D.IMG-250128KAM-48

ABSTRACT – OVERALL The primary focus of the MIT/DFCI Center for Systems Biology of Glioblastoma is to understand the intersections between neurons, immune cells, and tumor cells in this deadly tumor. The lack of response to immunotherapy strategies despite prominent infiltrates of immune cells in many GBM highlights the immuno- suppressive nature of the GBM microenvironment and the importance of more clearly understanding the dynamic interactions at the tumor/immune interface. Similarly, interactions ...

The MIT Superfund Research Program was created in 2017 to be responsive to communities who live near Superfund Sites. In particular, the MIT team leverages scientific research, community engagement, and educational experiences to support people who are concerned about hazardous chemicals in their environment.

Carcinogenic contaminants threaten the health of people living in the Mystic River Watershed (near the Olin, Industriplex, and Wells G&H Superfund sites) and members of Native American ...

Understanding the spectrum of complex metastatic processes is important to the development of a comprehensive and cohesive understanding of cancer metastasis. The Metastasis Research Network (MetNet) supports collaborative, multidisciplinary projects that focus on several themes of the metastatic process and use integrative systems-level approaches.

MetNet is advancing the understanding of metastasis as a non-linear, dynamic, and emergent process, as well as revealing mechanistic insights of early ...

Endometriosis research done by the Griffith lab (MIT) and the Goods lab (Dartmouth)

About

This project houses all the publicly available datasets generated by the Hi-IMPAcTB consortium over the course of its 7+ years.

What is Hi-IMPAcTB?

Hi-IMPAcTB is an ambitious endeavor bringing together a team of international, interdisciplinary researchers to improve our understanding of host-pathogen interactions in the context of tuberculosis (TB). Funded by a multi-center contract from the NIH, the long-term goal of the consortium is to enable principled vaccine design by improving ...

Marie Floryan, Elena Cambria, Adriana Blazeski, Mark F. Coughlin, Zhengpeng Wan, Giovanni Offeddu, Vinayak Vinayak, Aayush Kant, Vivek Shenoy, Roger D. Kamm

DOI:

Abstract: The incorporation of a functional perfusable microvascular network (MVN) is a common requirement for most organ on-chip-models. Long-term perfusion of MVNs is often required for the maturation of organ phenotypes and disease pathologies and to model the transport of cells and drugs entering ...