AMR describes the situation when infections agents - including bacteria and parasites such as malaria - become resistant to the medicines used to treat them. The DOSA programme - Diagnostics for One Health and User Driven Solutions for AMR - brings together nine leading academic institutions, five from India and four from the UK.
Medical researchers, diagnostic innovators, economists and social scientists will create cutting edge, rapid diagnostic solutions to fight AMR in settings as diverse as community healthcare, dairy farms and aquaculture. AMR is of particular concern in India, where the levels of infectious diseases are high but public knowledge of diseases and appropriate treatments is low. In India, and across the globe, antibiotic use is regularly carried out without appropriate diagnostics, thereby fuelling the AMR crisis.
Rapid diagnostic tools are either unavailable, too expensive or do not fit people's needs, which leads to antibiotics being used in a trial and error fashion. The three-year DOSA programme will begin with a meeting of the project group on 24-25 September at the Indian Institute of Technology Delhi.
The project is jointly funded by UK Research and Innovation/Economic and Social Research Council, the Newton Fund, and Government of India's Department of Biotechnology.
Indian partners include the Indian Institute of Technology Delhi; the Centre for Cellular and Molecular Platforms Bangalore; ICAR-Central Institute of Fisheries Technology, Cochin, Kerala; ICAR-National Dairy Research Institute, Karnal, Haryana; Silchar Medical College and Assam University, Silchar, Assam.
UK partners include the Universities of Edinburgh, Bradford and Southampton and University of the Arts London.
Lead researcher Dr Till Bachmann, of the University of Edinburgh's Division of Infection and Pathway Medicine, said: "DOSA gives us the exceptional possibility to create a deep understanding between user needs and diagnostics innovation.
"The project will focus on community settings in India. It is here where the big drivers of AMR are located, where AMR is a huge burden and where it is exceptionally difficult to implement rapid diagnostics."