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Introduction to Human Physiology

Introduction to Human Physiology. XIA Qiang (夏强) , MD & PhD Department of Physiology Room 518, Block C, Research Building School of Medicine, Zijingang Campus Email: xiaqiang@zju.edu.cn Tel: ☆88206417 (Undergraduate School), 88208252 (Medical School).

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Introduction to Human Physiology

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  1. Introduction to Human Physiology XIA Qiang(夏强), MD & PhD Department of Physiology Room 518, Block C, Research Building School of Medicine, Zijingang Campus Email: xiaqiang@zju.edu.cn Tel: ☆88206417 (Undergraduate School), 88208252 (Medical School)

  2. Graduate Attributes and Capabilities Attitudes Knowledge Skills

  3. Learning Philosophy I hear and I forget, I see and I remember, I do and I understand.

  4. Handheld device software • Epocrates: drugs manual • >3300drugs • More than 45% medical doctors used • DynaMed: evidence based medicine database

  5. https://www.medsch.ucla.edu/mobile/requirement/req-2014.htm

  6. http://guides.library.harvard.edu/hms/mobileApps

  7. Course Structure • Lectures: 80 academic hours • 5 a.h./week • 2 a.h. on Mon., 3 a.h. on Wed. • Practicals: 64 a.h. • 4 a.h./week • Begin from second week

  8. Evaluation • “Double pass” policy: • Total >= 60 • Final examination >= 60 • Weekly assessments & midterm exam >= 60 Participation: 5% Practical reports: 15% Weekly assessments (from Summer Week 2 on), mini-tests at lecture & midterm exam: 30% Final examination: 50%

  9. Recommended textbook Widmaier EP, Raff H, Strang KT (2010 or later) Vander’s Human Physiology: The Mechanisms of Body Function, McGraw-Hill.

  10. Course website • Course website: • http://m-learning.zju.edu.cn • Demo

  11. Human Physiology • Specificcharacteristics, functions and mechanisms of the human body that make it a living being What ? How ?

  12. Body Components skin = barrier entry = respiratory & GI transport = CV & diffusion exit = renal & GI Differentiated Cells - specialized function Tissues - groups of cells with related function (muscle, nervous, connective, & epithelium) Organ- functional unit Organ system – several organs act together to perform specific function

  13. ICF ISF plasma organs external environment internal environment Fluid Compartments

  14. Body Fluid = 60% of Body Weight (BW) Plasma 5% of BW Extracellular Fluid 1/3, 20% of BW Interstitial Fluid 15% of BW 70 kg Male, 42 L Intracellular Fluid 2/3, 40% of BW Internal environment

  15. Extracellular Fluid= Internal Environment

  16. Homeostasis • Homeostasis(from the Greek words for “same” and “steady”): maintenance of static or constant conditions in the internal environment • Central theme of physiology Walter B. Cannon

  17. Components of Homeostasis: • Concentration of O2 and CO2 • pH of the internal environment • Concentration of nutrients and waste products • Concentration of salt and other electrolytes • Volume and pressure of extracellular fluid

  18. How is homeostasis achieved? ----Regulation Body's systems operate together to maintain homeostasis: Skin system Skeletal and muscular system Circulatory system Respiratory system Digestive system Urinary system Nervous system Endocrine system Lymphatic system Reproductive system

  19. Homeostasis and Illness

  20. Regulation of body functions • Nervous Regulation • Humoral Regulation • Autoregulation

  21. Nervous regulation Reflex Knee jerk reflex

  22. Reflex Arc • Receptor • Afferent (sensory) nerve • Reflex center (brain or spinal cord) • Efferent (motor) nerve • Effector

  23. Hormone Endocrine cells Receptor Hormone Humoral regulation Traditional description of humoral regulation by hormone

  24. Endocrine action:the hormone is distributed in blood and binds to distant target cells • Paracrine action:the hormone acts locally by diffusing from its source to target cells in the neighborhood • Autocrine action:the hormone acts on the same cell that produced it

  25. Neuroendocrine (Neurosecretion) Vasopressin Oxytocin

  26. Autoregulation Definition:Intrinsic (independent of any neural or humoral influences) ability of an organ to maintain a constant blood flow despite changes in perfusion pressure Mechanism: Stretch-activated constriction of vessels Significance: Maintenance of near-constant cerebral, renal and coronary blood flow

  27. 80~180 mmHg

  28. Control systems of the body CYBERNETICS or Control and Communicationin the Animal and the Machine (MIT Press 1948) Norbert Wiener (1894-1964) Originator of Cybernetics

  29. Stimulus Response Control Center Effectors 1. Non-automatic Control System Open-loop system Seldom seen under physiological conditions Stress

  30. Stimulus Response Control Center Effectors 2. Feedback Control System Closed-loop system Automatic control Negative feedback Positive feedback

  31. Negative feedback:common A change in a condition leads to responses from the effectors which counteracts that change

  32. Examples: Regulation of blood pressure, Regulation of body temperature, Regulation of hormone release…

  33. Correction Gain= Error Gain of the negative feedback: The degree of effectiveness with which a control system maintains conditions

  34. + Positive feedback:uncommon A change in a condition leads to responses from the effectors which amplifies that change

  35. Examples: Child birth Micturition Blood coagulation Vicious circle under pathophysiological conditions…

  36. Disturbance Monitor Stimulus Response Control Center Effectors 3. Feed-forward Control Often seen in nervous system Rapid Adaptive control Examples: some muscle contraction, conditioned reflex

  37. Summary • Terms: • Internal environment • Homeostasis • Negative feedback • Positive feedback • Regulation of body functions

  38. THANK YOU FOR YOUR ATTENTION!

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