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601 - 610 of 617 results for: Medicine

STEMREM 202: Stem Cells and Translational Medicine

For graduate, undergraduate and medical students. Focus is on the fundamentals of stem cell biology and stem cell applications in basic research and translational medicine. Topics include exploration of the well-studied system of hematopoiesis, molecular pathways of pluripotency and tissue-specific stem cells and ends with coverage of aging as related to stem cell dynamics. Lectures are topically paired to cover the basic science of each topic, followed by clinical applications within each field of study. Students will use lecture and literature content to construct a research proposal or business plan based on biological or clinical concepts learned during the quarter.
Terms: Win | Units: 3-5
Instructors: Palmer, T. (PI)

STEMREM 203: Stem Cells Immersion: Applications in Medicine, Business and Law

For graduate and medical students enrolled in the SCBRM PhD program or other students by permission from the Instructor. Career-development immersions are custom designed by the student and advisor to provide clinical, pharmaceutical, biotechnology or business insights into the world of stem cell biology and regenerative medicine from multiple vantage points. The Immersion sets the stage for students to explore research and translation beyond the academic sphere and gain the necessary knowledge to move their career forward when completing the PhD.
Terms: Aut, Win, Spr, Sum | Units: 3
Instructors: Palmer, T. (PI)

STEMREM 250: Regenerative Medicine Seminar Series

For graduate, medical and undergraduate students. A forum for Stanford researchers to meet, hear about what is going on in Stem Cell Biology and Regenerative Medicine at Stanford, and spark collaborations. Topics include all areas of regenerative medicine, broadly defined, ranging from fundamental biological principles and basic science advances to novel applications in biotechnology, stem cell biology, and human disease.
Terms: Aut, Win, Spr | Units: 1 | Repeatable 6 times (up to 6 units total)
Instructors: Palmer, T. (PI)

STEMREM 280: Stem Cell Biology and Regenerative Medicine Journal Club

For graduate, medical and undergraduate students. Review of current literature in both basic and translational medicine as it relates to stem cell biology and/or regenerative medicine in a seminar format consisting of both faculty and student presentations. Includes discussions led by faculty experts in the area covered for that particular session. Topics may range widely, depending on the available literature and students' interests. Students are expected to review the chosen article before class presentations and participate in discussion. Discussion includes methodology and statistical analysis of each study and its relevance to stem cell biology and/or regenerative medicine.
Terms: Aut, Win, Spr | Units: 1 | Repeatable 6 times (up to 12 units total)
Instructors: Palmer, T. (PI)

STEMREM 299: Directed Reading in Stem Cell Biology and Regenerative Medicine

Prerequisite: consent of instructor.
Terms: Aut, Win, Spr, Sum | Units: 1-18 | Repeatable for credit

STRAMGT 321: Create a New Venture: From Idea to Launch I

This is an integrated lab course in Entrepreneurship designed to teach students the process of creating a new viable venture - from idea to launch. It is a dynamic and interactive course organized around projects undertaken by teams of 3 to 4 registered students from the MSx and MBA programs, together with other graduate students within Stanford who bring expertise of particular relevance to the idea being pursued. This course is designed not only for students with immediate entrepreneurial aspirations, but also for any student considering starting an entrepreneurial venture at some point in his or her career. The course is a two quarter class, with admission to the class by team and idea. In the winter quarter, teams will research, craft, and morph their idea into a viable business concept. In the spring quarter they will further refine their concept and develop a strategy and plan to attract financial, human and other resources. At the end of the spring quarter, teams will present their plan to a panel of experts and potential investors to simulate the funding process. The new course builds on a predecessor course S356 "Evaluating Entrepreneurial Opportunities" and encapsulates new and important research and findings as they relate to the process of new venture creation. The teaching method is primarily learning by doing (LBD) through a structured process and supported by relevant lectures. Learning is further enhanced through meetings with the instructor, coaching by experienced mentors and review by peers. Field research as well as prototype product development are integral to the course. Since admittance to S321/S322 is by team and the quality of their idea, team formation takes place during the autumn quarter. Informal student mixers and seminars will be held to facilitate team formation and idea generation. Each team of 3-4 students should preferably consist of 1 or more MSx students and graduate students from the MBA program or other Schools - Engineering, Medicine, Law, Science, Education - to bring diversity and depth to the team. The application-selection process is described on the S321/S322 website.
Terms: Win | Units: 3

STRAMGT 322: Create a New Venture: From Idea to Launch II

This is an integrated lab course in Entrepreneurship designed to teach students the process of creating a new viable venture - from idea to launch. It is a dynamic and interactive course organized around projects undertaken by teams of 3 to 4 registered students from the MSx and MBA programs, together with other graduate students within Stanford who bring expertise of particular relevance to the idea being pursued. This course is designed not only for students with immediate entrepreneurial aspirations, but also for any student considering starting an entrepreneurial venture at some point in his or her career. The course is a two quarter class, with admission to the class by team and idea. In the winter quarter, teams will research, craft, and morph their idea into a viable business concept. In the spring quarter they will further refine their concept and develop a strategy and plan to attract financial, human and other resources. At the end of the spring quarter, teams will present their plan to a panel of experts and potential investors to simulate the funding process. The new course builds on a predecessor course S356 "Evaluating Entrepreneurial Opportunities" and encapsulates new and important research and findings as they relate to the process of new venture creation. The teaching method is primarily learning by doing (LBD) through a structured process and supported by relevant lectures. Learning is further enhanced through meetings with the instructor, coaching by experienced mentors and review by peers. Field research as well as prototype product development are integral to the course. Since admittance to S321/S322 is by team and the quality of their idea, team formation takes place during the autumn quarter. Informal student mixers and seminars will be held to facilitate team formation and idea generation. Each team of 3-4 students should preferably consist of 1 or more MSx students and graduate students from the MBA program or other Schools - Engineering, Medicine, Law, Science, Education - to bring diversity and depth to the team. The application-selection process is described on the S321/S322 website.
Terms: Spr | Units: 3
Instructors: Rohan, D. (PI)

STS 103Q: Reading and Writing Poetry about Science

Preference to sophomores. Students will study recent poetry inspired by the phenomena and history of the sciences in order to write such poems themselves. These poems bring sensuous human experience to bear on biology, ecology, astronomy, physics, earth science, and medicine, as well as on technological advances and calamities. Poets such as Linda Bierds, Mark Doty, Albert Goldbarth, Sarah Lindsay, W.S. Merwin, Adrienne Rich, Pattiann Rogers, Tracy K. Smith, Arthur Sze, and C. K. Williams. Grounding in poetics, research in individually chosen areas of science, weekly analytical and creative writing. Fulfills the Creative Expression requirement. Enrollment limited to 12.
Last offered: Winter 2016 | UG Reqs: WAY-CE

STS 123: Making of a Nuclear World: History, Politics, and Culture

Nuclear technology has shaped our world through its various applications (e.g., weapons, energy production, medicine) and accidents and disasters (e.g., Chernobyl, Three Mile Island, Fukushima). This course will examine the development of nuclear technology and its consequences to politics and culture at the global, national, regional and local levels from interdisciplinary perspectives. Some of the key questions addressed are: How did different countries and communities experience and respond to the 1945 bombings of Hiroshima and Nagasaki? How did such experiences affect the later development of the technology in different national contexts? How have nuclear tests and disasters change the ways in which risks are understood and managed globally and locally? What kinds of political activism, international arrangements, and cultural tropes and imageries emerged in response to nuclear technology? We explore these questions through key works and recent studies in history, anthropology, sociology, and science and technology studies, as well as through films and literature.
Terms: Sum | Units: 4

SURG 253: Topics in Simulation of Human Physiology & Anatomical Systems (CME 520)

Biweekly interdisciplinary lecture series on the development of computational tools for modeling and simulation of human physiological and anatomical systems. Lectures by instructors and guest speakers on topics such as surgical simulation, anatomical & surgical Modeling, neurological Systems, and biomedical models of human movement. Group discussions, team based assignments, and project work.nPrerequisite: Medical students, residents or fellows from school of medicine, and computationally oriented students with a strong interest to explore computational and mathematical methods related to the health sciences.
| Repeatable for credit (up to 99 units total)
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