembering. This is
in line with previous research showing that a handwashing station (1) facilitates behavior performance,
by making water and soap easily accessible, (2) helps in planning, and (3) serves as a reminder
(Devine, 2010; Devine & Koita, 2010; Devine & Peschiera, 2010; Nguyen et al., 2011). Further, food-
related commitment was also associated with the combined intervention and the tippy tap-only,
although the latter association had not been hypothesized. Since hindrance, action planning, and
commitment with regard to food-related handwashing did not explain behavior, it emerged that only
norms and forgetting significantly mediated the association of tippy tap-only and the combined
intervention with behavior. Apart from the hypothesized mediating behavioral factors, only nurture to
keep children healthy was associated with an intervention, that is, the combined intervention, and
mediated the intervention’s association with behavior.
In conclusion, and in response to research question three (What is the intervention potential of the
selected handwashing interventions on handwashing behavior?) it can be stated that:
The tippy tap has a promising intervention potential: the tippy tap-only intervention and the
combined intervention had positive outcomes and explained the hypothesized behavioral
factors. This is in accordance with previous research showing that a designated place for
handwashing is correlated with higher levels of this behavior (Biran et al., 2005; Devine,
2010).
The potential of the public commitment intervention is uncertain: the public commitment-only
had negative outcomes, while the combined intervention had positive outcomes and did
explain, as hypothesized, food-related commitment. While the present study is, to our
knowledge, the first to apply a public commitment to promote handwashing or hygiene, our
inconsistent results are in contrast with research in other fields, where public commitment was
successfully applied (e.g. Huber, 2008; Kraemer & Mosler, 2012; Perlini & Ward, 2000).
However, one very recent study also found detrimental effects of a public commitment
intervention on well-switching in Bangladesh (Inauen & Mosler, 2013). Further research is
required to test the potential of a public commitment intervention in hygiene, which is
implemented in accordance with instructions.
The intervention potential of the f-diagram exercise is questioned: the f-diagram-only had
negative outcomes. To our knowledge, the f-diagram exercise has never been formally tested.
However, it was applied in a teacher-centered form during the drought response without
having any association with handwashing behavior (see chapter 1.3). An in-depth analysis of
the f-diagram exercise, including qualitative and quantitative approaches, would be valuable.
The intervention potential of maintenance-planning is uncertain. Although maintenance-
planning had positive outcomes, they were not statistically significant. Further research is
required to address this.
48
Of course, the question regarding sustainability of change is related to the intervention potential.
Several studies have addressed this question in the field of hygiene behavior change, revealing rather
inconsistent results. In some cases, behavior change persisted, sometimes even after time-spans of
several years (Cairncross & Shordt, 2004; Cairncross, Shordt, Zacharia, & Govindan, 2005; Wilson &
Chandler, 1993), while in others, behavior declined dramatically within 1 or 2 years (Arnold et al.,
2009; Luby et al., 2009). It is promising that the present research project revealed behavior change up
to 4 months after intervention termination. To assess the sustainability of change, a follow-up, 1 or
more years after intervention termination, would be necessary. However, due to the high government
and NGO activity in the Borena zone, it is questionable, whether differences between Kebeles could
be traced back to the interventions. This was possible for the present research, due to the zonal and
districts health offices’ warranty that no concurrent promotions by the government or other NGOs
would be conducted during the project phase.
Of course, for a lasting behavior change, external facilitators or barriers are also crucial. One of these
is adequate availability of water, which is not always guaranteed in the Borena zone. It is to be feared
that handwashing rates will drop in the case of another drought situation. However, the tippy tap might
have a leveling effect, by using only 40 milliliters of water for handwashing versus 500 milliliters if a
mug is used (tippytap.org, n.d.).
4.3 Limitations
The findings in this report are subject to the following limitations.
In terms of observed behavior, the longitudinal sample was rather small, which limited the options of
conducting analyses with these data. As already stated in chapter 2.3.1, the following points led to the
small sample size:
1. Due to budget and time constraints, it was decided to observe not all study households, but
only 200 out of 600.
2. At T1, only 151 observations could be conducted (a) due to difficulties in obtaining the
required number of households in each Kebele, because of low population density and high
absence of households during data collection days, and (b) due to the earlier termination of
the data collection in one Kebele, Kancharo.
3. During the observations, critical events happened with low frequency. That is, at T1 and T2
feces-related events were observed in only around 50% of the households; feces-related
events were observed in only 38 households at both T1 and at T2. Furthermore, the average
event frequency was below one for feces-related events and between three and four for food-
related events, meaning that the observed data drew on a limited number of observed events.
As a consequence, the main analyses had to draw on self-reported data. Several scholars have
previously emphasized the problem of inflated self-reports in terms of socially desirable behavior,
including handwashing behavior (Biran et al., 2008; Curtis et al., 1993; Halder et al., 2010; Manun'Ebo
et al., 1997). Nevertheless, it is worthwhile examining self-reported handwashing behavior. While an
overestimation in self-reports is beyond dispute, the four applied measures (i.e., observations, self-
reports, imaginative-covered self-reports, and proxy measures) all pointed in the same direction. Thus,
it is unlikely that self-reports and observations are completely disconnected. However, a validation of
the primary results by means of observational data would be preferable. Further, an in-depth analysis
49
of the interrelationship between the different applied measures would be valuable, and, in doing so,
factors potentially explaining over-reporting should be tested. While social desirability is certainly one
component, it might be the case that other factors are also involved, such as recall errors or inconstant
or interrupted domestic work.
Each of the interventions or intervention combinations, respectively, was applied in one Kebele. With
that, differences in behavior or behavior change that are genuine to a Kebele might blur the
interventions’ effect. To rule out such a cluster effect, a cluster-randomized controlled trial would have
been ideal. In such a design, each intervention is randomly assigned to several clusters. Such an
approach did not seem feasible in the present project, due to the following:
1. Because of time constraints at T1, and since it was only possible to work in Kebeles where
GPDI had conducted drought response23, it was not feasible to collect data in more than four
Kebeles.
2. Within Kebeles, the Ollas, although being rather scattered, are in constant and close contact.
Therefore, it did not seem practical to apply different interventions in different Ollas within the
same Kebele (that is, to work with the Ollas as clusters), as this might have raised social
tensions.
To level this shortcoming slightly, the analyses looked at the change in behavior, while controlling for
handwashing rates at T1.
Although we attempted to apply the handwashing interventions in a standardized and controlled
manner, it became apparent that monitoring was insufficient, and that the implementation quality was
sometimes questionable. As a consequence, it is not clear whether the public commitment intervention
had a genuinely small impact, or if it was prevented from fulfilling its potential, due to implementation
problems.
Although the public commitment sign was selected by means of a long consulting process, there are
indications that scarfs are suboptimal in the Borena zone as public commitment signs, especially as
the wearing of them would itself have required a behavior change. In future interventions, a public
commitment sign that is fixed or installed somewhere, while being publicly visible, or which is
permanently worn, should be used.
The targets of the study were primary caregivers. As a consequence, the sample contained only
women. Therefore, the research findings primarily apply to women. It might be that different
conclusions would be drawn for male beneficiaries. This could be tested in subsequent analyses.
23 That means it was not possible to select, for example, the 10 most easily accessible Kebeles to save time.
50
5 Conclusions and recommendations
The present research project tested the effectiveness of two handwashing promotions, which had
been selected on the basis of evidence and theory, a public commitment intervention, and the
promotion of tippy taps, in the Borena zone.
The implementation of the public commitment intervention-only had no influence on handwashing
behavior. However, since there is evidence to suggest that this specific intervention was not
implemented strictly according to instructions, it is doubtful that public commitment should be
abandoned as a handwashing intervention. Further research is necessary to better assess the
intervention potential of public commitment to promote handwashing behavior. If applied, it is
recommended to (1) carefully select the public commitment sign by thorough pre-testing and (2) to
ensure careful intervention implementation, according to instructions and close monitoring. The latter,
of course, is true of every intervention.
More importantly, the research project revealed the promising potential of a tippy tap promotion:
almost all study households were successfully motivated to construct a tippy tap, nearly all households
that constructed a tippy tap recognized it as their designated place for handwashing, and in a
substantial number of households, after 2-4 months of intervention termination, the tippy tap was
functioning, with water and soap being present. Maintenance-planning seemed to aid the positive
outcome. Therefore, further application of the tippy tap intervention can be highly recommended to
promote handwashing; if possible, in combination with maintenance-planning. The use of tippy taps is
advisable in a water-scarce region, such as the Borena zone, in particular; it uses less than one-tenth
of the water used by the traditional handwashing method; using a mug. When applying the promotion,
it should be ensured (1) that the beneficiaries contribute part of the materials and construct the tippy
tap themselves, so as to strengthen their commitment, (2) that the maintenance plans are specific and
realistic, so as to be applicable, and (3) that the maintenance-planning file is in the local language and
is eye-catching to serve as a reminder.
To conclude, the tippy tap intervention successfully induced a crucial prerequisite for handwashing: a
designated place and facility for handwashing, where soap and water is present.
51
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Annex
Annex 1
Overview of the behavioral factors: questions, sample size, means, standard deviations and Cronbach’s alphas for scales
Behavioral factor group Behavioral factor Questions N M SD Range
Risk factors Perceived vulnerability (2 question) How high do you feel is the risk that the child under the age of 5 in your household gets diarrhea?
463 1.31 1.33 .90 04
Conditional vulnerability: not washing hands (1 question)
How likely is it that you get diarrhea if you DO NOT wash your hands with soap and water after contact with feces and before handling food?
463 2.80 1.09 04
Conditional vulnerability: washing hands (1 question)
How likely is it that you get diarrhea if you DO wash your hands with soap and water after contact with feces and before handling food?
463 1.56 1.50 04
Perceived severity (4 questions) Imagine that you contracted diarrhea, how severe would be the impact on your life in general?
463 3.63 0.48 .76 04
Health knowledge (3 questions) Can you tell me what causes diarrhea? 463 0.71 0.33 .68 04
Attitude factors Instrumental – Effort (1 question)a Do you think that washing hands with soap and water takes a lot of effort?
463 0.01 0.19 04
Instrumental – Expensiveness (1 question) a
Do you think that washing hands with soap and water is expensive?
463 0.31 0.76 04
Instrumental – Distance handwashing facility (1 question) a
Do you think that the hand washing facility is far away from your usual area of activity?
462 0.05 0.33 04
Instrumental – Time consume (1 question) a
Do you think that washing hands with soap and water is time-consuming?
463 0.06 0.35 04
Instrumental – Attractiveness (1 question)
Do you feel more attractive when you wash your hands with soap and water?
463 3.44 0.65 04
Instrumental – Nurture: Health children (1 question)
Do you think that you risk the health of your children if you don’t wash your hands with soap and water?
462 3.05 0.92 04
(continued)
55
Annex 1 (continued)
Behavioral factor group Behavioral factor Questions N M SD Range
Instrumental – Nurture: Teaching (1 question)
Do you wash your hands with soap and water because you wish to set a good example to the children?
463 3.26 0.67 04
Instrumental – Return (1 question) Considering all the benefits and efforts related to washing hands with soap and water, how much do you think is it worthwhile for you to wash hands with soap?
463 3.40 0.78 -44
Affective – Liking and pleasantness (3 questions)
How much do you like or dislike washing hands with and water?
463 3.65 0.59 .76 -44
Affective – Perfume spoiling food (1 question)
Do you think that if you wash your hands with soap before eating the perfume of the soap spoils the taste of the food?
463 0.42 1.02 04
Affective – Cleanliness (1 question) Do you think that soap is only needed when you have stubborn dirt on your hands that can’t be re-moved only with water?
463 0.68 1.19 04
Affective – Disgust (1 question) – feces
Do you feel dirty if you don’t wash your hands with soap and water after defecation?
463 3.28 0.90 04
Affective – Disgust (1 question) – food
Do you think it is disgusting not to wash hands with soap and water before handling food?
463 3.28 0.73 04
Norm factors Norms – descriptive and injunctive –feces (4 questions)
People who are important to you, do they rather approve or disapprove if you wash your hands with soap and water after contact with feces?
463 2.79 0.85 .72 -44
Norms – descriptive and injunctive – food (3 questions)
How many people of your community wash hands with water and soap before handling food?
463 2.77 0.84 .67 -44
Personal norm – obligation – feces (1 question)
Do you feel a personal obligation to wash hands with soap and water after contact with feces?
463 2.95 0.74 04
Personal norm – guilt – feces (1 question)
Would you feel guilty if you didn’t wash hands with soap and water after contact with feces?
463 3.11 1.03 04
(continued)
56
Annex 1 (continued)
Behavioral factor group Behavioral factor Questions N M SD Range
Personal norm – obligation – food (1 question)
Do you feel a personal obligation to wash hands with soap and water before handling food?
463 2.96 0.79 04
Personal norm – guilt – food (1 question)
Would you feel guilty if you didn’t wash hands with soap and water before handling food?
463 3.11 0.96 04
Compliance with HEW/CHV (1 question)
Do you wash your hands with soap and water because the Extension or Volunteers told you to do it?
463 2.25 1.22 04
Ability factors Perceived behavioral control –difficulties general handwashing (2 questions)
How difficult is it to get as much water as you need to always wash hands with soap and water?
463 0.78 1.14 .82 04
Response efficacy (1 question) How certain are you that washing hands with soap and water after contact with feces and before handling food prevents you and your family from getting diarrhea?
463 3.30 0.69 04
Self-efficacy – Maintenance and recovery – handwashing in general (4 questions)
How confident are you that you can wash hands with soap and water even if urgent tasks arise which interfere with handwashing?
463 2.28 1.18 .87 04
Self-efficacy – food (1 question) Do you think you are able to always wash hands with soap and water before handling food?
461 3.02 0.83 04
Self-efficacy – feces (1 question) Do you think you are able to always wash hands with soap and water after contact with feces?
462 3.01 0.85 04
Hindrance (3 questions) When you think about the last 24 hours: how often did it happen that you intended to wash hands with soap and water but were hindered in doing so?
463 0.57 0.71 .74 04
Self-regulation factors Action control (2 questions) How aware were you of your goal to wash hands with soap and water?
463 3.01 0.66 .52 04
Action planning – handwashing facility (1 question)
Do you have a specific place and facility for handwashing? 453 8%b 0 / 4
(continued)
57
Annex 1 (continued)
Behavioral factor group Behavioral factor Questions N M SD Range
Action knowledge – hand washing (1 question)
Can you show me how you usually wash your hands? 407 2.83 0.82 04
Coping planning – No water (1 question)
Do you have a plan what to do when there is no water for handwashing?
461 0.71 0.95 04
Coping planning – No hand washing agent (1 question)
Do you have a plan what to do when there is no soap for handwashing?
460 1.10 1.32 04
Coping planning – Forgetting (1 question)
Do you have a plan what to do to avoid forgetting to wash hands with soap and water?
452 0.20 0.69 04
Forgetting (1 question) a When you think about the last 24 hours: how often did it happen that you intended to wash hands with soap and water and then forgot to do so?
463 0.22 0.43 04
Commitment– feces (1 question) Do you feel committed to wash hands with soap and water after contact with feces?
463 3.08 0.80 04
Commitment– food (1 question) Do you feel committed to wash hands with soap and water before handling food?
462 3.11 0.74 04
Note: a Variables excluded from further analysis due to low variance. b Instead of the mean the percentage of households having a specific place and facility for handwashing is presented. In bold are presented the means of promotion activities with low prevalence in the population which could be optimized by future promotion activities.
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Annex 2
Overview on potential behavior change techniques and tools to target specific behavioral factors
Behavioral factor Behavior change techniques Tools
Information techniques
Vulnerabilitya
Give personal risk information.
Ask beneficiaries to appraise their own susceptibility discussion on their false beliefs about their invulnerability.
Group discussion moderated by HEW/CHV
Severityb
Give personal risk information: Illustrate personal, social as well as economic consequences of diarrhea.
Explicitly arouse fear by threat inducing arguments or graphic illustrations, e.g. of severely deceased children or even death.
Fear inducing pictures or movies
Health Knowledgea
Transfer factual knowledge by:
• F-diagram as a group sorting task • Three pile sorting as an interactive learning tool • Diarrhea leaflet: re-distribute and hang up as a
prompt
F-diagram
Three pile sorting
Diarrhea leaflet
Persuasive techniques
Nurture: teachingb
Strengthen the motive with persuasive arguments causal and functionality explanations:
Remind beneficiaries of their parenting responsibilities. Explain how children learn by observation (imitating): Parents don’t handwashing children don’t learn to handwashing by imitating diarrhea contraction is more likely.
Learn the causal chain interactively by means of a sorting task using picture cards displaying good and bad observational learning chains.
Sorting task to explain the causal chain
Disgustb
Affective beliefs: attach aversion to an unhealthy behavior, e.g. disgust:
Make visible the contamination of hands with fecal bacteria (“Glow Germ”) Explicitly point out, that not washing hands with soap means eating feces (“feces”-movie or “feces eating”-task)
“Glow Germ”-demonstration
“Feces”-movie
“Feces eating”-task
Normative techniques
Descriptive & injunctive
norma&b
Norms which already exist or which do not exist yet have to be highlighted:
Reference to important others, to other communities, other regions, or even other countries. Public commitment: first the Kebele leader and village elders and then the community ‘Model household’ approach (Ethiopian government).
Commitment sign:
Flag on housetop
Coloring a finger
Nail polishing
Finger stall/ring
Publicly visible handwashing station
Personal obligationa
Bring beneficiaries to think about their responsibilities towards their families.
Invite them to imagine the concerns and regret after not handwashing and thus not conforming to their personal norm.
Interactive discussion with HEW/CHV
Compliance HEW/CHVa
Compliance is higher towards important, credible, well-liked persons select accordingly or train the staff
Staff training
(continued)
59
Annex 2 (continued)
Behavioral factor Behavior change techniques Tools
Infrastructural, skill and ability techniques
Action knowledgea
Behavioral trials where the beneficiaries handwashing:
Not in form of a mass event (joint handwashing). But guided practice in an intimate surrounding: demonstrate the behavior and observe and assist in behavior performance individual feedback
Guided practice at home visits
Motivate to provide social help in form of passing on action knowledge.
Activate self-help
Hindranceb
Infrastructure as a precondition for behavior performance:
Construction of handwashing stations to simplify performance. Assess the need and preferences prior to construction: Handwashing station wished? What type of handwashing station Where to install the handwashing station?
To deal with hindrance, maintenance self-efficacy could be targeted also see coping planning
Material to construct a handwashing station
Instruction how to construct and maintain
Motivate to provide social help in form of material (e.g. soap or water) or verbal social support
Activate self-help
Planning and relapse prevention techniques
Action planninga
Help to plan handwashing execution in more detail: Where? With what means?
Store water and soap next to each other In a place which is easy accessible Next to the area where most of the critical behavior is performed.
Plan performance with HEW/CHV’s help
Material for handwashing station and instruction how to construct and maintain
Coping planninga
Motivate and support to identify barriers and to develop detailed but realistic coping plans against them.
Develop plans with HEW/CHV’s help
Remembering/Forgetting (qualitative result)
Target remembering by means of cues or reminders:
Put soap and water together in a visible place Install handwashing station prominently in the household or compound. Make hands more salient: coloring a finger, nail polishing, wearing a finger cap or ring etc. Let children observe and alert their parents each time when they should wash their hands but don’t do it.
Coloring a finger
Nail polishing
Finger stall/ring
Good visible handwashing station
Commitmentb
Make a contract with the beneficiaries where they oblige themselves to handwashing (self-commitment).
Contract
Note. a Behavioral factor suggested to be targeted based on prevalence in the communities. b Behavioral factor suggested to be targeted based on regression results.
60
Annex 3
Maintenance-planning file
61
Annex 4
Observed handwashing after feces contact – mean observed behavior at T1 and T2
Intervention groups
FDO PCO TTO PC+TT
Point in time N M SD N M SD N M SD N M SD
Before (T1) 2 0.00 0.00 22 0.34 0.44 26 0.08 0.27 21 0.16 0.28
After (T2) 57 0.15 0.35 54 0.16 0.35 59 0.34 0.44 36 0.33 0.48
Note. Observed handwashing ranging from 0 = 0% handwashing to 1 = 100% handwashing. FDO = f-diagram-only; PCO = public commitment-only; TTO = tippy tap-only; PC+TT = public commitment and tippy tap.
Observed handwashing before handling food – mean observed behavior at T1 and T2
Intervention groups
FDO PCO TTO PC+TT
Point in time N M SD N M SD N M SD N M SD
Before (T1) 4 0.25 0.50 44 0.19 0.35 49 0.12 0.24 33 0.14 0.28
After (T2) 111 0.10 0.23 107 0.13 0.28 164 0.09 0.22 92 0.11 0.23
Note. Observed handwashing ranging from 0 = 0% handwashing to 1 = 100% handwashing. FDO = f-diagram-only; PCO = public commitment-only; TTO = tippy tap-only; PC+TT = public commitment and tippy tap.
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Annex 5
MANCOVA results of promotion activities on self-reported handwashing behavior
Using Wilks’ statistic, there was a significant effect of the promotion activities on self-reported handwashing behavior while controlling for age and behavior at T1, = (.94), F(10, 758) = 2.55, p < .01, η2 = .03. Separate univariate ANOVAs on self-reported handwashing behavior revealed significant intervention effects on feces-, F(5, 380) = 2.88, p < .05, η2 = .04 and food-related behavior, F(5, 380) = 4.79, p < .001, η2 = .06. Age had not a significant effect on self-reported handwashing behavior, = (.99), F(2, 379) = 3.06, p > .05, η2 = .02. In contrast,
a significant effect was found for feces-related behavior at T1, = (.66), F(2, 379) = 96.37, p < .001, η2 = .34, and
food-related behavior at T1, = (.64), F(2, 379) = 105.42, p < .001, η2 = .35, insofar as high behavior at T1 was associated with lower behavior change and vise versa.
In terms of feces-related handwashing, planned contrasts comparing the f-diagram-only group with all other groups revealed that handwashing rates for this group were significantly lower than for the tippy tap-only with maintenance-planning and the combined intervention with maintenance-planning. Planned contrasts comparing the combined intervention with maintenance-planning to all other groups revealed that for this group handwashing rates were significantly higher than for the f-diagram-only and the public commitment-only groups.
Means and SD in self-reported feces-related handwashing and results from simple contrasts comparing each group with the f-diagram-only group and each group with the combined intervention with maintenance-planning
Intervention groups N M SD Contrasts FDO Contrasts with PC+TTMP
FDO 19 -.14 .36 – p < .01
PCO 110 -.12 .29 p > .05 p < .01
TTO 74 -.03 .30 p > .05 p > .05
TTMPO 91 .06 .35 p < .05 p > .05
PC+TT 52 .04 .36 p > .05 p > .05
PC+TTMP 43 .13 .30 p < .01 –
FDO = f-diagram-only; PCO = public commitment-only; TTO = tippy tap-only; TTMPO = tippy tap-only with maintenance- planning; PC+TT = public commitment and tippy tap; PC+TTMP = public commitment and tippy tap with maintenance-planning.
In terms of food-related handwashing, planned contrasts comparing the f-diagram-only group with all other groups revealed that handwashing rates for this group were significantly lower than for both tippy tap groups and both combined groups. Planned contrasts comparing the combined intervention with maintenance-planning to all other groups revealed that for this group handwashing rates were significantly higher than for the f-diagram-only and the public commitment-only groups.
Means and SD in self-reported food-related handwashing and results from simple contrasts comparing each group with the f-diagram-only group and each group with the combined intervention with maintenance-planning
Intervention groups N M SD Contrasts FDO Contrasts with PC+TTMP
FDO 19 -.23 .34 – p < .001
PCO 110 -.16 .27 p > .05 p < .01
TTO 74 -.04 .32 p < .01 p > .05
TTMPO 91 .01 .35 p < .01 p > .05
PC+TT 52 .08 .32 p < .01 p > .05
PC+TTMP 43 .12 .30 p < .001 –
FDO = f-diagram-only; PCO = public commitment-only; TTO = tippy tap-only; TTMPO = tippy tap-only with maintenance-planning; PC+TT = public commitment and tippy tap; PC+TTMP = public commitment and tippy tap with maintenance-planning.
63
Annex 6
Kruskal-Wallis- and Jonckheere-Terpstra-Test results of promotion activities on imaginative-covered recall of handwashing behavior
A Kruskal-Wallis test was conducted to evaluate differences among the intervention groups on median change in feces- and food-related handwashing. The test was significant for feces-related handwashing, H(3) = 25.35, p < .001, and food-related handwashing, H(3) = 18.74, p < .001.
Jonckheere-Terpstra-Test was applied to test for a linear trend in the data. This test revealed a significant trend in the data: when moving from f-diagram to the combined intervention, the median handwashing frequency increased. Feces-related handwashing: J = 1651, z = 4.30, p < .001, r = .20; and food-related handwashing, J = 1656, z = 4.03, p < .001, r = .18.
64
Annex 7
MANOVA results of maintenance-planning on self-reported handwashing behavior and on imaginative-covered recall of handwashing behavior: TTO compared to TTMPO and PC+TT compared to PC+TTMP
Using Wilks’ statistic, non-significant effects of maintenance-planning on self-reported handwashing behavior and on imaginative-covered recall of handwashing behavior were revealed for the TTO and TTMPO groups, = (.97),
F(4, 161) = 1.38, p > .05, and for the PC+TT and PC+TTMP groups, = (.97), F(4, 90) = 0.75, p > .05 . That is, in terms of self-reported handwashing and imaginative-covered recall of handwashing the group experiencing maintenance-planning in addition to the construction of a tippy tap (and a public promotion) did not differ significantly from the group not experiencing maintenance-planning.
2 test comparing availability of water between TTO and TTMPO
2 test revealed a non-significant effect of maintenance-planning on availability of water, 2 (1) = .15, p > .05. That is, availability of water did not differ significantly between the group experiencing maintenance-planning in addition to the construction of a tippy tap, and the group not experiencing maintenance planning.
2 test comparing availability of water between PC+TT and PC+TTMP
2 test revealed a non-significant effect of maintenance-planning on availability of water, 2 (1) = .67, p > .05. That is, availability of water did not differ significantly between the group experiencing maintenance-planning in addition to the construction of a tippy tap and the public commitment, and the group not experiencing maintenance-planning.
2 test comparing availability of soap between TTO and TTMPO
2 test revealed a non-significant effect of maintenance-planning on availability of soap, 2 (1) = .63, p > .05. That is, availability of soap did not differ significantly between the group experiencing maintenance-planning in addition to the construction of a tippy tap, and the group not experiencing maintenance-planning.
2 test comparing availability of soap between PC+TT and PC+TTMP
2 test revealed a non-significant effect of maintenance-planning on availability of soap, 2 (1) = .02, p > .05. That is, availability of soap did not differ significantly between the group experiencing maintenance-planning in addition to the construction of a tippy tap and the public commitment, and the group not experiencing maintenance-planning.
65
Annex 8
Linear regression analysis for change in behavioral factors explaining change in self-reported handwashing
Regression analyses were conducted as follows: only behavioral factors correlating significantly and with an r ≥ .20 were included into a first regression analyses; based on this analysis, subsequent analyses were run in which only those behavioral factors with a significant regression coefficient within the preceding analysis were included. Results for the last analysis for food- and feces-related handwashing are presented.
Handwashing type
Feces-related Food-related
Behavioral factor group Behavioral factor
Constant -0.36*** -0.07***
Risk factors Perceived vulnerability -0.56*** -0.10***
Perceived severity 1.60*** 0.23***
Attitude factors Instrumental – nurture: Health Children 0.76*** –
Instrumental – nurture: Teaching – 0.21***
Norm factors Norms – descriptive and injunctive 1.62*** 0.54***
Self-regulation factors Commitment 0.72*** –
Forgetting -0.09*** -0.03***
Adjusted R2 .47 .52
Note: *p ≤ .05, **p ≤.01, ***p ≤.001.
66
Annex 9
Feces-related mediation results comparing intervention groups to the control group: Effects of interventions on behavioral factors, and total indirect, direct and total effects of interventions on feces-related handwashing
Intervention group
PubCommOnly TippyTapOnly PubComm+TippyTap
Behavioral factors Effect on Effect via Effect on Effect via Effect on Effect via
vulnerability 0.10 -0.02 -0.03 0.00 -0.08 0.01
severity -0.01 -0.00 0.06 0.02 0.08 0.03
nurture – health 0.07 0.01 0.11 0.02 0.17 * 0.03
norms 0.10 0.04 0.22 *** 0.09 0.26 *** 0.10
hindrance 0.13 -0.01 -0.26 * 0.01 -0.26 * 0.01
action planning 0.00 0.00 0.96 *** -0.03 0.96 *** -0.03
commitment -0.04 -0.01 0.06 0.01 0.08 0.01
forgetting -0.04 0.01 -1.75 ** 0.03 -1.83 *** 0.03
Total indirect effect 0.03 0.15 0.20
Direct effect 0.01 0.03 0.04
Total effect 0.05 0.19* 0.25**
Note. N = 380. R2 = .46. Effect on = Effect from intervention on mediator. Effect via = Indirect effect from intervention on feces-related handwashing through mediator. Displayed are unstandardized coefficients. * p < .05. ** p < .01. *** p < .001. = p < .05, based on bootstrapped, bias corrected and accelerated 95% confidence interval with a bootstrap sample of 10’000. PubComm = Public Commitment; TippyTap = Tippy Tap Promotion.
Food-related mediation results comparing intervention groups to the control group: Effects of interventions on behavioral factors, and total indirect, direct and total effects of interventions on food-related handwashing.
Intervention group
PubCommOnly TippyTapOnly PubComm+TippyTap
Behavioral factors Effect on Effect via Effect on Effect via Effect on Effect via
vulnerability 0.10 -0.01 -0.03 0.00 -0.08 0.01
severity -0.01 -0.00 0.05 0.01 0.07 0.01
nurture – example -0.00 -0.00 0.04 0.01 0.08 0.02
norms 0.06 0.04 0.23 *** 0.13 0.24 *** 0.14
hindrance 0.13 -0.00 -0.25 * 0.00 -0.25 * 0.00
action planning 0.00 -0.00 0.96 *** -0.00 0.96 *** -0.00
commitment 0.03 -0.00 0.14 * -0.01 0.14 * -0.00
forgetting -0.23 0.01 -1.60 ** 0.05 -1.69 ** 0.05
Total indirect effect 0.03 0.20 0.22
Direct effect 0.04 0.02 0.10
Total effect 0.07 0.22** 0.33***
Note. N = 379. R2 = .53. Effect on = Effect from intervention on mediator. Effect via = Indirect effect from intervention on food-related handwashing through mediator. Displayed are unstandardized coefficients. * p < .05. ** p < .01. *** p < .001. = p < .05, based on bootstrapped, bias corrected and accelerated 95% confidence interval with a bootstrap sample of 10’000. PubComm = Public Commitment; TippyTap = Tippy Tap Promotion.