SURVEILLANCE OF MUCORALES RESISTANCE TO AZOLES IN … · 2020. 3. 31. · azoles such as...
Transcript of SURVEILLANCE OF MUCORALES RESISTANCE TO AZOLES IN … · 2020. 3. 31. · azoles such as...
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1,E+001,E+011,E+021,E+031,E+041,E+051,E+061,E+07
Log
CFU
.m-2
Gloves
1,E+001,E+011,E+021,E+031,E+041,E+051,E+061,E+07
Log
CFU
.m-2
FRPD Interior layer
1,E+001,E+011,E+021,E+031,E+041,E+051,E+06
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CFU
.m-2
FRPD Exhalation valves
Mucorales from FRPD and gloves grew in azole-supplemented media. Mucor sp. and Rhizopus sp. presented reduced susceptibility to itraconazole and posaconazole at tested conditions, besides expected resistance to voriconazole.
Liliana A. Caetano1,2, Marta Dias1, Beatriz Almeida1, Carla Viegas1,3,4
1 H&TRC- Health & Technology Research Center, ESTeSL- Escola Superior de Tecnologia da Saúde, Instituto Politécnico de Lisboa.
2 Research Institute for Medicines (iMed.ULisboa), Faculty of Pharmacy, University of Lisbon, Lisbon, Portugal
3 NOVA National School of Public Health, Public Health Research Centre, Universidade NOVA de Lisboa.4 Comprehensive Health Research Center (CHRC), 1150-090 Lisbon, Portugal.
SURVEILLANCE OF MUCORALES RESISTANCE TO AZOLES IN THE WASTE SORTING INDUSTRY:
Assessment of Filtering Respiratory Protective Devices and Gloves
The use of Filtering RespiratoryProtective Devices (FRPD) and Gloves ismandatory in waste-sorting industry inPortugal as preventive of workers'exposure to bioaerosols, including fungi.
The emergence of resistance to azolesamong fungal species, includingMucorales, in the environmentchallenges the management of severefungal infections.
The aims of the study were to evaluate:
1. Mucorales burden in FilteringRespiratory Protective Devices (FRPD)and in Gloves used in one Portuguesewaste sorting industry.
2. If azole-resistant Mucorales is presentin this occupational environment.
Purpose1 Methods2
Passive sampling in one sorting Portuguese wastesorting industry in different workstations from Jan toFeb, 2019.
FRPD (interior layer and exhalation valve)and Gloves extracted with 0.1% Tween™ 80saline solution (NaCl 0.9%) and inoculatedon MEA, DG18 and azole-supplementedSDA media plates and incubated at 27 ºCfor 5 to 7 days.
Mucorales densities (CFU/m2)calculated and genera identifiedthrough macro and microscopiccharacteristics in MEA andDG18.
Screening of azoleresistance in 4 mg/Litraconazole (ITRA), 1 mg/Lvoriconazole (VORI), and0.5 mg/L posaconazole(POSA) supplemented SDAmedia (EUCAST).
Results3
Mucorales was detected in FRPD interior layers (12.35% MEA; 0.03% DG18) and exhalation valves (0.21% DG18), and in gloves (39.00% MEA; 4.03% DG18).
1,E+001,E+011,E+021,E+031,E+041,E+051,E+061,E+07
Log
CFU
.m-2
FRPD Interior layer
1,E+001,E+011,E+021,E+031,E+041,E+051,E+061,E+07
Log
CFU
.m-2
FRPD Exhalation valves
1,E+001,E+011,E+021,E+031,E+041,E+051,E+061,E+071,E+08
Log
CFU
.m-2
Gloves
Conclusion4
• Contamination of FRPD and gloves with Mucorales is present at the waste sorting industry
• Reduced susceptibility to clinical azoles such as posaconazole, one of the few effective azole drugs against mucormycosis, can be a risk factor in the waste sorting industry
Station Task FRPD Gloves
AFeeding
machines with waste
33 9
B Sorting waste 54 39
CMachines inspection
12 10
DMachines and
special vehicles operator
13 8
Not specified 8 1
Total 120 67
Acknowledgments5
This work was supported by FCT – Fundaçãopara Ciência e Tecnologia, project EXPOsE(02/SAICT/2016/Project nº 23222), and Instituto Politécnico de Lisboa, Lisbon, Portugal, Project "Waste FRPD” (IPL/2018/WasteFRPD/ESTeSL).