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Translational Research and Discovery in Gastroenterology
Translational Gastroenterology: Organogenesis to Disease bridges the gap between basic and clinical research by providing information on GI (gastrointestinal) organ development discovered through scientific inquiry, alongside clinical observations of acquired and congenital abnormalities. Paired chapters, written from basic science and clinical viewpoints, review the major biological pathways and molecules at work in organ ontogeny and disease. In addition to a comprehensive survey of GI organ development and pathologies, the book also highlights model organisms and new areas of research, with chapters devoted to recent advances in the field of GI stem cell biology, and the potential for tis...
Regents' Proceedings
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D.R.D.A. Reporter
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Faculty and Staff Salary Record
Includes data for the Ann Arbor, Dearborn, and Flint campuses.
Point Particles to Capture Polarized Embryonic Cells & Cold Pools in the Atmosphere
Part 1: How are the incredible diversity and robustness compatible with animal morphologies? Based on apical-basal and planar cell polarities’ ubiquity, I suggest a 3D mathematical model: Point particles represent cells having zero, one, or two unit-arrows representing polarities. I test the model abilities on preimplantation development, sea urchin gastrulation, mammalian neurulation, organoid folding, and tubulogenesis. I find that a minimal, versatile toolbox, including cellular polarities, captures the emergence of diverse and robust animal morphologies. Part 2: How are deep convective events spatially organized in the tropical atmosphere? Here, I test the importance of atmospheric cold pools for organizing convection. I suggest a 2D mathematical model: Points expand into circles representing cold pools. When circles meet, a convective event occurs, and a new circle forms. I find this model captures convective scale increase and initial stages of convective self-aggregation. The latter is crucial due to its link to tropical cyclogenesis.
Program
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Cancer Stem Cells
Over the last thirty years, the foremost inspiration for research on metastasis, cancer recurrence, and increased resistance to chemo- and radiotherapy has been the notion of cancer stem cells.The twenty-eight chapters assembled in Cancer Stem Cells - The Cutting Edge summarize the work of cancer researchers and oncologists at leading universities and hospitals around the world on every aspect of cancer stem cells, from theory and models to specific applications (glioma), from laboratory research on signal pathways to clinical trials of bio-therapies using a host of devices, from solutions to laboratory problems to speculation on cancers' stem cells' evolution. Cancer stem cells may or may not be a subset of slowly dividing cancer cells that both disseminate cancers and defy oncotoxic drugs and radiation directed at rapidly dividing bulk cancer cells, but research on cancer stem cells has paid dividends for cancer prevention, detection, targeted treatment, and improved prognosis.
