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Biochemistry and Foundations of Western Medical Sciences

Biochemistry and Foundations of Western Medical Sciences. FALL 2011 Dr. Alex Alexander. Introductions. Name What you were doing this time last year What was the best part of your summer before grad school Why you are here. BE SPECIFIC What is your favorite biochemical concept/construct.

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Biochemistry and Foundations of Western Medical Sciences

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  1. Biochemistry and Foundations of Western Medical Sciences • FALL 2011 • Dr. Alex Alexander

  2. Introductions • Name • What you were doing this time last year • What was the best part of your summer before grad school • Why you are here. BE SPECIFIC • What is your favorite biochemical concept/construct

  3. Syllabus • Let’s read it...

  4. Course Outline • Break it down by week in pairs or trio • Each team has 10 minutes to prepare and 2 minutes to tell the class what they think the class is about the week they are assigned • Cohort has 2 minutes to ask questions

  5. Basic SCIENCES SIOM • 1.Biochemistry and Foundations of Western Medical (clinical) Sciences • 2. Immunology/Hematology and Microbiology / Infectious Disease (Foundations of Western disease) and Malignant Neoplasms: This includes the HIV/AIDS 7-hr required course - Introduce antimicrobials here • 3. Systems I: Trauma, Musculoskeletal, Neurological (7th for current new 2nd years that just had micro) • 4. Systems II: HEENT, GI, Metabolic/Nutritional, Heptobiliary, Endocrine • 5. Systems III: Cardiovascular, Intro to Respiratory, Renal and Urological, Psychiatric Intro (depression and Anxiety) • 6. Systems IV: Complete Respiratory, Skin Disorders, OB/GYN, Genetic, Sexual Disorders

  6. Systems View (versus reductionist view) • Article: The Clinical Application of a Systems Approach • Citation: Ahn AC, Tewari M, Poon C-S, Phillips RS (2006) The Clinical Applications of a Systems Approach. PLoS Med 3(7): e209. doi:10.1371/journal.pmed.0030209

  7. The Problem • The primary side effect of a reductionist approach is that the act of reduction (from larger to smaller) disregards component–component interactions and the dynamics that result from them. Therefore, as a general rule, reductionism is less helpful for systems where interactions between components dominate the components themselves in shaping the system-wide behavior

  8. Reductionist versus systems • Big Difference

  9. Application of Both

  10. When to use which... • In clinical medicine, complex, chronic diseases such as diabetes, coronary artery disease, or asthma are examples where this rule may apply. In these examples, a single factor is rarely implicated as solely responsible for disease development or presentation. Rather, multiple factors are often identified, and the disease evolves through complex interactions between them.

  11. continued • Consequently, a perspective in which the interactions and dynamics are centrally integrated into the analytical methods may be better suited. Systems perspectives, unlike reductionisms, focus on these interrelationships and therefore may be the optimal method for complex chronic diseases.

  12. What do you mean? • Where reductionism is helpful, when a systems approach is not, is when one or several components overwhelmingly influence the systems behavior. Diseases such as urinary tract infection, acute appendicitis, or aortic dissection are driven primarily by a single pathology amenable to a specific intervention. Arguably, these conditions would do poorly under a systems approach, where lengthy analysis and comprehensive data acquisition are often required.

  13. Bottom line: • Reductionism works best when an isolatable problem exists and where a quick and effective solution is needed. For that reason, reductionism may generally be most effective for acute and simple diseases, whereas a systems approach may be most applicable to chronic and complex diseases.

  14. The example of diabetes • Given that a systems approach is likely applicable to complex chronic diseases, how might it influence the treatment of a complex disease such as diabetes? Research has shown that diabetes is a multidimensional disorder. Factors such as genetics, inflammation , PPAR-gamma, leptin, cortisol, diet, and body mass index, among others, have been implicated in some form with its pathogenesis.

  15. The role of systems medicine • The fundamental distinctiveness of systems medicine is not just the recognition that these complex factors are important in disease management, but that they need to be incorporated in some meaningful way to treatment selection and delivery.

  16. The diabetes example (from western thought)

  17. Conclusions • The challenges of incorporating systems science into medicine are difficult but not insurmountable. The specific task to be faced is the system-level understanding of human health and disease at the organ, organism, and community level. This effort has great potential for the advancement of medicine.

  18. Questions on Systems thought? • Logical?

  19. FUEL METABOLISM

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