Chapter 8
Arthritis
-all rheumatic diseases that affect synovial joints -always involves damage to the articular cartilage -causes vary -three types: osteoarthritis, rheumatoid arthritis, gouty arthritis
Magnetic resonance imaging (MRI)
-allows visualization of soft tissue outside the joint cavity not visible with arthroscope -cost-effective -noninvasive
Hip joint reinforcing ligaments: ligamentum teres
-also called ligament of the femoral head -originates along the transverse acetabular ligament -attaches to the fovea capitis
Osteoarthritis
-also known as degenerative arthritis or degenerative joint disease (DJD) -most common form of arthritis -generally affects individuals age 60 or older: in the United States, affects 25% of women and 15% of men over age 60 -caused by: cumulative effects of wear and tear on joints; genetic factors affecting collagen formation
Cartilaginous: Symphysis (structural classification of joints)
-amphiarthrotic joint where articulating bones separated by pad of fibrocartilage -example: joint between the two pubic bones
Fibrous: Syndesmosis (structural classification of joints)
-amphiarthrotic joint with bones connected by a ligament -example: distal joint between tibia and fibula
Glenohumoral joint features
-articular capsule: permits extensive range of motion -small articular cartilage -glenoid labrum: fibrocartilage rim; increases area of the glenoid cavity
Bone changes with aging: Osteoporosis
-bone loss sufficient to affect normal function -loss of bone mass, along with reduced cushioning of intervertebral discs, leads to increasing incidence of vertebral fractures in elderly
Building disc (IVDD)
-caused by weakened posterior longitudinal ligaments -allows compression of nucleus pulpous and distortion of annulus fibrosus -tough, outer layer of cartilage bulges laterally
Functions of synovial fluid: Nutrient distribution
-circulates continuously, providing nutrients and carrying away wastes -compression and expansion of articular cartilage assists in circulation
Components of a synovial joint: synovial fluid
-clear, straw-colored, viscous fluid -consistency of raw egg white: viscosity dye to high concentration of hyaluronic acid produced by the synovial membrane -circulates from areolar tissue into joint cavity -percolates through articular cartilage --provides oxygen and nutrients to chondrocytes --carries away metabolic wastes
Elbow joint
-complex hinge joint involving humerus, radius, and ulna -extremely stable because: 1. the bony surfaces of the humerus and ulna interlock 2. a single, thick articular capsule surrounds both the humero-ulnar and proximal radio-ulnar joints 3. strong ligaments reinforce the articular capsule -proximal radio-ulnar joint is not part of the elbow joint: capsule and ligaments help hold the humerus, ulna, and radius in position
Primary vertebral ligaments: Supraspinous ligament
-connects tips of spinous processes from the sacrum to C7 -ligamentum nuchae extends from C7 to base of the skull
Components of a synovial joint: Articular Cartilage
-covers bones at joint -structure resembles hyaline cartilage but with no perichondrium: matrix contains more water than other cartilages
Synovial (structural classification of joints)
-diarthrotic joints -permit wider range of motion than any other joint type -located at the ends of long bones
Pronation
-distal epiphysis of radius rolls across the anterior surface of the ulna -turns the wrist and hand from palm facing back (posteriorly)
Joints of the appendicular skeleton
-extensive range of motion -often weaker than axial skeleton joints examples -sternoclavicular joint: articulation between the axial skeleton and pectoral girdle and upper limb -sacro-iliac joint: attaches the sacrum of axial skeleton to the pelvic girdle
Diarthrosis (functional classification of joints)
-freely movable
Joints categorization
-functionally by amount of motion allowed, or range of motion (ROM) -structurally by anatomical organization
Shoulder joint, or glenuhumoral joint
-greatest range of motion of any joint -most frequently dislocated joint: demonstrates how stability is sacrificed for mobility ball-and-socket diarthrosis -articulation between the head of the humerus and the glenoid cavity of the scapula -stabilized by five major ligaments, surrounding muscles, and associated tendons -bursae help reduce friction: tendon of the biceps brachia surrounded by t a tubular bursa as it passes through the articular capsule
Bone changes with aging: Osteopenia
-inadequate ossification leading to loss of bone mass -often occurs with age, beginning between ages 30 and 40 -more severe in women that men
Humero-ulnar joint (specific joint of the elbow)
-largest and strongest articulation -works like a door hinge, where trochlea of humerus articulates with the trochlear notch of the ulna: shape of the trochlear notch determines the plane of movement; shapes of the olecranon fossa and olecranon limit the degree of extension
General types of movement: Gliding
-linear motion -permits sliding motion in any direction on a relatively flat surface
Components of a synovial joint: Synovial membrane
-lines the interior of the joint capsule -secretes synovial fluid into the joint cavity: fluid lubricates, cushions, prevents abrasion, and supports chondrocytes; total quantity of synovial fluid usually less than 3 mL
Amphiarthrosis (functional classification of joints)
-little movement allowed (more than synarthrosis) -much stronger than diarthrosis -articulating bones connected by collagen fibers or cartilage
Accessory structures supporting the knee: Fat pads
-localized masses of adipose tissue covered by a layer of synovial membrane -usually superficial to joint capsule -protect articular cartilage -fill in spaces created as joint moves and joint cavity changes shape
Joints, or articulations
-locations where two or more bones meet -only points at which movements of bones can occur -joints allow mobility while preserving bone strength -amount of movement allowed is determined by anatomical structure
Artificial joints
-may be method of last resort for arthritis treatment if other methods fail to slow disease progression: other methods include regular exercise, physical therapy, anti-inflammatory drugs -can restore mobility and relieve pain -high-impact activities are restricted after replacement -new joints (hip/knees) can last more than 15 years
General types of movement: Angular motion
-movement along two axes in one plane -also involves a change in angle
General types of movement Rotation
-movement around the longitudinal axis -bone end remains fixed, and the shaft rotates
Dislocation, or luxation
-movement beyond the normal range of motion -articulating surfaces forced out of position -damages joint structures -pain is from nerves monitoring capsule and surrounding tissue: no pain receptors inside a joint
Opposition (special movement)
-movement of the thumb toward the surface of the pam or pads of other fingers -enables grasping objects
Arthroscope
-narrow, flexible fiberoptic tube with tiny camera -allows exploration of a joint without major surgery -may be used in combination with other flexible instruments inserted through additional incisions to conduct surgery: called arthroscopic surgery
Synarthrosis (functional classification of joints)
-no movement allowed -extremely strong
Herniated disc (IVDD)
-nucleus pulpous breaks through annulus fibrosus and protrude into the vertebral canal -compresses spinal nerves
Supination
-opposing movement -palm is turned anteriorly
Accessory structures supporting the knee: Meniscus, or articular disc
-pad of fibrocartilage between opposing bones in a synovial joint -may subdivide a synovial cavity -may channel synovial fluid flow -allow variations in the shapes of articular surfaces
Knee joint supporting structures: Medial and lateral menisci
-pair of fibrocartilage pads -located between femoral and tibial surfaces -act as cushions and provide lateral stability
Lateral flexion
-refers to bending the vertebral column to the side -most pronounced in cervical and thoracic regions
Articular cartilage damaged by osteoarthritis
-rough, bristly collagen fibers on the surface -increases friction at the joint: promotes further degeneration
Components of a synovial joint: Joint capsule, or articular capsule
-sac enclosing the articular ends of the bones in a joint -reinforced with accessory structures (tendons, ligaments) -continuous with the periosteum of each bone: adds strength and mobility to the joint
Accessory structures supporting the knee: Bursa
-small, thin, fluid-filled with synovial fluid and lined by synovial membrane -forms in connective tissue outside a joint capsule -reduces friction -acts as shock absorber
Normal articular cartilage
-smooth, slick surface -thick cartilage with homogenous matrix
intervetebral discs components: Nucleus pulposus
-soft, elastic, gelatinous core -gives, disc resilience and shock absorption ability
Circumduction
-special term describing a complex angular movement -proximal end of bone remains fixed while distal end moves in a path that corresponds to drawing a circle
Rotation forearm
-special terms for the rotation of the forearm -movement occurs at the proximal joint between radius and ulna -radial head rotates -pronation and supination
Joints of the axial skeleton
-strong joints -permit very little movement examples -Atlanto-occipital joint articulation between the occipital bone and atlas -Atlanto-axial joint: articulation between C1 and C2
Hip Joint
-sturdy ball-and-socket diarthrosis joint: permits flexion, extension, adduction, abduction, circumduction, and rotation -articulation between the head of the femur and the acetabulum (deep fossa) of the hip bone -articular capsule of the hip -extends from the lateral and infer surfaces of the pelvic girdle to the intertrochanteric line and intertrochanteric crest of femur -encloses both head and neck of the femur -reinforced by five ligaments
Accessory ligaments
-support, strengthen, and reinforce synovial joints -capsular ligaments, or intrinsic ligaments: localized thickenings of the joint capsule
Fibrous: Gomphosis (structural classification of joints)
-synarthrotic joint binding teeth to bony sockets in maxillae and mandible
Fibrous: Suture (structural classification of joints)
-synarthrotic joint connected by dense fibrous connective tissue -located between bones of the skull
Cartilaginous: Synchondrosis (structural classification of joints)
-synarthrotic joint formed by a rigid, cartilaginous bridge between two articulating bones -example: between ends of the first pairs of ribs and the sternum
Bony: Synostosis (structural classification of joints)
-synarthrotic, totally rigid, immovable joint -formed when bones fuse -example: frontal suture and epiphyseal lines
Intervertebral discs components: Anulus fibrosus
-touch outer ring of fibrocartilage -collagen fibers attach to adjacent vertebrae
Functions of synovial fluid: Lubrication
-under compression, fluid squeezes out of the cartilage and into space between bones
Functions of synovial fluid: Shock absorption
-viscosity increases with increasing pressure
Knee joint supporting structures: Anterior cruciate ligament (ACL) and posterior cruciate ligament (PCL)
ACL: -at full extension, slight lateral rotation of tibia tightens ACL and forces lateral meniscus between tibia and femur -this "locks" knee in extended position -opposite motion is required to "unlock"
Glenohumoral joint stabilizing ligaments
Coracoclavicular ligaments Acromioclavicular ligament Coraco-acromial ligament Coracohumeral ligament Glenohumeral ligaments
Mobility in joints
Greater range of motion results in weaker joint -synarthroses are strongest joints and have no movement -diarthroses are the most mobile joints and the weakest
Movement described by number of axes
Monoaxial: around one axis Biaxial: around two axes Triaxial: around three axes
Elbow joint reinforcing ligaments: Annular ligament
binds the head of the radius to the ulna
Humeroradial joint (specific joints of the elbow)
capitulum of humerus articulates with head of radius
Primary vertebral ligaments: Anterior longitudinal ligament
connects anterior surfaces of adjacent vertebral bodies
Primary vertebral ligaments: Ligamentum flavum
connects laminae of adjacent vertebrae
Primary vertebral ligaments: Posterior longitudinal ligament
connects posterior surfaces of adjacent vertebral bodies
Primary vertebral ligaments: Interspinous ligament
connects spinous processes of adjacent vertebrae
Knee Joint
contains three separate articulations: -two between the femur and tibia: medial condyle of tibia to medial condyle of femur; lateral condyle of tibia to lateral condyle of femur -one between the patella and patellar surface of the femur these articulations permit flexion, extension, and very limited rotation fibula is not part of the knee joint
Knee joint supporting structures: quadriceps tendon
continues as patellar ligament to anterior tibial surface
Hip joint reinforcing ligaments: Transverse acetabular ligament
crosses the acetabular notch, filling gap in the inferior border of the acetabulum
Flexion
decreases the angle of the joint
Hyperextension
extension past the anatomical position
Lateral rotation (referring to limbs)
external, or outward rotation anterior surface of a limb turns away from the long axis of the trunk
Syndesmoses of vertebral column
fibrous joints, including vertebral ligaments
Rheumatism
general term indicating pain and stiffness in the bones and/or muscles
Extension
increases the angle of the joint
Medial rotation (referring to limbs)
internal, or inward rotation anterior surface of a limb turns toward the long axis of the trunk
Synchondroses of vertebral column
intervertebral joints, forming intervertebral discs -account for about 1/4 length of the vertebral column -with increasing age, water content decreases --loss of cushioning ability increases risk of vertebral injury --vertebral column shortens
Vertebral synovial joints
joints between bony processes
Abduction
movement away from the longitudinal axis in the frontal plane
Plantar flexion (movement of the foot)
movement extending the ankle as in standing on tiptoe
Adduction
movements toward the longitudinal axis in the frontal plane
Depression (special movements)
moving a body part inferiorly (as in opening your jaw)
Circumduction (movement with reference to anatomical position)
moving a body part such that the distal end traces a circle while the proximal end stays in one position
Elevation (special movements)
moving a body part superiorly (as in closing your jaw)
Protraction (special movement)
moving a part of the body anteriorly in the horizontal plane
Elbow joint muscle attachments
muscles that extend the elbow attach on the olecranon on the posterior surface -controlled by the radial nerve tendon of the biceps brachia attaches at the radial tuberosity -contraction produces supination of forearm and flexion at the elbow severe stresses can still produce dislocation or other injuries, especially when epiphyseal growth is not complete
Eversion (special movement; movement of the foot)
opposing motion turning the sole outward
Nursemaid's Elbow
partial dislocation of the radial head from annular ligament
Accessory structures supporting the knee
provide support and additional stability tendon of the quadriceps muscle -not part of knee joint itself -limits range of motion and provides mechanical support
Knee joint supporting structures: fibular collateral ligament, or lateral collateral ligament (LCL)
provides lateral support
Knee joint supporting structures: Tibial collateral ligament, or medial collateral ligament (MCL)
provides medial support
Flexion and extension
refer to movements at hinge joints of the long bones of the limbs
Abduction and adduction
refers to the movements of the appendicular skeleton
Retraction
reverse of protraction; returning the body part to normal position
Knee joint supporting structures: Popliteal ligaments
run between femur and heads of the tibia and fibula
Accessory ligaments: Extrinsic ligaments
separate from the joint capsule -extracapsular ligaments: pass outside the joint capsule -example: patellar ligament -intracapsular ligaments: pass inside the joint capsule -example: crucial ligaments
Elbow joint reinforcing ligaments: Radial collateral ligament
stabilizes the lateral surface of the elbow joint
Elbow joint reinforcing ligaments: Ulnar collateral ligament
stabilizes the medial surface of the elbow joint
Inversion (special movement; movement of the foot)
twisting motion turning the sole inward
Dorsiflexion (movement of the foot)
upward movement of the foot or toes
Rotation
when referring to the trunk, described as left and right rotation: described in reference to anatomical position