Two multidisciplinary teams get a boost on their research projects at Georgia Tech
Petit Institute researchers who received seed grants are (top left, clockwise): John McDonald, Fatih Sarioglu, Shuyi Nie, and Denis Tsygankov.
Two multidisciplinary research teams have been awarded 2018 Petit Institute Seed Grants.
The program routinely pairs two researchers in the Petit Institute for Bioengineering and Bioscience at the Georgia Institute of Technology, one based in the College of Engineering, one based in the College of Sciences.
The funding period for each of these grants starts July 1, 2018, and the duration will be up to two years, $50,000 for each year, contingent on submission of an NIH R21/R01 grant proposal, or an equivalent collaborative grant proposal, within 12 to 24 months of the year-one start date.
The teams and their projects are:
• John McDonald (professor, School of Biological Sciences) and Fatih Sarioglu (School of Electrical and Computer Engineering). Their project is entitled, “Microchip-Based Isolation and Molecular Profiling of Highly Metastatic Tumor Cell Clusters in Ovarian Cancer.” Ovarian is the deadliest gynecological cancer because it progresses quietly, asymptomatically, leading to later stage detection. The researchers aim to provide insight into ovarian cancer metastasis while also offering a way to monitor ovarian cancer response with minimally-invasive liquid biopsies for personalized prediction of optimal drug therapies.
• Shuyi Nie (assistant professor, School of Biological Sciences) and Denis Tsygankov (assistant professor, Wallace H. Coulter Department of Biomedical Engineering). Their project is entitled, “Unveiling the Mechanisms of Collective Cell Migration through an Integrative Multiscale Study.” Collective cell migration plays a key role in embryonic development, wound healing, and cancer invasion, but it remains a poorly understood phenomenon. Basically, the researchers intend to develop a better tool – they want to provide researchers with a broadly applicable simulation platform that enables a mechanistic understanding of coordinated cell processes like collective cell migration.
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