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471 - 480 of 628 results for: Medicine

MED 273: Biodesign for Mobile Health (BIOE 273)

Health care is facing significant cross-industry challenges and opportunities created by a number of factors including: the increasing need for improved access to affordable, high-quality care; growing demand from consumers for greater control of their health and health data; the shift in focus from 'sick care' to prevention and health optimization; aging demographics and the increased burden of chronic conditions; and new emphasis on real-world, measurable health outcomes for individuals and populations. Moreover, the delivery of health information and services is no longer tied to traditional 'brick and mortar' hospitals and clinics: it has increasingly become "mobile," enabled by apps, sensors, wearables, and other mobile devices, as well as by the data that these technologies generate. This multifactorial transformation presents opportunities for innovation across the entire cycle of care, from wellness, to acute and chronic diseases, to care at the end of life. But how does one approach innovation in mobile health to address these health care challenges while ensuring the greatest chance of success? At Stanford Biodesign, we believe that innovation is a process that can be learned, practiced, and perfected; and, it starts with a need. In Biodesign for Mobile Health, students will learn about mobile health and the Biodesign needs-driven innovation process from over 50 industry experts. Over the course of ten weeks, these speakers join the teaching team in a dynamic classroom environment that includes lectures, panel discussions, and breakout sessions. These experts represent startups, corporations, venture capital firms, accelerators, research labs, health organizations, and more. Student teams will take actual mobile health challenges and learn how to apply Biodesign innovation principles to research and evaluate needs, ideate solutions, and objectively assess them against key criteria for satisfying the needs. Teams take a hands-on approach with the support of need coaches and mentors. On the final day of class, teams present to a panel of mobile health experts and compete for project extension funding. Limited enrollment, by application only. Friday section will be used for team projects and for scheduled workshops.
Terms: Aut | Units: 3

MED 274: Design for Service Innovation (BIOE 372, HRP 274)

(Same as OIT 343/01) Open to graduate students from all schools and departments. An experiential project course in which students work in multidisciplinary teams to design new services to address the needs of medically patients. Project teams partner with "safety net" hospitals and clinics to find better ways to deliver care to the low income and uninsured patients these institutions serve. Students learn proven innovation processes from experienced GSB, d. school, and SoM faculty, interface with students from across the university, and have the opportunity to see their ideas translated into improvements in the quality and efficiency of healthcare in the real world. Prerequisite: admission to the course is by application only. Applications available at http://DesignForService.stanford.edu. Applications must be submitted by November 16, 2011.
Last offered: Winter 2012

MED 275B: Biodesign Fundamentals

MED 275B is an introduction to the Biodesign process for health technology innovation. This team-based course emphasizes interdisciplinary collaboration and hands-on learning at the intersection of medicine and technology. Students will work on projects in the space of medical devices, digital health, and healthcare technologies with the assistance of clinical and industry mentors. Applicants from all majors and stages in their education welcome. n nStudents will work in teams to develop solutions to current unmet medical needs, starting with a deep dive into understanding and characterizing important unmet medical needs through disease research, competitive analysis, market research, and stakeholder analysis. In the latter part of the course, students will go through the design cycle and build prototypes to their needs. The course will conclude with a pitch day where students will present and demonstrate their solution to a panel of judges, including prominent academics, industry professionals, and investors. Other topics that will be discussed include FDA regulation of medical technology, intellectual property, value proposition, and business model development. There will be guest speakers from Google X, IDEO, and more.
Terms: Spr | Units: 4

MED 282: Early Clinical Experience at the Cardinal Free Clinics (MED 182)

The Cardinal Free Clinics, consisting of Arbor and Pacific Free Clinic, provide culturally appropriate, high quality transitional medical care for undeserved patient populations in the Bay Area. Students volunteer in various clinic roles to offer services including health education, interpretation, referrals, and labs. In clinic students are guided in the practice of medical interviews, history-taking and physical examinations as appropriate, and work with attending physicians to arrive at a diagnosis and management plan. Visit http://cfc.stanford.edu for more information.
Terms: Aut, Win, Spr, Sum | Units: 1-2 | Repeatable for credit

MED 284: Team Leadership in the Cardinal Free Clinics I (MED 184)

Introduction to skills for effective leadership, including topics such as conflict resolution, team dynamic. Applied learning through shifts at the Cardinal Free Clinics and related project work. Enrollment limited to Cardinal Free Clinic Managers.
Terms: Aut, Win | Units: 1 | Repeatable for credit

MED 287: Survey of Asian Health Issues

In this lecture series, students will explore Asian health topics. Specifically, the chronic disease risk and burden of Asians in the U.S. as a group is considered. Additionally, the necessity of the practice of disaggregation in the study and treatment of Asian Americans is emphasized. Topics will include cardiovascular disease, cancer, population health, precision health, pharmacogenomics and longevity in Asian-Americans. Class format is 30 minute lecture followed by 20 minutes for questions. No required readings. Opportunity to connect with guest speakers for research opportunities. Assignments will include short written reflections on lecture topics. This course is relevant for students interested in basic biology research, epidemiology, and public health policy, or clinical careers in medicine, psychology, or social work. Grading is satisfactory/no credit. All students are welcome, limit 25.

MED 290: Independent Study with Presence and the Program in Bedside Medicine

Students work with their faculty mentor on projects and studies that are broadly centered around the vision and mission of Presence: The Art and Science of Human Connection and the Program in Bedside Medicine. Please see our websites for updated projects and initiatives - Presence + Program in Bedside Medicine. Currently, we focus on: How do we teach and emphasize to students, residents, physicians (and beyond) in the medical field the need to master bedside skills? How does bedside medicine affect patient care? How has patient care changed with the omnipresence of technology in our lives? How is bedside medicine going to change in the next few decades, centuries? In investigating these questions, students utilize scientific articles and data, engage patients, and collaborate with our faculty and staff. Independent study projects culminate in a presentation to our team, with the potential for posters or manuscripts. Students paired with faculty based on their area of interest and faculty/project needs.We emphasize the human connection with patients, and students are encouraged to engage patients within our program for teaching sessions, research studies, among other projects. Enrollment varies with and is limited to faculty need. Repeatable for credit; more than one-quarter of commitment expected.
Terms: Aut, Win, Spr, Sum | Units: 1-5 | Repeatable for credit

MED 295: Advanced Cardiac Life Support

(For clinical MD students only) Prepares students to manage the victim of a cardiac arrest. Knowledge and skills necessary for resuscitation of critically ill patients. Clinical scenarios and small group discussions address cardiovascular pharmacology, arrhythmia recognition and therapy, acute coronary syndrome including myocardial infarction, ventricular dysrhythmias and defibrillation, and acute ischemic stroke. Requires pre-course preparation and an intensive two-day session on a Friday and Saturday. Students should get the approval of their Clerkship Coordinator before registering for the course. Recommended prerequisites: Medicine 300A, Pediatrics 300A, or Surgery 300A. Prerequisite: EMED 201A
Terms: Aut, Win, Spr | Units: 2

MED 299: Directed Reading in Medicine

Prerequisite: consent of instructor.
Terms: Aut, Win, Spr, Sum | Units: 1-18 | Repeatable for credit
Instructors: Advani, R. (PI) ; Ahmed, A. (PI) ; Ahuja, N. (PI) ; Akatsu, H. (PI) ; Al-Ahmad, A. (PI) ; Alizadeh, A. (PI) ; Alsan, M. (PI) ; Andrews, J. (PI) ; Annes, J. (PI) ; Arai, S. (PI) ; Artandi, M. (PI) ; Artandi, S. (PI) ; Asch, S. (PI) ; Ashley, E. (PI) ; Assimes, T. (PI) ; Ayoub, W. (PI) ; Banerjee, S. (PI) ; Barry, M. (PI) ; Basaviah, P. (PI) ; Basina, M. (PI) ; Basu, S. (PI) ; Behal, R. (PI) ; Bendavid, E. (PI) ; Benjamin, J. (PI) ; Berube, C. (PI) ; Bhalla, V. (PI) ; Bhatt, A. (PI) ; Bhattacharya, J. (PI) ; Blackburn, B. (PI) ; Blaschke, T. (PI) ; Blayney, D. (PI) ; Blish, C. (PI) ; Bloom, G. (PI) ; Bollyky, P. (PI) ; Bouvier, D. (PI) ; Boxer, L. (PI) ; Braddock, C. (PI) ; Brinton, T. (PI) ; Brown, W. (PI) ; Bulow, K. (PI) ; Carlson, R. (PI) ; Cartwright, C. (PI) ; Chakravarty, E. (PI) ; Chan, D. (PI) ; Chan, G. (PI) ; Chang, C. (PI) ; Chang, S. (PI) ; Chen, A. (PI) ; Chertow, G. (PI) ; Cheung, R. (PI) ; Chi, J. (PI) ; Cho-Phan, C. (PI) ; Chu, G. (PI) ; Chua, K. (PI) ; Chung, L. (PI) ; Clarke, M. (PI) ; Clusin, W. (PI) ; Colevas, A. (PI) ; Colloff, E. (PI) ; Contopoulos-Ioannidis, D. (PI) ; Cooke, J. (PI) ; Cooper, A. (PI) ; Coutre, S. (PI) ; Crapo, L. (PI) ; Crump, C. (PI) ; Cullen, M. (PI) ; Das, A. (PI) ; Dash, R. (PI) ; Daugherty, T. (PI) ; David, S. (PI) ; Dawson, L. (PI) ; Deresinski, S. (PI) ; Desai, M. (PI) ; Desai, T. (PI) ; Dhillon, G. (PI) ; Dorman, J. (PI) ; Dosiou, C. (PI) ; DuBose, A. (PI) ; Edwards, L. (PI) ; Einav, S. (PI) ; Farquhar, J. (PI) ; Fathman, C. (PI) ; Fearon, W. (PI) ; Feldman, D. (PI) ; Felsher, D. (PI) ; Fisher, G. (PI) ; Fitzgerald, P. (PI) ; Ford, J. (PI) ; Ford, P. (PI) ; Fowler, M. (PI) ; Frayne, S. (PI) ; Friedland, S. (PI) ; Fries, J. (PI) ; Froelicher, V. (PI) ; Gabiola, J. (PI) ; Ganjoo, K. (PI) ; Garcia, G. (PI) ; Garcia, R. (PI) ; Gardner, C. (PI) ; Gardner, P. (PI) ; Gavi, B. (PI) ; Genovese, M. (PI) ; Gerson, L. (PI) ; Gesundheit, N. (PI) ; Giacomini, J. (PI) ; Glaseroff, A. (PI) ; Glenn, J. (PI) ; Goldhaber-Fiebert, J. (PI) ; Goldstein, M. (PI) ; Goodman, S. (PI) ; Goronzy, J. (PI) ; Gotlib, J. (PI) ; Gray, G. (PI) ; Greenberg, H. (PI) ; Greenberg, P. (PI) ; Gregory, P. (PI) ; Habtezion, A. (PI) ; Hallenbeck, J. (PI) ; Harman, S. (PI) ; Harrington, R. (PI) ; Harshman, L. (PI) ; Haskell, W. (PI) ; Heaney, C. (PI) ; Heidenreich, P. (PI) ; Henri, H. (PI) ; Ho, D. (PI) ; Hoffman, A. (PI) ; Holman, H. (PI) ; Holodniy, M. (PI) ; Hopkins, J. (PI) ; Horning, S. (PI) ; Hsia, H. (PI) ; Hunt, S. (PI) ; Ioannidis, J. (PI) ; Isom, R. (PI) ; Jernick, J. (PI) ; Ji, H. (PI) ; Johnston, L. (PI) ; Jones, E. (PI) ; Kahn, J. (PI) ; Kao, P. (PI) ; Kastelein, M. (PI) ; Katz, R. (PI) ; Katzenstein, D. (PI) ; Kenny, K. (PI) ; Khatri, P. (PI) ; Khazeni, N. (PI) ; Khush, K. (PI) ; Killen, J. (PI) ; Kim, S. (PI) ; Kohrt, H. (PI) ; Kraemer, F. (PI) ; Krishnan, E. (PI) ; Kummar, S. (PI) ; Kunz, P. (PI) ; Kuo, C. (PI) ; Kurian, A. (PI) ; Kuschner, W. (PI) ; Ladabaum, U. (PI) ; Lafayette, R. (PI) ; Laport, G. (PI) ; Lee, D. (PI) ; Lee, J. (PI) ; Lee, P. (PI) ; Leung, L. (PI) ; Levin, E. (PI) ; Levitt, J. (PI) ; Levitt, L. (PI) ; Levy, R. (PI) ; Levy, S. (PI) ; Liang, D. (PI) ; Liedtke, M. (PI) ; Lin, S. (PI) ; Lindsay, A. (PI) ; Lorig, K. (PI) ; Lowe, A. (PI) ; Lowsky, R. (PI) ; Luby, S. (PI) ; Lutchman, G. (PI) ; Majeti, R. (PI) ; McConnell, M. (PI) ; McLaughlin, T. (PI) ; Medeiros, B. (PI) ; Meyer, T. (PI) ; Miklos, D. (PI) ; Miller, G. (PI) ; Milstein, A. (PI) ; Mitchell, B. (PI) ; Mohabir, P. (PI) ; Montoya, J. (PI) ; Morioka-Douglas, N. (PI) ; Musen, M. (PI) ; Narayan, S. (PI) ; Neal, J. (PI) ; Negrin, R. (PI) ; Nevins, A. (PI) ; Nguyen, L. (PI) ; Nguyen, M. (PI) ; Nguyen, P. (PI) ; Nicolls, M. (PI) ; O' Callahan, P. (PI) ; Osterberg, L. (PI) ; Owens, D. (PI) ; Pao, A. (PI) ; Parnes, J. (PI) ; Parsonnet, J. (PI) ; Pasricha, P. (PI) ; Pegram, M. (PI) ; Periyakoil, V. (PI) ; Petersen, J. (PI) ; Pinto, H. (PI) ; Pompei, P. (PI) ; Popp, R. (PI) ; Posley, K. (PI) ; Price, E. (PI) ; Prochaska, J. (PI) ; Quertermous, T. (PI) ; Raffin, T. (PI) ; Rehkopf, D. (PI) ; Relman, D. (PI) ; Rizk, N. (PI) ; Robinson, B. (PI) ; Rockson, S. (PI) ; Rohatgi, R. (PI) ; Rosas, L. (PI) ; Rosen, G. (PI) ; Rosenberg, S. (PI) ; Rudd, P. (PI) ; Ruoss, S. (PI) ; Rydel, T. (PI) ; Scandling, J. (PI) ; Schillinger, E. (PI) ; Schnittger, I. (PI) ; Schoolnik, G. (PI) ; Schroeder, J. (PI) ; Shafer, R. (PI) ; Shah, N. (PI) ; Shah, S. (PI) ; Sharp, C. (PI) ; Shen, K. (PI) ; Shieh, L. (PI) ; Shizuru, J. (PI) ; Shoor, S. (PI) ; Sikic, B. (PI) ; Singer, S. (PI) ; Singh, B. (PI) ; Singh, U. (PI) ; Skeff, K. (PI) ; Smith-Coggins, R. (PI) ; Spiekerkoetter, E. (PI) ; Srinivas, S. (PI) ; Stafford, R. (PI) ; Stefanick, M. (PI) ; Stertzer, S. (PI) ; Stevens, D. (PI) ; Stockdale, F. (PI) ; Strober, S. (PI) ; Studdert, D. (PI) ; Tai, J. (PI) ; Tamura, M. (PI) ; Tan, J. (PI) ; Telli, M. (PI) ; Tepper, R. (PI) ; Tompkins, L. (PI) ; Tremmel, J. (PI) ; Triadafilopoulos, G. (PI) ; Tsao, P. (PI) ; Upadhyay, D. (PI) ; Utz, P. (PI) ; Vagelos, R. (PI) ; Valantine, H. (PI) ; Verghese, A. (PI) ; Wakelee, H. (PI) ; Wang, P. (PI) ; Warvariv, V. (PI) ; Weill, D. (PI) ; Weinacker, A. (PI) ; Weng, K. (PI) ; Weng, W. (PI) ; Weyand, C. (PI) ; Wiedmann, T. (PI) ; Winkelmayer, W. (PI) ; Winkleby, M. (PI) ; Winslow, D. (PI) ; Winter, T. (PI) ; Witteles, R. (PI) ; Wu, J. (PI) ; Wu, J. (PI) ; Wu, S. (PI) ; Yabu, J. (PI) ; Yang, P. (PI) ; Yeung, A. (PI) ; Yock, P. (PI) ; Zamanian, R. (PI) ; Zehnder, J. (PI) ; Zei, P. (PI) ; Zolopa, A. (PI) ; Zulman, D. (PI) ; de Jesus Perez, V. (PI) ; Mendoza, F. (SI) ; Jezmir, J. (TA)
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