Meaning
JOINT or ARTICULATION
- Origin: ARTICULUS (Latin=joint)
- Definition: refers to connections between components of the skeletal system
Arthrology
- Origin: ARTHRON (Greek=joint)
2. Definition: study of joints
Arthritis
- Origin: ARTHRON (Greek=joint)
2. Definition: inflammation of joints
Fibrous (synarthroses) joints
intervening tissue is merely fibrous connective tissue
Cartilaginous (amphiarthroses)
intervening tissue is cartilage
Synovial (diarthroses)
intervening tissue is synovial fluid
Fibrous
Suture
- formed by two bones whose articulating surfaces are serrated
a. for example, in the form of interdigitations
b. these interdigitating borders are held together by fibrous connective - it is immovable
- it is located only in the skull
- Example: sagittal suture
Syndesmoses
- a fibrous joint in which the intervening connective tissue is of greater amount than that found in a suture
- it is slightly moveable
- it is located btwn the 2 bones of the forearm and the 2 bones of the leg.
- Example: radioulnar syndesmosis (in which the intervening connective tissue is the interosseous membrane)
Hyaline cartilage joint
- a joint in which the intervening tissue is hyaline cartilage
- it is immovable
- located between the epiphysis and diaphysis of growing bone
a. it is a temporary condition that will later ossify - Example: epiphyseal disc
Fibrocartilaginous joint
- a joint in which the intervening tissue is fibrocartilage
- It is slightly moveable
- Locations:
Examples:
i. between adjacent vertebral bodies: intervertebral discs
ii. between the right and left pubic bones; interpubic disc
Synovial joint
Joint characterized by the possession of a cavity and specialized to permit free movement
A. a joint in which the intervening tissue is synovial fluid
B. The ends of the articulating bones are covered by ARTICULAR CARTILAGE
1.it is a layer of hyaline cartilage
2. it is avascular
3. it lacks nerves
4. it is radiolucent (cannot be seen on radiographs)
C. The ARTICULAR CAPSULE encapsulates the joint
1. The articular capsule connects together the 2 bones and completely encircles the joint, thus enclosing the synovial cavity
2. It is composed of two layers
a. an outer fibrous layer that is continuous w the periosteum of bone
b. an inner layer that is called the SYNOVIAL MEMBRANE that lines the inside of the fibrous layer
i. it is quite vascular and produces the synovial fluid that fills the synovial cavity
ii. it lubricates the joint and nourishes the articular cartilage
D. The synovial fluid is derived from blood
Gliding Movements
a. involve a sligh slipping of 1 bone over another, usually flat surfaces
b. little actual movement occurs
Angular Movements
a. Flexion: bending of a joint so that the angle becomes more acute
b. Extension: straightening of a flexed joint
c. abduction: movement in a frontal plane away fro the median plane
d. adduction: movemnt in a frontal plane toward the median place
e. circumduction: combination of the above 4 movements
f. angular movements of the foot at the ankle joint:
i. dorsiflexion- moving the dorsum of the foot toward the anterior leg
ii. plantar flexion- moving the dorsum of the foot away from the anterior leg
iii. eversion- moving the lateral surface of the foot superiorly
iv. inversion- moving the medial surface of the foot superiorly
photos on pg 39
Medial Rotation
anterior aspect of the limb rotates medially
Lateral rotation
anterior aspect of the limb rotates laterally
Pronation
medial rotation of the forearm
Supination
lateral rotation of the forearm
Limitations of movement
- shape of the articulating surfaces
- ligaments and capsule at the joint
- muscles that act on the joint
How synovial joints are classified
- synovial joints are classified according to the shapes of the articular surfaces of the constituent bones
- the shape is responsible for the type of movement allowed at the joint and the range of movement
Plane (synovial joint)
a. articular surfaces almost flat
b. allows sliding or gliding movements
c. example: between carpal and tarsal bones
Hinge (gingylmus)
(synovial joint)
a. articular surfaces present 1 or more convex projections fitting in a concave surface or surfaces
b. allows movements of flexion and extension in 1 plane (sagittal plane)
c. example: elbow, interphalangeal, knee and ankle joints
Pivot (trochoid)
synovial joint
a. articular surfaces present a rounded projection rotating within a concave depression
b. allows movements of medial and lateral rotation around a longitudinal axis
c. example: between radius and ulna (radioulnar joint)
condyloid (ellipsoidal)
synovial joint
a. articular surfaces present a conyloid(round) projection fitting into a concave depression
b. allows movements of flexion, extension, abduction, and adduction in 2 planes (frontal and sagittal planes and circumduction)
c. example: wrist joint
Saddle (sellar)
synovial joint
a. articular surfaces are reciprocally concave- convex
i. each articular surface presents both a concave surface and a convex surface
ii. when the articular surfaces of these 2 bones are joined, the concave and convex surfaces of the first bone simultaneously fit into the respective convex and concave surfaces of the second bone
b. allows movements of flexion, extension, abduction and abbduction in 2 planes plus rotation
c. example: carpometacarpal joint of the thumb
