1. Joints aka: articulations

2. Classification of Joints
Functional classification (arthr = joints)
(Focuses on amount of movement)
Synarthroses (immovable joints) – most common in the axial skeleton
Amphiarthroses (slightly movable joints) – most common in the axial skeleton
Diarthroses (freely movable joints) – most common in the appendicular skeleton

3. Classification of Joints
Structural classification
(Based on the material binding them and presence or absence of a joint cavity)
Fibrous
Cartilagenous
Synovial

4. Fibrous joints
Bones connected by fibrous tissue: dense regular connective tissue
No joint cavity
Slightly movable or
immovable
Types
Sutures
Syndesmoses

5. Sutures Only between bones of skull
Fibrous tissue continuous with periosteum
Ossify and fuse in middle age:

6. Syndesmoses In Greek: “ligament” Bones connected by ligaments only
Amount of movement depends on length of the fibers: longer than in sutures

7. Cartilagenous joints Articulating bones united by cartilage
Lack a joint cavity
Not highly movable
Two types
Synchondroses (singular: synchondrosis)
Sympheses (singular: symphesis)

8. Synchondroses Literally: “junction of cartilage”
Hyaline cartilage unites the bones
Immovable (synarthroses)
Examples:
Epiphyseal plates
Joint between rib’s and the costal cartilage and of the sternum

9. Sympheses Literally “growing together” Fibrocartilage unites the bones
Slightly movable (amphiarthroses)
Resilient shock absorber
Provide strength and flexibility
Hyaline cartilage on articular surfaces of bones to reduce friction
Examples
Intervertebral discs
Pubic symphysis of the pelvis

10. Synchondroses and sympheses
Also pubic symphsis

11. Synovial joints Include most of the body’s joints
All are diarthroses (freely movable)
All contain fluid-filled joint cavity

12. General Structure of Synovial Joints
Articular cartilage
Hyaline
Spongy cushions absorb compression
Protects ends of bones from being crushed
Joint (synovial) cavity
Potential space
Small amount of synovial fluid

13. General structure of synovial joints (cont.)
3. Articular (or joint) capsule
Two layered
Outer*: fibrous capsule of dense irregular connective tissue continuous with periosteum
Inner*: synovial membrane of loose connective tissue (makes synovial fluid)
Lines all internal joint surfaces not covered by cartilage* * * *

14. General structure of synovial joints (cont.)
4. Synovial fluid
Filtrate of blood
Contains special glycoproteins
Nourishes cartilage and functions as slippery lubricant
“Weeping” lubriication
5. Reinforcing ligaments (some joints)
Capsular (most) – thickened parts of capsule
Extracapsular
Intracapsular

15. General structure of synovial joints (cont.)
6. Nerves
Detect pain
Monitor stretch (one of the ways of sensing posture and body movements)
7. Blood vessels
Rich blood supply
Extensive capillary beds in synovial membrane (produce the blood filtrate)

16. General structure of synovial joints

17. Some joints… Articular disc or meniscus (literally “crescent”)
Only some joints
Those with bone
ends of different
shapes or fitting poorly
Some to allow two kinds of movement (e.g. jaw)
Made of fibrocartilage
Examples: knee
TMJ (temporomandibular joint)
sternoclavicular joint

18. Bursae and tendon sheaths
Contain synovial fluid
Not joints but often associated with them
Act like ball bearings
Bursa means “purse” in Latin
Flattened sac lined by synovial membrane
Where ligaments, muscles, tendons, or bones overlie each other and rub together
Tendon sheath
Only on tendons subjected to friction

19. Bursae and tendon sheaths

20. When you are finished describe the following inflammatory disorders:
Bursitis
Arthritis (Osteo, Rhumatoid and Gouty)
Tendonitis
Synovial joints classified by shape (of their articular surfaces) Working with a book and a partner or alone create a chart that Names, describes and provides examples of the following synovial joints
Plane
Hinge
Pivot
Condyloid
Saddle
Ball-and-socket

21. 6 synovial joints Classified by the shape of their articular surface
Plane
Hinge
Pivot
Condyloid
Saddle
Ball-and-socket

22. Types of Joints
Hinge- 
Rounded process fits into concave surface. Uniaxial.

23. Ball and Socket- Spherical head fits into deep concave surface
Ball and Socket- 
Spherical head fits into deep concave surface. Multiaxial. They are found in the hips and shoulders. (Hip, Shoulder)

24. Gliding- In a gliding or plane joint flat bones slide past each other
Gliding- 
In a gliding or plane joint flat bones slide past each other. Mid-carpal and mid-tarsal joints are gliding joints. Non-axial. (Hands (intercarpal), Feet (intertarsal))

25. Saddle- Both surfaces of the bones have both concave and convex regions with the shapes of the two bones complementing one other and allowing a wide range of movement. (carpals and metacarpal of the Thumb)

26. Pivot Joint: Round end of bone fits into a sleeve or ring of bones concave. Uniaxial.
Condyloid Joint: oval or egg shaped end fits into a concave shape. Reduced ball and socket joint. Biaxial.

27. The following slides show specific joints
The following slides show specific joints. You are not responsible for this on a quiz or test.

28. Shoulder (glenohumeral) joint
Selected synovial joints
Shoulder (glenohumeral) joint
Stability sacrificed for mobility
Ball and socket: head of humerus with glenoid cavity of scapula
Glenoid labrum: rim of fibrocartilage
Thin, loose capsule
Strongest ligament: coracohumeral
Muscle tendons help stability
Rotator cuff muscles add to stability
Biceps tendon is intra-articular

29. Elbow joint Hinge: allows only flexion and extension
Annular ligament of radius attaches to capsule
Capsule thickens into:
Radial collateral ligament
Ulnar collateral ligament
Muscles cross joint

30. Wrist joint Two major joint surfaces Several ligaments stabilize
Radiocarpal joint
Between radius and proximal carpals (scaphoid and lunate)
Condyloid joint
Flexion extension adduction, abduction, circumduction
Intercarpal or midcarpal joint
Between the proximal and distal rows of carpals

31. Hip (coxal) joint Ball and socket
Moves in all axes but limited by ligaments and deep socket
Three ext. ligaments “screw in” head of femur when standing
Iliofemoral
Pubofemoral
Ischiofemoral

32. Acetabular labrum diameter smaller than head of femur
Dislocations rare
Ligament of head of femur supplies artery
Muscle tendons cross joint
Hip fractures common in elderly because of osteoporosis

33. Knee joint Largest and most complex joint Primarily a hinge
Compound and bicondyloid: femur and tibia both have 2 condyles
Femoropatellar joint shares joint cavity
At least a dozen bursae
Prepatellar
Suprapatellar

34. Lateral and medial menisci
“torn cartilage”
Capsule absent anteriorly
Capsular and extracapsular ligaments
Taut when knee extended to prevent hyperextension

35. Fibular and tibial collateral ligaments
Patellar ligament
Continuation of quad tendon
Medial and lateral retinacula
Fibular and tibial collateral ligaments
Called medial and lateral
Extracapsular

36. Cruciate ligaments Cross each other (cruciate means cross)
Anterior cruciate (ACL)
Anterior intercondylar area of tibia to medial side of lateral condyl of femur
Posterior cruciate
Posterior intercondylar area of tibia to lateral side of medial condoyle

37. Cruciate ligaments

38. Knee injuries Flat tibial surface predisposes to horizontal injuries
Lateral blow: multiple tears
ACL injuries
Stop and twist
Commoner in women athletes
Heal poorly
Require surgery

39. Ankle joint Hinge joint Distal tibia and fibula to talus
Dorsiflexion and plantar flexion only
Medial deltoid ligament
Lateral ligaments: 3 bands
Anterior talofibular
Posterior talofibular
Calcaneofibular
Anterior and posterior tibiofibular (syndesmoses)

40. Right ankle, lateral view

42. Temporomandibular joint (TMJ)
Head of mandible articulates with temporal bone
Disc protects thin mandibular fossa of temporal bone

43. Sternoclavicular joint
Saddle joint
Only other example is trapezium and metacarpal 1 (thumb), allowing opposion
Sternum and 1st costal (rib) cartilage articulate with clavicle
Very stable: clavicle usually breaks before dislocation of joint
Only bony attachment of axial skeleton to pectoral girdle

44. Disorders of joints Injuries Inflammatory and degenerative conditions
Sprains
Dislocations
Torn cartilage
Inflammatory and degenerative conditions
Bursitis
Tendonitis
Arthritis
Osteoarthritis (“DJD” – degenerative joint disease)
Rheumatoid arthritis (one of many “autoimmune” joint disorders)
Gout (crystal arthropathy)

45. Arthritis

49. Bursitis
Inflammation of the Bursa (fluid filled sac surrounding the joint).
A bursa can become inflamed from injury, infection (rare in the shoulder), or due to an underlying rheumatic condition.
Bursitis is typically identified by localized pain or swelling, tenderness, and pain with motion of the tissues in the affected area.

51. Tendonitis
Sometimes the tendons become inflamed for a variety of reasons, and the action of pulling the muscle becomes irritating. If the normal smooth gliding motion of your tendon is impaired, the tendon will become inflamed and movement will become painful. This is called tendonitis, and literally means inflammation of the tendon.
The most common cause of tendonitis is overuse.