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Awarded Grants

Grand Challenges is a family of initiatives fostering innovation to solve key global health and development problems. Each initiative is an experiment in the use of challenges to focus innovation on making an impact. Individual challenges address some of the same problems, but from differing perspectives.

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Evaluation of the Use of Long-Lasting Insecticide-Impregnated Nets (LLINs) as a Strategy to Control Malaria Transmission and Its Implications, in Five Brazilian Amazon States

Iziz Monica Sucupira, Instituto Evandro Chagas (IEC) (Belém, Pará, Brazil)
Dec 21, 2020
Grand Challenges Brazil> Malaria Elimination

This study intends to evaluate the use of long- lasting insecticide-impregnated nets (LLINs) and their implications in a municipality of five Brazilian Amazonian states. Brazil has been using LLINs as a supplementary control tool for over 10 years and during this period many questions regarding its effectiveness were raised. Therefore, the present project aims to verify if the distribution strategy was accompanied by specific information, such as individual or group orientations, calendar provision, explanation about using, washing and caring in order to assess if there is a need to adapt this strategy to the population’s habits, culture and education, to the local dynamics of malaria transmission and environmental factors.

Non-Hormonal Contraception by Nanobody Produced from Within the Body

Eric Reiter, Institut National de la Recherche pour l'Agriculture, l'Alimentation et l'Environnement (Paris, France)
Dec 21, 2020
Grand Challenges> Contraceptive Discovery

Eric Reiter of the Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE) in France will engineer nanobody-based biologicals to block ovulation as a practical, non-hormonal contraceptive with fewer side effects. Blocking the molecular regulators of ovulation is an attractive contraceptive mechanism. However, it can also affect steroid hormone production, which causes undesirable side-effects. Nanobodies are antigen-binding domains of antibodies that can very selectively modulate signal transduction pathways. They will identify candidate nanobodies that may selectively block ovulation using a phage display approach and functional screens. Specifically, this work will focus on identifying nanobodies that are biased ligands, triggering receptors selectively to yield only the desired downstream responses. These candidates will be engineered to produce long-lasting biologicals that will then be administered to mice and ewes to evaluate their ability to block ovulation as a proof-of-principle.

eVaccination: Immunization in the Last Mile

Sandeep Ahuja, Operation ASHA (New Delhi, Delhi, India)
Dec 20, 2020
Grand Challenges India> Immunization Data

EVaccination app to ensure each newborn’s vaccination through trained semi-literate local people as incentivized Community Health Workers (CHWs) to find, counsel and accompany new mothers to public hospitals for vaccination

Development of High-Throughput Screening for Cervix-Based Contraceptives

Leo Han, Oregon Science & Health University (Portland, Oregon, United States)
Nov 27, 2020
Grand Challenges> Contraceptive Discovery

Leo Han of Oregon Health and Science University in the U.S. and colleagues at the University of North Carolina and the Marsico Lung Institute will build a hydration-based drug discovery platform for the cervix to screen drug libraries for long-lasting non-hormonal contraceptives that alter mucus hydration. Contraceptives that thicken cervical mucus to block the movement of sperm and thereby inhibit fertility would be well tolerated and may also protect against pathogens. Identifying nonhormonal drugs that work in this way, however, is difficult because of the lack of relevant cell culture systems for high-throughput testing. They have previously conditionally reprogrammed endocervical cells to grow in culture while retaining relevant physiological characteristics such as hormonal regulation and mucus production. They will adapt this method for high-throughput screens by incorporating particle-based tracking microrheology to quantify hydration of the mucus layer produced by the cells that can then be used to screen drug libraries.

Exploring Risk Factors of Adverse Maternal and Child Health Outcomes Using Machine Learning and Other Advanced Data Analytical Approaches

Sourabh Paul, Department of Humanities and Social Sciences (New Delhi, Delhi, India)
Nov 27, 2020
Grand Challenges India> Data Science Approaches

Combining multiple data sets from HBGDKi using ML tools for prediction, classification and topic discovery may yield new insights for adverse birth outcomes and intermediate outcomes of interest. The study is based on a set of epidemiological, clinical and biochemical variables risk stratification algorithms for various adverse outcomes with practical applicability in health programme, and clinical settings may be feasible to develop using ML tools.ML can be used to suitably impute/bin missing values within datasets and merge variables from multiple datasets using robust data triangulation algorithms.

High Throughput Technology to Monitor Environmental Antibiotic Dispersion and Their Impact On AMR

Thirumurthy Velpandian, AIIMS Delhi (New Delhi, Delhi, India)
Nov 24, 2020
Grand Challenges India> India-GCE

Environmental exposure to antibiotics is correlated well with AMR. The present study proposes the development of high throughput screening (HTS) technique of 125 antibiotics from environmental samples like water (from river, aquifers and food sources like egg and raw meat). A novel in-vitro method will be adopted to correlate AMR with the environmental levels of antibiotics found in Delhi-NCR region and derive safe levels of antibiotics that should be permissible in the environment.

Genetics of Infertility

Stephanie Semianra, Massachusetts General Hospital (Boston, Massachusetts, United States)
Nov 23, 2020
Grand Challenges> Contraceptive Discovery

Stephanie Seminara of Massachusetts General Hospital in the U.S. will perform large-scale, human genetic studies to identify gene variants that influence fertility for developing novel non-hormonal contraceptives. Globally, many women do not use contraceptives for reasons including negative side effects of hormonal methods, leading to poor method acceptability. This leads to 88 million unintended pregnancies per year globally. To identify drug targets for developing more acceptable contraceptives, they will analyze whole exome sequences and phenotypes from three existing patient populations with rare forms of infertility, such as primary ovarian insufficiency, and one new cohort with unexplained infertility. This will reveal both single nucleotide and structural variants underlying infertility, and subsequently the associated molecular pathways. They will also perform a large-scale genome-wide association study using over 1.8 million samples from multi-ethnic population biobanks to identify common variants associated with reproductive traits, which could also uncover novel genes involved in infertility.

Modelling the Mortality Impact of Treatment Regimens for Antimicrobial-Resistant Neonatal Bloodstream Infections in 7 African Countries

Angela Dramowski, The University of Stellenbosch (Stellenbosch, South Africa)
Nov 20, 2020
Grand Challenges Africa> Data Science Approaches

Determining the optimal timing of antibiotic switching from "early-onset" to "late-onset" pathogen coverage and provide evidence to challenge the prevailing paradigm of providing empiric antibiotic cover based on a 72-hour cut-off.

Genetic Discovery and In Vivo Validation of Contraceptive Targets by AAVs

Viviana Gradinaru, California Institute of Technology (Pasadena, California, United States)
Nov 19, 2020
Grand Challenges> Contraceptive Discovery

Viviana Gradinaru of the California Institute of Technology in the U.S. will perform imaging-based, high-throughput screens using adeno-associated virus (AAV) delivery vectors to rapidly identify ovary-specific macromolecules that are essential for fertility and could be used to develop non-hormonal contraceptives. They will compile a comprehensive list of candidate ovary-specific macromolecules, including RNAs and micropeptides, by applying machine learning algorithms and structural analyses to existing datasets and also perform Riboseq on mouse and human ovarian tissues to identify all the proteins being translated. They will then test these candidates by developing an oocyte and follicle cell-based loss-of-function screening platform using AAV to safely, efficiently, and specifically deliver the macromolecule-targeting constructs to the cells. The most promising AAV-based candidates will then be tested directly in mouse follicle cultures and then in vivo to identify those that are critical for female fertility and have reversible effects.

Nanobodies to Block Sperm-Egg Fusion

Jeffrey Lee, University of Toronto (Toronto, Ontario, Canada)
Nov 16, 2020
Grand Challenges> Contraceptive Discovery

Jeffrey Lee of the University of Toronto in Canada will engineer single-domain camelid antibodies (nanobodies) to block the interaction between two proteins exclusive to the sperm and egg that mediate their fusion and thereby fertilization, as affordable, non-hormonal contraceptives with fewer side effects. Nanobodies are exquisitely specific binding proteins that make attractive therapeutics because of their additional simplicity, stability, and smaller size compared to antibodies, also lowering the cost of their production. They hypothesize that their small size is well adapted to reach the site of sperm-egg binding and block this interaction. To generate specific nanobodies they will immunize alpacas or llamas with the purified sperm and egg proteins and use phage display and ELISA to isolate antigen-specific nanobodies. These will then be tested for their ability to block sperm-egg fusion using biophysical assays, mating, and IVF models.

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The Bill & Melinda Gates Foundation is part of the Grand Challenges partnership network. Visit grandchallenges.org to view the map of awarded grants across this network and grant opportunities from partners.