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31 - 40 of 86 results for: MED

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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 underserved 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. For questions related to the course or volunteering, please email arborclinic@stanford.edu and/or pacific@ med.stanford.edu. Application only; must be an accepted CFC volunteer. (Cardinal Course certified by the Haas Center)
Terms: Aut, Win, Spr, Sum | Units: 1-2 | Repeatable for credit

MED 284: Clinical Trial Design: From Initial Concept to Regulatory Approval

This course teaches the basic elements of clinical trial design, implementation and analysis including small phases of clinical trials. Overall early phase clinical trial concepts including dose finding, initial safety assessment as well asactivity, biomarker and initial activity assessments with be taught. Later stage concepts such as dose refinement, safety and efficacy will also be covered. The course will teach all aspects of clinical trials including initial concept, study design, synopsis writing, overall protocol development, review and approval by regulatory authorities and Institutional Review Boards (IRB), site selection and qualification, drug accounting, data and safety monitoring, data collection and analysis, unblinding procedures, study and site close out and clinical study report writing. Students will gain experience by analyzing existing protocols, studies and data. Basic statistical knowledge expected. Curricular prerequisites (if applicable): open to current M-TRAM students.
Terms: Aut | Units: 3
Instructors: Tidmarsh, G. (PI) ; Felsher, D. (SI) ; Liliental, J. (SI)

MED 285: Global Leaders and Innovators in Human and Planetary Health: Sustainable Societies Lab (HRP 285, SUSTAIN 345)

Are you interested in innovative ideas and strategies for addressing urgent challenges in human and planetary health and creating sustainable societies? This 7 session lecture series features a selection of noteworthy leaders, innovators, and experts across diverse sectors/topics in health and the environment such as: health innovation and environmental sustainability, social and environmental justice and equality, social innovation and entrepreneurship ecosystems, foundations and venture capital, tech innovation, media and AI, biotech and ag-tech, pandemics, public health and community wellbeing, food systems and agricultural innovation, hunger and nutrition, clean water and air, nonprofits and community action, public policy innovation and systems change, and the role of academia and you. Co-convened and co-designed by faculty, fellows and students collaborating across several Stanford centers, departments, schools, the course invites the discussion of global problems, interdisciplin more »
Are you interested in innovative ideas and strategies for addressing urgent challenges in human and planetary health and creating sustainable societies? This 7 session lecture series features a selection of noteworthy leaders, innovators, and experts across diverse sectors/topics in health and the environment such as: health innovation and environmental sustainability, social and environmental justice and equality, social innovation and entrepreneurship ecosystems, foundations and venture capital, tech innovation, media and AI, biotech and ag-tech, pandemics, public health and community wellbeing, food systems and agricultural innovation, hunger and nutrition, clean water and air, nonprofits and community action, public policy innovation and systems change, and the role of academia and you. Co-convened and co-designed by faculty, fellows and students collaborating across several Stanford centers, departments, schools, the course invites the discussion of global problems, interdisciplinary perspectives, and systemic solutions for the climate crisis and human health. The course will address root causes of the climate crisis and urgent challenges of human and planetary health, including sociological constraints, political objectives, economic incentives, technological limitations, and preservation of global stability, and suggest models of leadership, innovation and sustainable social change. We will also delve into efforts to catalyze long-term sustainability across the private, nonprofit, and public sectors. Students from all backgrounds are encouraged to enroll - registration is open to all Stanford students and fellows. May be repeated for credit.
Terms: Aut | Units: 1-2 | Repeatable 4 times (up to 8 units total)
Instructors: Bloom, G. (PI) ; Singer, S. (SI)

MED 286: Health Information Technology and Strategy

Health Information technology was intended to help reduce and cost and improve the quality of health care services. TO date, this is little evidence that this goal has been achieved. This course is designed to explore economic frameworks that can help us to understand how health IT can achieve it's intended goals. These frameworks build from general business and economic models used successfully in other industries. The course will be utilize both business cases and lecture to prepare students to propose potential novel applications of health information technology solutions. Each student will have a team-based final project.
Terms: Aut | Units: 3-4
Instructors: Schulman, K. (PI)

MED 289: Introduction to Bioengineering Research (BIOE 390)

Preference to medical and bioengineering graduate students with first preference given to Bioengineering Scholarly Concentration medical students. Bioengineering is an interdisciplinary field that leverages the disciplines of biology, medicine, and engineering to understand living systems, and engineer biological systems and improve engineering designs and human and environmental health. Students and faculty make presentations during the course. Students expected to make presentations, complete a short paper, read selected articles, and take quizzes on the material.
Terms: Aut | Units: 1-2 | Repeatable 5 times (up to 10 units total)
Instructors: Narayan, S. (PI) ; Wang, P. (PI) ; Yang, Y. (PI)

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 facul more »
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 16 times (up to 80 units total)
Instructors: Thadaney Israni, S. (PI) ; Verghese, A. (PI) ; Zulman, D. (PI)

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. 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 296: Being Mortal: Medicine, Mortality and Caring for Older Adults

Over the past century, we've witnessed a significant leap in life expectancy, from an average of 55 years to 80 years. The fastest-growing segment of the U.S. population is the "oldest old" and the prevalence of people reaching 100 years has nearly doubled. This shift prompts underlying questions about the hopes, aspirations, and what matters most in the context of aging, illness, culture, and the end of life. This weekly seminar will feature a diverse lineup of speakers including physicians, scientists, patients and their caregivers, and experts in aging. Upon completion of the course, students will have enhanced their knowledge in geriatrics, palliative medicine, and communication to better care for aging or seriously ill patients and their families. The Autumn and Spring courses vary in speakers and topics.
Terms: Aut, Spr | Units: 1 | Repeatable 2 times (up to 2 units total)

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) ; Aggarwal, A. (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) ; Ariel, D. (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) ; Baykaner, T. (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) ; Cheng, P. (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) ; 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) ; Dosiou, C. (PI) ; DuBose, A. (PI) ; Edwards, L. (PI) ; Einav, S. (PI) ; Falasinnu, L. (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) ; 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) ; Glaseroff, A. (PI) ; Glenn, J. (PI) ; Goldhaber-Fiebert, J. (PI) ; Goldstein, M. (PI) ; Goodman, S. (PI) ; Goronzy, J. (PI) ; Gotlib, J. (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) ; Jagannathan, P. (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) ; Kenny, K. (PI) ; Khatri, P. (PI) ; Khazeni, N. (PI) ; Khush, K. (PI) ; Killen, J. (PI) ; Kim, S. (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) ; Liang, D. (PI) ; Liedtke, M. (PI) ; Lin, B. (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) ; 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) ; Puri, MD, MPH, R. (PI) ; Quertermous, T. (PI) ; Raffin, T. (PI) ; Rehkopf, D. (PI) ; Relman, D. (PI) ; Rizk, N. (PI) ; Robinson, B. (PI) ; Rockson, S. (PI) ; Rodriguez, F. (PI) ; Rohatgi, R. (PI) ; Rosas, L. (PI) ; Rosen, G. (PI) ; Rudd, P. (PI) ; Ruoss, S. (PI) ; Rydel, T. (PI) ; Sandhu, A. (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) ; 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) ; Srinivasan, M. (PI) ; Stafford, R. (PI) ; Stefanick, M. (PI) ; Stertzer, S. (PI) ; Stevens, D. (PI) ; Stockdale, F. (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. 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MED 299M: TRIP: Translational Research Independent Project required of all MTRAM students

TRIP will be a translational research capstone project that will require approximately 5 hours per week 2nd through 4th quarter for a total of about 150 hours and enable each student to test a hypothesis, develop an experimental plan, interpret results, understand the future research plan. Capstones will focus on early clinical translation (T0-T1) involving areas of strength of our M-TRAM faculty, including: drug therapy and delivery, vaccines, immune measurements and therapy and gene measurements and therapy. Project ideas can be student initiated, suggested by the faculty advisors, or arise from experiential learning (Industry and Clinical), but must be approved, supported and monitored by the M-TRAM leadership committee. Upon completion of the project, students will present their final results as an oral presentation and a written report. They will formally present their final results at the student research showcase in the 4th quarter (summer). In addition to the talk students will also be required to prepare a final written report summarizing their project's aims, hypothesis, methods, results, and conclusions. Prerequisite: Application and acceptance to the MTRAM program.
Terms: Aut, Win, Spr | Units: 5-15 | Repeatable 2 times (up to 30 units total)
Instructors: Liliental, J. (PI)
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