Post on 12-Jul-2018
Real World Evaluation of Physical Activity Using Objective Monitors
Catrine Tudor-Locke, PhD, FACSMAssociate Professor Director, Walking Behavior LaboratoryPennington Biomedical Research CenterBaton Rouge, Louisiana
Real world evaluation of physical activity using objective monitors Key distinctions between research and
evaluation Which instrument is best? Practical pedometry
Expected values Step indices
Key distinctions between research and evaluation: Purpose Research
Advances scholarly knowledge
Review by peers Is published
Evaluation Provides timely
information for decision making
Answers to stakeholders Has practical utility
Key distinctions between research and evaluation: Focus Research
Examines efficacy under highly controlled, artificial conditions
Subjects are carefully selected
Has strict inclusion, exclusion criteria
Evaluation Examines effectiveness
and efficiency under real-world conditions
Participants are self-selected
No restrictions
Key distinctions between research and evaluation: Methods Research
Rigorous methodologies Research assistants
collect data Batteries of tests Significant group
differences
Evaluation Good enough
methodologies Staff and volunteers
collect data Practical assessments Relative client benefits
(% improving)
Which instrument is best??
Yamax Corporation, Tokyo, JapanCost: US$17-22
Raw Outputs:
Steps
Derived Outputs:
Steps/day
Steps/min
Yamax pedometer- SW Series
ActiGraph
ActiGraph, LLC,; Pensacola, FLCost: US$325/unitUS$349 Cable/software
Raw Outputs:
Steps
Activity Counts
Time in intensity categories
Energy expenditure
NL-1000
New-Lifestyles, Inc., Lee Summit, MOCost: US$48
Raw Outputs:Steps
Distance
Time in MVPA
activPAL Professional
PAL Technologies, LTD, Glasgow
Cost: Initially $US1450Software, docking station, unit$US950 additional units
Outputs:Steps
Time in sitting, standing, ambulating
Transitions
Sit/stand bouts
Energy expenditure
What I Do and Do Not Know Now What I know now Commercial items Patents Change Buyer beware Choose, rationalize,
and justify your own choice
What I don’t know The best instrument
for all situations How well they
translate Obsolescence Future
Summary of validity evidence
Review of 25 articles since 1980 median r=.86 with
different accelerometers median r=.82 with time in
observed activity median r=.68 with
different measures of energy expenditure
median r=-.38 with self-reported sitting time
median r=.33 with self-reported physical activity
Tudor-Locke et al., Sports Med 2002
Pedometers
Accelerometers
Self-reported physical activity
Energy Expenditure
Practical Pedometry
Expected values Standard protocols Screening Surveillance Program evaluation Step indices Intervention tool
0
2000
4000
6000
8000
10000
12000
14000
Mean steps/day
1 2 3 4 5Population groups
Legend
1=8-10 year olds
2=14-16 year olds
3= Healthy younger adults (approx. 20-50 years)
4= Healthy older adults (>50 years)
5= Individuals living with disabilities and chronic illnesses
Tudor-Locke, Research Digest, 2002
0
2
4
6
8
10
12
14
0-99
9
1000
-199
9
2000
-299
9
3000
-399
9
4000
-499
9
5000
-599
9
6000
-699
9
7000
-799
9
8000
-899
9
9000
-999
9
1000
0-10
999
1100
0-11
999
1200
0-12
999
1300
0-13
999
1400
0-14
999
1500
0-15
999
1600
0-16
999
1700
0-17
999
1800
0-18
999
1900
0-19
999
Mean Steps/Day
Perc
ent
Normative data
Tudor-Locke et al., Medicine and Science in Sport and Exercise, 2004
Normative data
Expected values for special populations
0
2,000
4,000
6,000
8,000
10,000
12,000
Heart and
Vas
cular
Dise
ases
(15)
COPD (2)
Type 2
diabete
s (11
)
Type 1
diabete
s (1)
Dialysis
(1)
Breast
Cance
r Surv
ivor (9
)
Breast
Cance
r in Trea
tmen
t (1)
Neuromusc
ular D
iseas
es (3
)
Arthriti
s (2)
Joint
Rep
lacem
ent (9
)
Fibromya
lgia (
1)
Disable
d Older
Adults (
2)
Intell
ectua
l Disa
bility
(4)
HIV (4
)
Multiple
Chronic
Illnes
s (1)
Tudor-Locke et al., Preventive Medicine, 2009
CANPLAY data
Craig et al., MSSE, under review
0
2
4
6
8
10
12
14
0-99
9
1000
-199
9
2000
-299
9
3000
-399
9
4000
-499
9
5000
-599
9
6000
-699
9
7000
-799
9
8000
-899
9
9000
-999
9
1000
0-10
999
1100
0-11
999
1200
0-12
999
1300
0-13
999
1400
0-14
999
1500
0-15
999
1600
0-16
999
1700
0-17
999
1800
0-18
999
1900
0-19
999
Mean Steps/Day
Per
cent
Normative values for free-living youth
10000
11000
12000
13000
14000
15000
16000
17000
6 7 8 9 10 11 12 13 14 15 16 17 18
Age in years
Med
ian
step
s/da
y
BoysGirls
Tudor-Locke et al., Research Quarterly for Exercise and Sport, 2009
Tudor-Locke et al., Medicine and Science in Sports and Exercise, in press
Time
T4T3
W8W7
W6W5
T2W4
W3W2
W1T1
Ave
rage
ste
ps/d
ay
14,000
12,000
10,000
8,000
6,000
4,000
Tudor-Locke et al., Patient Education and Counseling, 2002
Meta-analysis of change in steps/day in pedometer-based programming
Bravata et al., JAMA, 2007
12,500+ steps/day
10,000-12,499 steps/day
7,500-9,999 steps/day
5,000-7,499 steps/day
2,500-4,999 steps/day
<2,500 steps/day Basal
Activity
Limited Activity
Low Active
Somewhat Active
Active
Highly Active
Sedentary Lifestyle
Graduated Step IndexAdapted from Tudor-Locke and Bassett, 2004and Tudor-Locke et al., 2009
Pedometer-determined step guidelines for children (6-12 years of age)
Boys >17000 steps/day
highly active 15000-17999 steps/day
active 12500-14999 steps/day
somewhat active 10000-12499 steps/day
low active <10000 steps/day
sedentary
Girls >14500 steps/day
highly active 12000-14999 steps/day
active 9500-11999 steps/day
somewhat active 7000-9499 steps/day
low active <7000 steps/day
sedentary
Tudor-Locke et al., MSSE, 2008
18000
17000
16000
15000
14000
13000
12000
11000
10000
9000
8000
7000
6000
5000
4000
3000
2000
1000
0
Boys 6-11 years
Girls 6-11 years
Adults 20-65 years
Individuals living with disability and/or chronic illness
Youth 12-19 yearsPre-school
children4-6 years
At least 6,000 daily steps in moderate-to-vigorous physical activity
At least 15,000 steps/week in moderate-to-vigorous
physical activity, e.g., 3,000 daily steps in moderate-to-vigorous physical activity
most days of the week
Arrows indicate that higher is even better
Step
s/da
y
Healthy older adults 65+ years
Additional benefits can come from adding in vigorous intensity activityTudor-Locke et al., in progress
Thank you!