Development of a method for measuring nanoparticle penetration through glove materials under conditions simulating workplace use Abstract With the anticipated growth of nanotechnologies, the risks of exposure to nanoparticles, already present in the workplace, will increase exponentially. Contamination through the skin has not been extensively studied and some people believe that it is underestimated. It also seems that, in some cases, troubling concentrations of nanoparticles can pass through protective clothing, particularly laboratory gloves. The research team aims to develop a method for characterizing the protective efficiency of glove materials against nanoparticles under conditions simulating those in workplaces. This project will also provide data on the impermeability of several of these materials to certain nanoparticles, which will lead to the formulation of preliminary recommendations on the choice of gloves protecting against risks of exposure. This knowledge will provide a basis for the creation of materials offering increased resistance to nanoparticle penetration under typical conditions of workplace use. It will also promote the acquisition of expertise in the new field of protection against nanoparticles. Produced Under this Project Scientific Reports Development of a method of measuring nanoparticle penetration through glove materials under conditions simulating workplace use Research Report: R-734, R-785 Scientific Publications Équipements de protection personnelle contre les nanoparticules: que choisir?Dolez P., Bodila N., Lara J., Truchon G.Source : Travail et santé, vol. 25, no 2, 2009, p. 44-49Development of a test method for the evaluation of the efficiency of protective gloves against nanoparticles in conditions simulating occupational useDolez P., Vinches L., Vu-Khanh T., Wilkinson K., Plamondon P.Source : in NanoSafe 2010 (November 16-18, 2010 : Grenoble, France), 2010Étude de l'intéraction des nanoparticules avec les membranes polymères pour application aux gants de protectionVinches L., Dolez P. I., Vu-Khanh T.Source : in Découvrir aujourd'hui ce que sera demain : Congrès de l'Association francophone pour le savoir / ACFAS (78e : 10-14 mai, 2010 : Montréal, Canada), 2010Development of a test method for the evaluation of the efficiency of protective gloves against nanoparticles in conditions simulating occupational useDolez P., Vinches L., Wilkinson K., Plamondon P., Vu-Khanh T.Source : Journal of Physics: conference Series, vol. 304, no 1, 2011, paper 012066Study of the penetration of TiO2 nanoparticles through nitrile and butyl rubber protective glovesVinches L., Dolez P., Vu-Khanh T.Source : in International Conference on Nanotechnology. Funcamentals and Applications / ICNFA 2011, (2nd : July 27-29, 2011 : Ottawa, Canada), 2011Étude de l'interaction des nanoparticules avec les membranes polymères pour application aux gants de protectionVinches L., Dolez P., Vu-Khanh T.Source : in Curiosité diversité responsabilité : Congrès de l'Association francophone pour le savoir / ACFAS (79e : 9-13 mai, 2011 : Sherbrooke, Canada), 2011Étude de la pénétration des nanoparticules à travers les membranes polymères pour application aux gants de protectionVinches L., Dolez P., Vu-Khanh T.Source : in Symposium Canada-Brésil sur la nanotoxicologie (7-9 février, 2011 : Montréal, Canada), 2011 Other Project(s) You May be Interested in Highly Sensitive Measurements of the Passage of Nanometric Contaminants Through Protective Gloves, Using Medical ImagingChemical protective clothing against solid aerosols: Performance of materials in various exposure conditions and characterization of determinants Additional Information Type: Project Number: 0099-7910 Status: Completed Year of completion: 2012 Research Field: Mechanical and Physical Risk Prevention Team: Toan Vu-Khanh (École de technologie supérieure)Patricia Dolez (École de technologie supérieure)Ginette Truchon (IRSST)Kevin Wilkinson (Université de Montréal)Gilles L'Espérance (Polytechnique Montréal)Petros Koutrakis (Harvard School of Public Health)Yves Cloutier (IRSST)Chantal Dion (IRSST)