1. 7 Unit 1 Chapter 7

2. 7 Unit 1 Places where bones meet Classified structurally by anatomy Classified structurally by motion

3. 7 Unit 1 Based on material between bones Fibrous joints- no cavity just fiberous Connective tissue Cartilaginous joints- bones held together by cartilage Synovial joints- have synovial cavity and dense irregular tissue of articular capsule and often ligaments

4. 7 Unit 1 Synarthrosis- immoveable pelvis, sutures,, teeth Amphiarthrosis- slight movement Epiphysis, tibia-fibula, vertebrae and pelvic symphysis Diarthroses- free movement= synovial defined by movement

5. 7 Unit 1 Little or no movement Suture- e.g. skull (synarthrosis) joined by thin layer of dense fibrous connective tissue Syndesmosis- e.g.tibia & fibula= amphiarthrosis Greater distance and amount of dense fibrous material Gomphosis- e.g. tooth root in socket = synarthrosis

6. Figure 7.1a

7. Figure 7.1b

8. Figure 7.1c

9. 7 Unit 1 Synchondrosis- hyaline cartilage E.g epiphyseal plate = synarthrosis Symphysis- fibrocartilage join E.g. pubic symphysis and intervertebral joints = amphiarthrosis

10. Figure 7.2a

11. Figure 7.2b

12. 7 Unit 1 Synovial cavity Articular cartilage Articular capsule- Inner layer = synovial secretory membrane Synovial fluid Ligaments Some contain menisci

13. Figure 7.3

14. 7 Unit 1 Located where friction can occur E.g. between skin & bone or bone & tendons, ligaments or other bones Structurally similar to joint capsules- Contain synovial membrane and fluid.

15. Figure 7.10a

16. Figure 7.10b

17. Figure 7.10c

18. Figure 7.10d

19. 7 Unit 1 Gliding- flat bone surfaces moving across each other Flexion- decrease in angle between articulating bones Extension- Increase in angle between articulating bones Hyperextension Bending beyond 180 o degrees e.g. moving humerus backwards behind anatomical position

20. Figure 7.4a

21. Figure 7.4b

22. Figure 7.4c

23. Figure 7.4d

24. Figure 7.4e

25. Figure 7.4f

26. 7 Unit 1 Abduction- Movement of bone away from midline Adduction- Movement of bone toward midline Circumduction- Movement of distal end in a circle Rotation- Bone revolves around its own longitudinal axis

27. Figure 7.5a

28. Figure 7.5b

29. Figure 7.5c

30. Figure 7.6a

31. Figure 7.6b

32. Figure 7.7a

33. Figure 7.7b

34. 7 Unit 1 Elevation- lift upward Depression- downward movement Protraction – movement forward Retraction- movement back to anatomical position

35. Figure 7.8ab

36. Figure 7.8cd

37. 7 Unit 1 Inversion- move of soles medially Eversion- move soles laterally Dorsiflexion- bending of foot toward dorsum Plantar flexion- bend foot toward plantar surface

38. Figure 7.8ef

39. Figure 7.8g

40. 7 Unit 1 Supination- movement of forearm so palms face forward or upward Pronation- movement of forearm so palms face backward or downward

41. Figure 7.8h

42. 7 Unit 1 Planar joints- articulating surfaces flat or slightly curved Hinge joints- convex to concave surface Only do flexion and extension Pivot joints- rounded surface with ring formed by bone and ligament e.g. atlantoaxial joint

43. 7 Unit 1 Condyloid joints- convex oval surface to concave oval surface e.g. wrist & metacarpophyangeal joints Saddle joints- one side saddle shaped other sits astride it Ball & socket joints- ball like surface into cup like socket surface Can do flexion/extension, adduction/adduction & rotation

44. Figure 7.9a

45. Figure 7.9b

46. Figure 7.9c

47. Figure 7.9d

48. Figure 7.9e

49. Figure 7.9f

50. 7 Unit 1 Slowing of synovial fluid production Thinning of articular cartilage Ligaments shorten and lose flexibility Influenced by genetic factors