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SELECTBIO Conferences 2D-to-3D Culture and Organoids 2020

Roger Kamm's Biography



Roger Kamm, Cecil and Ida Green Distinguished Professor of Biological and Mechanical Engineering, Massachusetts Institute of Technology (MIT)

Kamm is currently the Cecil and Ida Green Distinguished Professor of Biological and Mechanical Engineering at MIT, where he has served on the faculty since 1978. Kamm has long been instrumental in developing research activities at the interface of biology and mechanics, formerly in cell and molecular mechanics, and now in engineered living systems. Current interests are in developing models of healthy and diseased organ function using microfluidic technologies, with a focus on vascularization, metastatic cancer and neurological disease. Kamm has fostered biomechanics as Chair of the US National Committee on Biomechanics (2006-2009) and of the World Council on Biomechanics (2006-2010). For 10 years, he was Director of the NSF Science and Technology Center on Emergent Behaviors of Integrated Cellular Systems. He is the 2010 recipient of the ASME Lissner Medal and the 2015 recipient of the Huiskes Medal, both for lifetime achievements, and was the inaugural recipient of the ASME Nerem Medal for mentoring and education. He was elected to the National Academy of Medicine in 2010 and Engineering in 2022. Kamm is co-founder of AIM Biotech, a manufacturer of microfluidic systems for 3D culture.

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Conference Chairperson's Welcome, Introduction and Topics Addressed

Wednesday, 19 August 2020 at 09:15

Add to Calendar ▼2020-08-19 16:45:002020-08-19 17:45:00Europe/LondonVascular Networks on a Chip and Their Applications2D-to-3D Culture and Organoids 2020 in Boston, USABoston, USASELECTBIOenquiries@selectbiosciences.com

Vascular Networks on a Chip and Their Applications

Wednesday, 19 August 2020 at 16:45

Add to Calendar ▼2020-08-19 16:45:002020-08-19 17:45:00Europe/LondonVascular Networks on a Chip and Their Applications2D-to-3D Culture and Organoids 2020 in Boston, USABoston, USASELECTBIOenquiries@selectbiosciences.com

Due to the capacity of vascular endothelial cells to self-assemble into 3D vascular networks in a conducive hydrogel, it is now possible to grow microvasculature within microfluidic chips comparable to in vivo capillary beds in both morphology and function.  These systems have numerous applications including vascularized organs-on-chip, studies of transport across the vascular endothelium, and models of disease.  This presentation will focus on the growth of these networks and quantitative analysis of their morphology and transport properties.  Results will be discussed showing networks grown from several different sources of endothelial cells that stabilize over 4-7 days, and can then be maintained in some cases for periods of over one month.  Various accessory cells are used, including fibroblasts, pericytes and mesenchymal stem cells, and these contribute to changes in matrix composition and mechanics over time. Examples will be used to illustrate some of the potential applications of these vascularized models, selected from metastatic cancer, the blood-brain barrier, and cerebral amyloid angiopathy.


Add to Calendar ▼2020-08-19 00:00:002020-08-20 00:00:00Europe/London2D-to-3D Culture and Organoids 20202D-to-3D Culture and Organoids 2020 in Boston, USABoston, USASELECTBIOenquiries@selectbiosciences.com