Muscles

1. Muscles Chapter 10

2. Fasicle arrangement

3. Parallel Muscle Tension • Depends on total number of myofibrils • Directly relates to cross section of muscle • 1 in.2 (6.45 cm2) of cross section develops 50 lb (23 kg) of tension

4. Parallel Muscles Figure 11–1a

5. Convergent Muscles • A broad area converges on attachment site (tendon, aponeurosis, or raphe) • Muscle fibers pull in different directions, depending on stimulation • e.g., pectoralis muscles

6. Convergent Muscles

7. Pennate Muscles • Form an angle with the tendon • Do not move as far as parallel muscles • Contain more myofibrils than parallel muscles • Develop more tension than parallel muscles

8. Pennate Muscles Figure 11–1c, d, e

9. Circular Muscles • Also called sphincters • Open and close to guard entrances of body • e.g., obicularis oris

10. Circular Muscles

11. Levers • Mechanically, each bone is a lever (a rigid, moving structure): • and each joint a fulcrum (a fixed point) • Muscles provide applied force (AF): • required to overcome resistance (R)

12. Functions of a Lever • To change: • direction of an AF • distance and speed of movement produced by an AF • effective strength of an AF

13. 3 Classes of Levers • Depend on the relationship between applied force, fulcrum, and resistance: • first class • second class • third class

14. First-Class Levers Figure 11–2a

15. First-Class Levers • Seesaw is an example • Center fulcrum between applied force and resistance • Force and resistance are balanced

16. Second–Class Levers

17. Second-Class Levers • Wheelbarrow is an example • Center resistance between applied force and fulcrum • A small force moves a large weight

18. Third-Class Levers Figure 11–2c

19. Third-Class Levers • Most common levers in the body • Center applied force between resistance and fulcrum • Greater force moves smaller resistance • Maximizes speed and distance traveled

20. Physics of levers

21. Origins and Insertions • Muscles have 1 fixed point of attachment (origin) and 1 moving point of attachment (insertion) • Most muscles originate or insert on the skeleton • Origin is usually proximal to insertion

22. Actions • Movements produced by muscle contraction • Body movements • e.g., flexion, extension, adduction, etc. • Described in terms of bone, joint, or region

23. Descriptive Names for Skeletal Muscles • Location in the body • Origin and insertion • Fascicle organization • Relative position • Structural characteristics • Action

24. Muscles:anterior

25. Muscles:posterior

26. Muscles of Facial Expression Figure 11–4a

27. Muscles of Facial Expression Figure 11–4b

28. Extrinsic Eye Muscles • Also called extra-ocular muscles Figure 11–5a, b

29. Muscles of Mastication

30. Anterior Muscles of the Neck Figure 11–9

31. Muscles of the Vertebral Column Figure 11–10a

32. Muscles of the Vertebral Column

33. Oblique and Rectus Muscles • Lie within the body wall Figure 11–11a, b

34. Oblique and Rectus Muscles Figure 11–11a, c

35. The Appendicular Muscles Figure 11–13a

36. The Appendicular Muscles

37. Muscles that Move the Arm Figure 11–15a

38. Muscles that Move the Arm

39. Muscles that Move the Forearm and Hand Figure 11–16a

40. Muscles that Move the Forearm and Hand Figure 11–16b

41. Muscles that Move the Hand and Fingers

42. Muscles that Move the Hand and Fingers

43. Muscles that Move the Thigh Figure 11–19a, b

44. Muscles that Move the Thigh

45. Muscles that Move the Leg Figure 11–20a

46. Muscles that Move the Leg Figure 11–20b, c

47. Muscles that Move the Foot and Toes

48. Muscles that Move the Foot and Toes

49. Up next …Nervous System Histology