1. Introduction to A&P Bio 103 January 23, 2008 Martini Chapter 1

2. Today we will discuss The definitions of A&P

3. Today we will discuss The definitions of A&P levels of organization of the human body

4. Today we will discuss The definitions of A&P levels of organization of the human body organ systems

5. Today we will discuss The definitions of A&P levels of organization of the human body organ systems homeostasic regulation of the body

6. Today we will discuss The definitions of A&P levels of organization of the human body organ systems homeostasic regulation of the body human body terminology

7. Today we will discuss The definitions of A&P levels of organization of the human body organ systems homeostasic regulation of the body human body terminology human body cavities

8. Anatomy & Physiology Structure (anatomy) determines function (physiology) "Proportions of the Human Figure" Leonardo da Vinci, 1485-1490

9. Gross Anatomy (visible to the unaided eye) surface anatomy

10. Gross Anatomy (visible to the unaided eye) surface anatomy regional anatomy

11. Gross Anatomy (visible to the unaided eye) surface anatomy regional anatomy systemic anatomy –organ systems

12. Gross Anatomy (visible to the unaided eye) surface anatomy regional anatomy systemic anatomy –organ systems developmental anatomy –embryology

13. Gross Anatomy (visible to the unaided eye) surface anatomy regional anatomy systemic anatomy –organ systems developmental anatomy –embryology clinical anatomy –for example radiology

14. Microscopic Anatomy (cannot be seen without magnification) cytology –looking at individual cells histology –looking at groups of specialized cells called tissues tissues combine to form organs

15. Physiology The function of the anatomical structure –Cell physiology –Special physiology (i.e., cardiac) –Systemic physiology (i.e., cardiovascular) –Pathological physiology (Pathos = disease)

16. Levels of Organization

17. Tissues: Chapter 4 1.Epithelial tissue  covers body surface and body cavities, forms glands 2.Connective tissue  supports/protects organs, stores energy, transports material throughout body 3.Muscle tissue  allows movement and organ contraction 4.Neural tissue  coordinates bodily activities by sending and receiving information via electrical impulses

18. Organs: Chapters 5-18 There are 11 independent, yet interconnected organ systems in the human body. In this class we will focus on 5 of these systems. 1.integumentary 2.skeletal 3.muscular 4.nervous 5.endocrine

19. The Integumentary System

20. The Skeletal System

21. The Muscular System

22. The Nervous System

23. The Endocrine System

24. Organs: Chapters 19-28 In A&P II you will learn about the remaining organ systems

25. The Cardiovascular System

26. The Lymphatic System

27. The Respiratory System

28. The Digestive System

29. The Urinary System

30. The Reproductive System

31. Homeostasis The cells, tissues, organs and organ systems of a body coexist in a shared environment, which must remain in homeostasis. –Homeo (unchanging) + stasis (standing) In other words, the environment must be regulated to stay within specific physiological set points. –e.g., internal body temperature is maintained at 98.6 degrees.

32. Homeostatic Regulation How does the body maintain its internal environment? –autoregulation (intrinsic regulation) a cell, tissue, organ or organ system adjusts its activities automatically in response to a change in the environment. –extrinsic regulation when the nervous or endocrine system adjusts the activities of the other systems simultaneously. –nervous system »electrical signal, short term and fast –endocrine system » hormonal signal, slow, but longer lasting changes

33. Homeostatic Regulation 3 necessary components: 1.a receptor/receiver to sense change in environment (i.e., stimulus) 2.a control center to receive and process the information and send out commands 3.an effector (usually a cell or organ) that responds to the command in order to keep the body in homeostasis

34. An analogy of homeostatic regulation

35. Negative Feedback a common homeostatic mechanism The effector activated by the control center opposes the change or stimulus keeping the body within a certain physiological range. set point change sensed control center sends command effector opposes stimulus and brings physiological parameter back to set point

36. An Example of Negative Feedback

37. Positive Feedback not very common The effector activated by the control center exaggerates or enhances the change or stimulus. Some examples: –blood clotting –childbirth

38. If Homeostasis fails When this happens, organ systems can malfunction, putting the body into a state of illness or disease

39. State of Equilibrium opposing processes are in balance, and thus a physiological parameter appears to be in a steady state

40. The role of organ systems in homeostatic regulation

41. Frames of Anatomical Reference Anatomy uses a special language to describe body sections, regions and relative positions.

42. Anatomical Position hands at side, palms facing forward –STANDING FRONT = ANTERIOR –STANDING BACK = POSTERIOR –LYING FACE UP = SUPINE –LYING FACE DOWN = PRONE

43. Superficial Anatomy Anatomical Landmarks –Anterior (front) View –Figure 1-6

44. Superficial Anatomy Anatomical Landmarks –Posterior (back) View –Figure 1-6

45. Regions of the Human Body (Table 1-2, Figure 1-6)

47. Anatomical Regions Clinicians use: –abdominopelvic quadrants Provides useful reference for description of pain/injury. RLQ tenderness is a symptom of appendicitis Figure 1-7a

48. Anatomical Regions Anatomist use: –9 abdominopelvic regions Figure 1-7

49. Anatomical Directional References Figure 1-8

50. Fill in the blank

51. Sectional Anatomy 3 Sectional Planes –traverse –frontal –sagittal Figure 1-9 Plane: a 3-dimensional axis Section: a slice parallel to a plane

52. Body Cavities internal chambers that serve 2 functions 1.protect organs 2.permit change in size without distorting or disrupting surrounding tissues or adjacent organs

53. Ventral Body Cavity (coelom) Coelom: –divided by the diaphragm into the 1. thoracic cavity 2. abdominopelvic cavity

54. Figure 1–10b Membranes Isolate the Organs Serous membranes: –parietal layer (next to wall of cavity) –visceral layer (next to organ)

55. Thoracic Cavity thoracic cavity –pleural cavity divided by the mediastinum organs: lungs membranes: visceral and parietal pleura –pericardial cavity organs: heart membranes: visceral and parietal pericardium

56. Figure 1–10c Mediastinum mediastinum divides thoracic cavity into 2 pleural cavities

57. Abdominopelvic Cavity abdominopelvic cavity –peritoneal cavity membranes: visceral and parietal peritoneum –abdominal cavity (superior peritoneal) organs: liver, stomach, spleen, intestine –pelvic cavity (inferior peritoneal) organs: intestine, bladder, reproductive organs.