Chapter 9 - Joints

Question 1

Define a joint (articulation)

Answer 1

Any point where two bones meet, whether or not the bones are movable at that interface

Question 2

Define arthrology

Answer 2

The science of joint structure, function, and dysfunction

Question 3

Define kinesiology

Answer 3

The study of musculoskeletal movement

Question 4

Kinesiology is a branch of biomechanics, which deals with what?

Answer 4

A broad variety of movements and mechanical processes

Question 5

Define synarthrosis

Answer 5

• Type of joint which permits very little or no movement

- Most synarthroses joints are fibrous

Question 6

Define amphiarthrosis and give examples

Answer 6

• A slightly movable joint

- Examples are symphyses and syndesmoses

Question 7

Describe diarthrosis and give an example

Answer 7

• Freely movable joints (has a joint capsule)

- Synovial joints are diarthrotic

Question 8

How are joints named?

Answer 8

Their names are typically derived from the names of the bones involved (example: radioulnar joint)

Question 9

How are joints classified?

Answer 9

They’re classified according to the manner in which the bones are bound to each other

Question 10

What are the four major joint categories based on structure?

Answer 10

• Bony joints
• Fibrous joints
• Cartilaginous joints
• Synovial joints

Question 11

Describe synostosis (bony joint) and give examples

Answer 11

• When a joint becomes immobile because the gap between two bones ossifies (becomes one bone)
• Can occur in either fibrous or cartilaginous joints
• Examples: Left and right mandibular bones in infants, cranial sutures in elderly, attachment of first rib and sternum with old age

Question 12

Define a fibrous joint

Answer 12

Bones bound by collagen fibers that emerge from one bone and penetrate into the other

Question 13

What are the three types of fibrous joint?

Answer 13

1) Sutures
2) Gomphoses
3) Syndesmoses

Question 14

Describe sutures

Answer 14

• A type of fibrous joint that’s immobile or slightly mobile

- Uses short collagen fibers

Question 15

Describe gomphoses

Answer 15

• The attachment of a tooth to its socket
• Held in place by fibrous periodontal ligament (collagen)
• Allows the tooth to move a little under the stress of chewing
• A type of fibrous joint

Question 16

Describe syndesmoses

Answer 16

• Two bones are bound by long collagen fibers
• Can be very mobile or less mobile
• A type of fibrous joint

Question 17

Give an example of a very mobile syndesmosis and an example of a less mobile syndesmosis

Answer 17

• Very mobile syndesmosis: interosseus membrane joining radius to ulna (allows supination & pronation)
• Less mobile syndesmosis: joint between tibia to fibula

Question 18

Define cartilaginous joints

Answer 18

Two bones that are linked by cartilage

Question 19

What are the two types of cartilaginous joints?

Answer 19

• Synchondroses

- Symphyses

Question 20

Define synchondroses and give examples

Answer 20

• Bones are joined by hyaline cartilage

- Examples: Epiphyseal plates in children (temporary joints), first rib attachment to sternum

Question 21

Costal cartilages are joined to the sternum using what two mechanisms?

Answer 21

The first rib is attached with synchondroses, and other costal cartilages are joined to the sternum by synovial joints

Question 22

Describe symphyses (singular symphesis) and give examples

Answer 22

• Defined as two bones joined by fibrocartilage
• Examples:
  1) Pubic symphysis
  2) Bodies of vertebrae joined by intervertebral discs, which allows for only slight movements between adjacent vertebrae. The collective effect of all 23 discs gives the spine considerable flexibility

Question 23

Describe synovial joints (diarthrosis)

Answer 23

• Defined as two bones are separated by a joint cavity
• The most familiar and most structurally complex type of joint
• Most are freely mobile
• Most likely to develop painful dysfunction
• Most important joints for physical and occupational therapists, athletic coaches, nurses, and fitness trainers
• Their mobility makes them important to quality of life

Question 24

Describe the general anatomy of synovial joints

Answer 24

1) Articular cartilage (usually 2 or 3 mm thick) made of hyeline cartilage absorbs shock
2) Joint (articular) cavity
3) Synovial fluid—slippery lubricant in joint cavity
Rich in albumin and hyaluronic acid
4) Joint (articular) capsule
-The outer fibrous capsule is continuous with periosteum
-The inner, cellular, synovial membrane has
fibroblast-like cells that secrete synovial fluid and macrophages that remove debris from the joint cavity

Question 25

Describe synovial fluid

Answer 25

The slippery lubricant in synovial joint cavities; rich in albumin and hyaluronic acid

Question 26

Describe the two parts of a joint (articular) capsule of synovial joints

Answer 26

1) Outer fibrous capsule: continuous with periosteum
2) Inner, cellular, synovial membrane:
fibroblast-like cells that secrete synovial fluid and macrophages that remove debris from the joint cavity

Question 27

Describe the accessory structures of synovial joints

Answer 27

1) Articular disc between articulating bones
- Ex: temporomandibular joint
2) Meniscus: moon-shaped cartilage in each knee
- Absorbs shock and pressure
- Guide bones across each other and improve their fit together
- Stabilize the joints, reducing the chance of dislocation

Question 28

Describe the meniscus of the knee

Answer 28

• A moon-shaped cartilage in each knee
• Absorbs shock and pressure for the synovial joint
• Guide bones across each other and improve their fit together
• Stabilize the joints, reducing the chance of dislocation

Question 29

Ligaments attach ____ to ____, whereas tendons attach _____ to _____

Answer 29

Ligaments attach bone to bone, whereas tendons attach muscle to bone

Question 30

Describe bursa and describe its purpose

Answer 30

• A fibrous sac filled with synovial fluid, located between muscles, where tendons pass over bone, or between bone and skin
• Cushions muscles, helps tendons slide more easily over joints, modifies direction of tendon pull

Question 31

Describe a tendon sheath and where it’s found

Answer 31

• Elongated cylindrical bursa wrapped around a tendon

- In hand and foot

Question 32

Describe how exercise can benefit your cartilage

Answer 32

• Exercise warms synovial fluid, which makes it become less viscous, and more easily absorbed by cartilage
• Cartilage then swells; becomes a more effective cushion
• Repetitive compression and decompression of cartilage (during exercise) moves synovial fluid in and out of the cartilage like a sponge.
• Oxygen and nutrients are brought to chondrocytes; wastes are taken away
• Without exercise, cartilage deteriorates more rapidly from inadequate nutrition and waste removal

Question 33

True or false: A warm-up period before vigorous exercise helps protect cartilage from undue wear and tear

Answer 33

True

Question 34

Define and describe range of motion (ROM)

Answer 34

• The degrees through which a joint can move

- Describes an aspect of joint performance and is a physical assessment of a patient’s joint flexibility

Question 35

What three elements determine range of motion?

Answer 35

1) Shape of the articular surfaces
2) Strength and tautness of ligaments and joint capsules
3) Action of the muscles and tendons

Question 36

Describe the three elements of range of motion in detail

Answer 36

1) Shape of the articular surfaces
- Elbow—olecranon of ulna fits into olecranon fossa of humerus
2) Strength and tautness of ligaments and joint capsules
- Stretching of ligaments increases range of motion
- Double-jointed means people have long or slack ligaments
3) Action of the muscles and tendons
- Nervous system monitors joint position and muscle tone
- Muscle tone—state of tension maintained in resting muscles

Question 37

Define muscle tension

Answer 37

The state of tension maintained in resting muscles

Question 38

Describe axes of rotation

Answer 38

A moving bone has a relatively stationary axis of rotation that passes through the bone in a direction perpendicular to the plane of movement

Question 39

Describe a multiaxial joint and give an example

Answer 39

• A joint that has multiple axes of rotation

- Ex: shoulder joint has three degrees of freedom or axes of rotation

Question 40

Define monoaxial and biaxial joints

Answer 40

Monoaxial joint: rotates on one axis

Biaxial joint: rotates on two axes

Question 41

What are the six classes of synovial joints? Give examples for each.

Answer 41

1) Ball-and-socket joint (humeroscapular)
2) Hinge joint (humeroulnar)
3) Pivot joint (radioulnar)
4) Plane joint (intercarpal)
5) Saddle joint (trapeziometacarpal)
6) Condylar joint (metacarpophalangeal)

Question 42

Describe ball-and-socket synovial joints and give an example

Answer 42

• The only multiaxial joints in the body

- Ex: shoulder joint

Question 43

Describe condylar (ellipsoid) synovial joints and give examples

Answer 43

• Oval convex surface of one bone fits into a complementary-shaped depression on the other
• Biaxial joints: movement in two planes
• Examples: radiocarpal joint, metacarpophalangeal joints, atlanto-occipital joint

Question 44

Describe plane (gliding) synovial joints and give examples

Answer 44

• Flat articular surfaces, bones slide over each other
• Usually biaxial joints
• Examples: intercarpal; intertarsal; between articular processes of vertebrae

Question 45

Describe saddle synovial joints and give an example

Answer 45

• Both bones have an articular surface that is shaped like a saddle, one concave, the other convex
• Biaxial joints
• Example: trapeziometacarpal (opposable thumb)

Question 46

Describe hinge synovial joints and give examples

Answer 46

• One bone with convex surface fits into a concave depression of another bone
• Monoaxial joints—move freely in one plane
• Examples: elbow, knee, joints within fingers, toes

Question 47

Describe pivot synovial joints and give examples

Answer 47

• A bone spins on its longitudinal axis
• Monoaxial joints
• Examples: atlantoaxial joint (C1 and C2), radioulnar joint at the elbow

Question 48

Define zero position and describe when it’s used

Answer 48

• The position of a joint when a person is in the standard anatomical position
• Joint movements described as deviating from the zero position or returning to it

Question 49

What are the two special movements of the thumb?

Answer 49

Opposition and reposition

Question 50

Define opposition and reposition

Answer 50

Opposition: moving thumb to touch tip of a finger
Reposition: returning thumb to the zero position

Question 51

Describe the temporomandibular jaw joint (TMJ)

Answer 51

• The articulation of the condyle of the mandible with the mandibular fossa of the temporal bone
• Combines elements of condylar, hinge, and plane joints
• Synovial cavity of the TMJ is divided into superior and inferior chambers by an articular disc
• Deep yawn or strenuous depression can dislocate the TMJ
• Condyles pop out of fossa and slip forward
• TMJ Syndrome common problem

Question 52

Describe the problems with the TMJ

Answer 52

• A deep yawn or strenuous depression can dislocate the TMJ
• Condyles pop out of fossa and slip forward
• Relocated by pressing down on molar teeth while pushing the jaw backward

Question 53

Describe TMJ syndrome (how many people does it affect, what are the symptoms, what are the causes, and what are the treatments?)

Answer 53

Temporomandibular joint (TMJ) syndrome:
-May affect as many as 75 million Americans
Signs and symptoms:
-Clicking sounds in the jaw, imitation of jaw movement
-Pain radiating from jaw down the neck, shoulders, and back
-Can cause moderate intermittent facial pain, or severe headaches, vertigo (dizziness), tinnitus (ringing in the ears)
Cause of syndrome:
-Caused by combination of psychological tension and malocclusion (misalignment of teeth)
Treatment:
-Psychological management, physical therapy, analgesic and anti-inflammatory drugs, corrective dental appliances to align teeth properly

Question 54

What is the name for the shoulder joint?

Answer 54

Glenohumeral (humeroscapular) joint

Question 55

Describe the glenohumeral (humeroscapular) joint

Answer 55

• Most freely mobile joint in body
• Sacrifices stability for freedom of movement
• Glenoid labrum: fibrocartilage ring that deepens glenoid cavity
• The joint is stabilized by the tendons fused to joint capsule:
• Biceps brachii tendon and Rotator cuff tendons
• Stabilized in all directions except inferiorly

Question 56

Describe dislocations of the glenohumeral joint

Answer 56

• Very painful and sometimes causes permanent damage
• Dislocations most often occur when the arm is abducted and then receives a blow from above
• Children especially prone to dislocation

Question 57

Describe the elbow joint

Answer 57

• A combination of a hinge and a pivot joint

- Both articulations are enclosed in one joint capsule

Question 58

Describe the pivot joint portion of the elbow joint

Answer 58

• Pivot Joint consists of the proximal radioulnar joint
• Head of radius fits into radial notch of ulna
• Held in place by anular ligament encircling radial head
• Allows for pronation and supination

Question 59

Describe the hinge joint portion of the elbow joint

Answer 59

Hinge joint includes two articulations:

1) Humeroulnar joint: trochlea of the humerus joins trochlear notch of the ulna
2) Humeroradial joint: capitulum of humerus meets head of radius

Question 60

Describe the coxal (hip) joint

Answer 60

• The head of the femur inserts into the acetabulum of the hip bone
• More stable than shoulder joint
• Acetabular labrum: horseshoe-shaped ring of fibrocartilage that deepens socket
• Dislocations are rare

Question 61

Describe dislocations of the hip joint

Answer 61

• Dislocation of hip is rare
• Some infants suffer congenital dislocation
• Acetabulum is not deep enough to hold head of femur in place
• Harness, worn for 2 to 4 months can assist with proper positioning

Question 62

Describe the tibiofemoral (knee) joint

Answer 62

• The largest and most complex diarthrosis of the body
• Primarily a hinge joint
• Capable of slight rotation and lateral gliding when knee is flexed
• Patellofemoral joint: gliding joint

Question 63

What stabilizes the knee joint?

Answer 63

• The quadriceps tendon in the front

- The tendon of semimembranosus muscle on rear of thigh

Question 64

Describe the popliteal (posterior) portion of the knee joint

Answer 64

• Extracapsular ligaments
• Intracapsular ligaments cross each other to form X
• Anterior cruciate ligament (ACL) prevents hyperextension of knee when ACL is pulled tight; common site of knee injury
• Posterior cruciate ligament (PCL) prevents femur from sliding off tibia

Question 65

Describe the jobs of the ACL and the PCL

Answer 65

• Anterior cruciate ligament (ACL) prevents hyperextension of knee when ACL is pulled tight; common site of knee injury
• Posterior cruciate ligament (PCL) prevents femur from sliding off tibia

Question 66

Describe knee joint injuries

Answer 66

• Highly vulnerable to rotational and horizontal stress
• Most common injuries are to the menisci and anterior cruciate ligament (ACL)
• Heal slowly due to scanty blood flow

Question 67

Define arthroscopy and describe its use in repairing knee joints

Answer 67

• Arthroscopy: a procedure in which interior of joint is viewed with a pencil-thin arthroscope inserted through a small incision
• Less tissue damage than conventional surgery
• Recover more quickly
• Arthroscopic ACL repair: about 9 months for healing to be complete

Question 68

Describe the two articulations of the talocrural (ankle) joint

Answer 68

• Talocrural (ankle) joint—includes two articulations:
  1) Medial joint: between tibia and talus
  2) Lateral joint: between fibula and talus
• Both articulations enclosed by one joint capsule

Question 69

Describe what supports the ankle joint

Answer 69

• Malleoli of tibia and fibula overhang the talus on either side and prevent side-to-side motion
• Calcaneal (Achilles) tendon: extends from the calf muscles to the calcaneus

Question 70

Sprains (torn ligaments and tendons) are common at the _____ joint

Answer 70

ankle

Question 71

True or false: the ankle has a more restricted ROM than the wrist

Answer 71

True

Question 72

Define and describe the prevalence of arthritis

Answer 72

• A broad term for pain and inflammation of joints

- Most common crippling disease in the United States

Question 73

Describe osteoarthritis

Answer 73

• The most common form of arthritis
• “Wear-and-tear arthritis”; results from years of joint wear
• Articular cartilage softens and degenerates
• Accompanied by crackling sounds called crepitus
• Bone spurs develop on exposed bone tissue causing pain

Question 74

Define and describe rheumatoid arthritis

Answer 74

• An autoimmune attack against the joint tissues
• Misguided antibodies (rheumatoid factor) attack synovial membrane, enzymes in synovial fluid degrade the articular cartilage, joint begins to ossify
• Ankylosis: solidly fused, immobilized joint
• Remissions occur, steroids and aspirin control inflammation

Question 75

Define ankylosis

Answer 75

A solidly fused, immobilized joint

Question 76

Define arthroplasty

Answer 76

The replacement of diseased joint with artificial device called a prosthesis

Question 77

The synovial cavity of the TMJ is divided into superior and inferior chambers by what?

Answer 77

An articular disc

Question 78

The only type of joint with a labrum is what?

Answer 78

Ball and socket joints

Question 79

Describe labrum

Answer 79

A type of cartilage found in the shoulder (glenohumeral) and hip joint (coxal joint)

Question 80

What is always found in synovial joints?

Answer 80

A joint capsule

Question 81

In what position does the radius cross over the ulna?

Answer 81

Pronation

Question 82

True or false: abducting the knee is an abnormal movement

Answer 82

True