1. 1-1 Chapter 1 The Human Organism The body is truly more than the sum of its parts and understanding the connectedness of the human structure and function is the real challenge. Homeostasis is the “glue” and basis which explains this relationship. Realize Anatomy and Physiology is a language. Study it like a language. Welcome to YOUR nursing career!

2. 1-2 Overview of Anatomy and Physiology Anatomy: scientific discipline that investigates the body’s structure Physiology: scientific investigation of the processes or functions of living things

3. 1-3 Topics of Anatomy Gross or macroscopic: structures examined without a microscope –Regional: studied area by area –Systemic: studied system by system –Surface: external form and relation to deeper structures as x-ray in anatomic imaging Microscopic: structures seen with the microscope –Cytology: cellular anatomy –Histology: study of tissues

4. 1-4 Topics of Physiology Reveals dynamic nature of living things Considers operations of specific organ systems –Cell physiology: examines processes in cells –Neurophysiology: focuses on the nervous system –Cardiovascular: the heart and blood vessels

5. 1-5 Subjects That Encompass Both Anatomy and Physiology Pathology: structural and functional changes caused by disease Exercise Physiology: changes in structure and function caused by exercise

6. 1-6 Structural & Functional Organizations Chemical Level: interaction of atoms Cell Level: functional unit of life Tissue Level: group of similar cells and the materials surrounding them Organ Level: one or more tissues functioning together Organ System Level: group of organs functioning together Organism Level: any living thing.

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8. Homeostasis Homeostasis—maintenance of a stable internal environment –A dynamic state of equilibrium Homeostasis is necessary for normal body functioning and to sustain life Homeostatic imbalance –A disturbance in homeostasis resulting in disease 1-8

9. 1-9 Homeostasis Values of variables fluctuate around the set point to establish a normal range of values. Set point: the ideal normal value of a variable. What is the set point for body temperature?

10. Homeostatic Control Mechanisms Process for maintaining homeostasis How does the body maintain proper Oxygen levels during exercise?

11. Maintaining Homeostasis The body communicates through neural and hormonal control systems Receptor Responds to changes in the environment (stimuli) Sends information to control center Afferent pathway

12. Maintaining Homeostasis –Control center Determines set point Analyzes information Determines appropriate response –Effector Provides a means for response to the stimulus Efferent pathway

13. Feedback Mechanisms Negative feedback –Includes most homeostatic control mechanisms –Decreases the original stimulus, or reduces its intensity –inhibitory –Works like a household thermostat

14. Feedback Mechanisms Positive feedback –Increases the original stimulus to push the variable farther –In the body this only occurs in blood clotting and during the birth of a baby –Stimulatory  Feed-forward control systems occur when information flows ahead to another process or feedback loop to trigger a change in anticipation of an event that will follow

15. Feedback Systems Summary Two types: negative and positive It is important to note that in science, negative means “to take away” while positive means “to gain” Components –Receptor: monitors the value of some variable –Control center: establishes the set point –Effector: can change the value of the variable Stimulus: deviation from the set point; detected by the receptor Response: produced by the effector Be able to give examples of BOTH –(hint: what is the rule? and the few exceptions)

17. Levels of Homeostatic Control –Intracellular control Regulation within cells Genes or enzymes can regulate cell Processes –Intrinsic control (autoregulation) Regulation within tissues or organs May involve chemical signals May involve other “built in” mechanisms –Extrinsic control Regulation from organ to organ May involve nerve signals May involve endocrine signals (hormones)

18. 1-18 Terminology and Body Plan Anatomical Position –Body erect, face forward, feet together, palms face forward Other Body Positions –Supine: lying face upward –Prone: lying face downward Directional Terms –Superior (Cephalic) vs. Inferior (Caudal) toward or away from the head –Medial vs. Lateral relative to the midline –Proximal vs. Distal used to describe linear structures –Superficial vs. Deep relative to the surface of the body –Ipsilateral vs. Contralateral same or opposite side of the body

19. 1-19 Terminology and Body Plan (cont.) Directional Terms (cont.) –Anterior (Ventral) vs. Posterior (Dorsal). Anterior is forward; posterior is toward the back.

20. 1-20 Intra: inside Inter: between

21. 1-21 Body shapes and Disease - How structure and function are interrelated -Three body types: 1. Endomorph 2. Mesomorph 3. Ectomorph - Apple shaped are at a higher risk of heart disease, stroke, high blood pressure and diabetes than those who carry their weight around the hips and thighs

22. 1-22 Body Parts and Regions

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24. 1-24 Body Parts and Regions

25. 1-25 Abdominal Subdivisions RegionsQuadrants

26. 1-26 Planes of Section Through an Organ Longitudinal: cut along the length of an organ Cross/Transverse: cut at right angle to length of the organ Oblique: cut at any but a right angle

27. Terms Related to Organs –Lumen (luminal) hollow area within and organ –Central and peripheral near the center v near the boundary –Medullary (medulla) and cortical (cortex) inner region v outer region –Apical (apex) and basal (base) narrow tip v widest area of an organ 1-27

28. 1-28 Body Planes Median (through the midline) and Sagittal (same plane, but to the left or right of median Frontal or Coronal divides body into anterior and posterior sections Transverse / Cross divides body into superior and inferior sections Oblique: Other than at a right angle

29. 1-29 Body Cavities

30. 1-30 Trunk Cavities Diaphragm: divides body cavity into thoracic and abdominopelvic cavities. Mediastinum: contains all structures of the thoracic cavity except the lungs

31. 1-31 Serous Membranes Cover the organs of trunk cavities & line the cavity Fist represents an organ Inner balloon wall represents visceral serous membrane Outer balloon wall represents parietal serous membrane Cavity between two membranes filled with lubricating serous fluid that is produced by the membranes

32. 1-32 Serous Membranes: Named for Their Specific Cavities and Organs –Pericardium refers to heart. –Pleura refers to lungs and thoracic cavity –Peritoneum refers to abdominopelvic cavity

33. 1-33 Review

34. 1-34 Also… Mechanisms of Disease. –pp.25-28 including Disease terminology in “Health Matters”

35. 1-35 What kind of feed back is this?

36. 1-36 What plane is this?