School of Medicine
Showing 431-440 of 444 Results
David Svec MD MBA
Clinical Associate Professor, Medicine
Current Research and Scholarly Interests High Value Care: Leading quality improvement projects / research initiatives
Katrin J Svensson
Assistant Professor of Pathology
Current Research and Scholarly Interests Molecular metabolism
James H. Clark Professor in the School of Engineering and Professor of Chemical Engineering and of Bioengineering
Bio Using and Understanding Cell-Free Biology
Swartz Lab General Research Focus:
The current and projected research in the Swartz lab balances basic research in microbial metabolism, protein expression, and protein folding with a strong emphasis on compelling applications. The power and versatility of cell-free methods coupled with careful evaluation and engineering of these new systems enables a whole new range of applications and scientific investigation. Fundamental research on: the mechanisms and kinetics of ribosomal function, fundamental bioenergetics, basic mechanisms of protein folding, functional genomics, and metabolic pathway analysis is motivated by a variety of near- and medium term applications spanning medicine, energy, and environmental needs.
Swartz Lab Application Focus:
In the medical area , current research addresses the need for patient-specific vaccines to treat cancer. Particularly for lymphomas, there is a strong need to be able to make a new cancer vaccine for each patient. Current technologies are not practical for this demanding task, but cell-free approaches are rapid and inexpensive. We have already demonstrated feasibility in mouse tumor challenge studies and are now expanding the range of applications and working to improve the relevant technologies. Experience with these vaccines has also suggested a new and exciting format for making inexpensive and very potent vaccines for general use.
To address pressing needs for a new and cleaner energy source, we are working towards an organism that can efficiently capture solar energy and convert it into hydrogen. The first task is to develop an oxygen tolerant hydrogenase using cell-free technology to express libraries of mutated enzymes that can be rapidly screened for improved function. Even though these are very complex enzymes, we have produced active hydrogenases with our cell-free methods. We are now perfecting the screening methods for rapid and accurate identification of improved enzymes. After these new enzymes are identified, the project will progress toward metabolic engineering and bioreactor design research to achieve the scales and economies required.
To address environmental needs, we are developing an improved water filters using an amazing membrane protein, Aquaporin Z. It has the ability to reject all other chemicals and ions except water. We have efficiently expressed the protein into lipid bilayer vesicles and are now working to cast these membranes on porous supports to complete the development of a new and powerful water purification technology. The same lessons will be applied toward the development of a new class of biosensors that brings high sensitivity and selectivity.
Clinical Assistant Professor, Medicine - Pulmonary, Allergy & Critical Care Medicine
Current Research and Scholarly Interests The focus of Dr. Sweatt's ongoing research is to characterize pulmonary arterial hypertension immunophenotypes, by employing informatics-based methods to delineate peripheral blood proteomic and transcriptomic signatures. A move beyond the traditional disease classification scheme, this multimodal deep phenotyping approach has the potential to provide new mechanistic insights, help explain heterogeneity in observed clinical outcomes, and someday identify candidates for immunomodulatory therapy.
Susan M. Swetter, MD
Professor of Dermatology at Palo Alto Veterans Affairs Health Care System and the Stanford University Medical Center
Current Research and Scholarly Interests 1) Early detection of melanoma through enhanced screening, novel imaging technologies, and professional/public education to improve melanoma awareness. 2) Therapeutic prevention of melanoma and other skin cancers in high-risk groups. 4) Epidemiologic and sociodemographic melanoma risk factors. 4) Dermatologist liaison to ECOG-ACRIN Melanoma Committee and Co-founder/Co-Director of the national Melanoma Prevention Working Group, an interdisciplinary collaboration dedicated to melanoma control.