Person: Mody, Gita
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Publication Shared learning in an interconnected world: innovations to advance global health equity
(BioMed Central, 2013) Binagwaho, Agnes; Nutt, Cameron T; Mutabazi, Vincent; Karema, Corine; Nsanzimana, Sabin; Gasana, Michel; Drobac, Peter; Rich, Michael; Uwaliraye, Parfait; Nyemazi, Jean Pierre; Murphy, Michael R; Wagner, Claire M; Makaka, Andrew; Ruton, Hinda; Mody, Gita; Zurovcik, Danielle R; Niconchuk, Jonathan A; Mugeni, Cathy; Ngabo, Fidele; Ngirabega, Jean de Dieu; Asiimwe, Anita; Farmer, PaulThe notion of “reverse innovation”--that some insights from low-income countries might offer transferable lessons for wealthier contexts--is increasingly common in the global health and business strategy literature. Yet the perspectives of researchers and policymakers in settings where these innovations are developed have been largely absent from the discussion to date. In this Commentary, we present examples of programmatic, technological, and research-based innovations from Rwanda, and offer reflections on how the global health community might leverage innovative partnerships for shared learning and improved health outcomes in all countries.
Publication Simplified Negative Pressure Wound Therapy Device for Application in Low-Resource Settings
(Ovid Technologies (Wolters Kluwer Health), 2015) Zurovcik, Danielle R.; Mody, Gita; Riviello, Robert; Slocum, AlexNegative pressure wound therapy (NPWT) provides proven wound healing benefits and is often a desirable wound treatment. Unfortunately, NPWT devices are not widely available in low-resource settings (LRSs). In order to overcome identified NPWT barriers, a simplified NPWT (sNPWT) system was designed and iteratively improved during field-based testing. The sNPWT technology, our device design iterations, and the design-based results of our field tests are described. The sNPWT system includes a bellows hand pump, an occlusive drape, and a tube with tube connectors, connecting the drape to the pump. The most critical property of a sNPWT system is that it must be airtight. The details of the design iterations needed to achieve an occlusive system are explained. During the design process, the sNPWT system was tested during the earthquake relief in Haiti. This testing found that a liquid sealant was necessary to seal the drape to the peri-wound skin. A study conducted in Rwanda verified that a liquid latex sealant was safe to use and that the tube connector must be connected to the drape with an airtight method during the manufacturing process. This work has shown that sNPWT is feasible in LRSs. Since the completion of the clinical testing, the design has been further evolved and the developers are working with contract manufactures to produce the final design and preparing for regulatory approval applications.
Publication Design, testing, and scale-up of medical devices for global health: negative pressure wound therapy and non-surgical male circumcision in Rwanda
(BioMed Central, 2015) Mody, Gita; Mutabazi, Vincent; Zurovcik, Danielle R; Bitega, Jean Paul; Nsanzimana, Sabin; Harward, Sardis H; Wagner, Claire M; Nutt, Cameron T; Binagwaho, Agnes