Foundational Terms and Concepts

1. Foundational Terms and Concepts Anatomy and Physiology of Human Movement 420:050

2. Outline • Introduction • Terminology • Planes and Axes • Movements • Osteology • Arthrology

3. Introduction • Road Map • Terminology • Critical concepts • Planes and axes • Joint movements • Arthrology (osteology) • Muscle structure and function • Basic biomechanics • Joint systems • Upper body – shoulder girdle, shoulder joint, elbow complex, wrist and hand joints • Lower body – pelvic girlde, hip joint, knee joint, ankle and foot joints • Trunk

4. Outline • Introduction • Terminology • Planes and Axes • Movements • Osteology • Arthrology

5. Reference positions • Basis from which to describe joint movements • Anatomical position • Fundamental position • Anatomical position • Standing in an upright posture, feet parallel and close, palms forward • Fundamental position • Same with palms facing the body

6. Anatomical Directional Terminology • Anterior • In front in relation to another structure • Posterior • In back in relation to another structure • Inferior (infra) • Below in relation to another structure • Superior (supra) • Above in relation to another structure • Distal • Situated away from the center or midline of the body • Proximal • Nearest the trunk or the point of origin • Lateral • On or to the side • Medial • Relating to the middle or center From Van De Graaff KM: Human anatomy, ed 6, New York, 2002, McGraw-Hill

7. Anatomical Directional Terminology • Contralateral • Pertaining to the opposite side • Ipsilateral • On the same side • Bilateral • Relating to the right and left sides of the body • Deep • Beneath or below the surface • Superficial • Near the surface • Prone • stomach lying • Supine • lying on the back

8. Body Regions • Axial • Cephalic (Head) • Cervical (Neck) • Trunk (Thoracic and Lumbar) • Appendicular • Upper limbs • Lower limbs

9. Outline • Introduction • Terminology • Planes and Axes • Osteology • Arthrology • Movements

10. Planes of Motion • Imaginary two-dimensional surface through which a limb or body segment is moved • Motion through a plane revolves around an axis • There is a ninety-degree relationship between a plane of motion & its axis

11. Cardinal Planes of Motion • Sagittal Plane • Frontal Plane • Transverse Plane Modified from Booher JM, Thibodeau GA: Athletic injury assessment, ed 4, New York, 2000, McGraw-Hill

12. Cardinal Planes of Motion • Sagittal Plane • Divides body into equal, bilateral segments • Bisects body into 2 equal symmetrical halves or a right & left half • Movements? Modified from Booher JM, Thibodeau GA: Athletic injury assessment, ed 4, New York, 2000, McGraw-Hill

13. Cardinal Planes of Motion • Frontal Plane • Divides the body into (front) anterior & (back) posterior halves • Movements? Modified from Booher JM, Thibodeau GA: Athletic injury assessment, ed 4, New York, 2000, McGraw-Hill

14. Cardinal Planes of Motion • Transverse Plane • Divides body into (top) superior & (bottom) inferior halves when the individual is in anatomic position • Movements? Modified from Booher JM, Thibodeau GA: Athletic injury assessment, ed 4, New York, 2000, McGraw-Hill

15. Diagonal Planes of Motion

16. Axes of Rotation • Two basic types of movement • Linear • Angular • For angular movement to occur in a plane, it must turn or rotate about an axis as referred to previously • The axes are named in relation to their orientation

17. Axes of Rotation • Mediolateral (ML) Axis • Has same orientation as frontal plane of motion & runs from side to side at a right angle to sagittal plane of motion • Runs medial / lateral • Also known as: • Frontal, Lateral or Coronal Axis Modified from Booher JM, Thibodeau GA: Athletic injury assessment, ed 4, New York, 2000, McGraw-Hill

18. Axes of Rotation • Anteroposterior (AP) Axis • Has same orientation as sagittal plane of motion & runs from front to back at a right angle to frontal plane of motion • Runs anterior / posterior • Also known as: • Sagittal Axis Modified from Booher JM, Thibodeau GA: Athletic injury assessment, ed 4, New York, 2000, McGraw-Hill

19. Axes of Rotation • Suprainferior (SI) Axis • Runs straight down through top of head & is at a right angle to transverse plane of motion • Runs superior/ inferior • Also known as: • Long or Vertical Axis Modified from Booher JM, Thibodeau GA: Athletic injury assessment, ed 4, New York, 2000, McGraw-Hill

20. Axes of Rotation • Diagonal or ObliqueAxis • Also known as the oblique axis • Right angle to the diagonal plane

21. Outline • Introduction • Terminology • Planes and Axes • Movements • Osteology • Arthrology

22. Movements • General: • Flexion/Extension • Abduction/Adduction • Circumduction • Internal/External Rotation • Specific: • Ankle • Radioulnar • Shoulder girdle • Spine and pelvic girdle

23. GENERAL • Flexion • Bending movement that results in a decrease of angle • Extension • Straightening movement that results in an increaseof angle • Joints: • Spine, shoulder, elbow, wrist, fingers, hip, knee, ankle*, toes • Plane and axis?

24. GENERAL • Abduction • Lateral movement away from midline of trunk • Adduction • Movement medially toward midline • Joints: • Spine*, shoulder, wrist*, fingers, hip, ankle*, toes • Plane and axis?

25. GENERAL • Horizontal Abduction: • Movement away from the midline while parallel to the ground • Horizontal Adduction: • Movement towards the midline while parallel to the ground • Joints: • Shoulder and hip • Plane and axis?

26. GENERAL • Circumduction • Circular movement of a limb that delineates an arc or describes a cone • Combination of flexion, extension, abduction, & adduction • Joints: • Spine, shoulder, wrist, fingers, hip, ankle, toes • Planes and axes?

27. GENERAL • Internal rotation • Rotary movement around longitudinal axis of a bone toward midline of body • External rotation • Rotary movement around longitudinal axis of a bone away from midline of body • Joints: • Spine*, shoulder and hip • Plane and axis?

28. SPECIFIC: ANKLE & FOOT • Inversion • Turning sole of foot inward or medially • Eversion • Turning sole of foot outward or laterally

29. SPECIFIC: ANKLE & FOOT • Plantar flexion: • Extension movement of ankle that results in foot moving away from body • Dorsal flexion (dorsiflexion): • Flexion movement of ankle that results in top of foot moving toward anterior tibia bone

30. SPECIFIC: RADIOULNAR JOINT • Pronation • Internally rotating radius where it lies diagonally across ulna, resulting in palm-down position of forearm • Supination • Externally rotating radius where it lies parallel to ulna, resulting in palm-up position of forearm

31. SPECIFIC: SHOULDER GIRDLE • Elevation • Superior movement of shoulder girdle • Depression • Inferior movement of shoulder girdle

32. SPECIFIC: SHOULDER GIRDLE • Protraction • Forward movement of shoulder girdle away from spine • Abduction of the scapula • Retraction • Backward movement of shoulder girdle toward spine • Adduction of the scapula

33. SPECIFIC: SHOULDER GIRDLE • Rotation upward • Rotary movement of scapula with inferior angle of scapula moving laterally & upward • Rotation downward • Rotary movement of scapula with inferior angle of scapula moving medially & downward

34. SPECIFIC: SPINE AND PELVIS • Lateral flexion (side bending) • Movement of head and / or trunk laterally away from midline • Abduction of spine • Reduction • Return of spinal column to anatomic position from lateral flexion • Adduction of spine

35. SPECIFIC: SPINE AND PELVIS • Anterior pelvic tilt • Iliac crest forward • Posterior pelvic tilt • Iliac crest backward • Plane and axis?

36. SPECIFIC: WRIST & HAND • Radial flexion (radial deviation) • Abduction movement at wrist of thumb side of hand toward forearm • Ulnar flexion (ulnar deviation) • Adduction movement at wrist of little finger side of hand toward forearm

37. SPECIFIC: WRIST & HAND • Opposition of the thumb • Diagonal movement of thumb across palmar surface of hand to make contact with the hand and/or fingers

38. Outline • Introduction • Terminology • Planes and Axes • Movements • Osteology • Arthrology

39. Skeletal System Modified from Van De Graaff KM: Human anatomy, ed 6, New York, 2002, McGraw-Hill

40. Osteology – Interesting Facts • 206 bones • Axial skeleton: 80 bones • Appendicular: 126 bones • Composed of calcium carbonate, calcium phosphate, collagen, & water • 60-70% of bone weight - calcium carbonate & calcium phosphate • 25-30% of bone weight – water • ~1/5th of the skeleton replaces itself in one year in young adults

41. Skeletal Functions • Protection of inner organs, brain, spinal cord etc. • Support to maintain posture • Movement by serving as points of attachment for muscles and acting as levers • Mineral storage such as calcium & phosphorus • Hemopoiesis – in vertebral bodies, femur, humerus, ribs, & sternum • process of blood cell formation in the red bone marrow

42. Types of bones • Long bones - humerus, fibula • Short bones - carpals, tarsals • Flat bones - skull, scapula • Irregular bones - pelvis, ear ossicles • Sesamoid bones - patella

43. Types of Bones • Long bones • Composed of a long cylindrical shaft with relatively wide, protruding ends • Shaft contains the medullary canal • Ex. Phalanges, metatarsals, metacarpals, tibia, fibula, femur, radius, ulna, & humerus • Function: Levers

44. Types of Bones • Short bones • Small, cubical shaped, solid bones that usually have a proportionally large articular surface in order to articulate with more than one bone • Ex. Carpals & tarsals • Function: Shock absorption

45. Types of Bones • Flat bones • Usually have a curved surface & vary from thick where tendons attach to very thin • Ex. ilium, ribs, sternum, clavicle, & scapula • Function: Protection, large surface area for muscle/tendon attachment

46. Types of Bones • Irregular bones • Include bones throughout entire spine & ischium, pubis, & maxilla • Function: Varies • Sesamoid bones • Patella, flexor tendon of thumb and big toe • Function: Improvement of mechanical advantage

47. Typical Bony Features • Diaphysis – long cylindrical shaft • Cortex - hard, dense compact bone forming walls of diaphysis • Periosteum - dense, fibrous membrane covering outer surface of diaphysis • Endosteum - fibrous membrane that lines the inside of the cortex • Medullary (marrow) cavity – between walls of diaphysis, containing yellow or fatty marrow From Shier D, Butler J, Lewis R: Hole’s human anatomy & physiology, ed 9, New York, 2002, McGraw-Hill.

48. Typical Bony Features • Epiphysis – ends of long bones formed from cancelleous (spongy or trabecular) bone • Epiphyseal plate - (growth plate) thin cartilage plate separates diaphysis & epiphyses • Articular (hyaline) cartilage – covering the epiphysis to provide cushioning effect & reduce friction Modified from Van De Graaff KM: Human anatomy, ed 6, New York, 2002, McGraw-Hill.

50. Bone Growth • Grow rapidly into structures shaped similar to the bones which they will eventually become • Growth continues and gradually undergoes significant change to develop into long bone • Longitudinal growth continues as long as epiphyseal plates are open • Shortly after adolescence, plates disappear & close • Most close by age 18, but some may be present until 25 • Growth in diameter continues throughout life