Joints and Movements: Support and Movement
patellar ligament
extention of tendon from quadriceps muscle; connects patella to tibial tuberosity and stablizes the joint anteriorly
medial (tibial) collateral ligament
extracapsular ligament; adds strength to joint medially
lateral (fibular) collateral ligament
extracapsular ligment; adds strength to joint laterally
Skeletal muscle contraction
causes bone movement at synovial joints
Articulations and Joints - Naming
According to bones or parts united at joint. According to only one of articulating bones. By Latin equivalent of common name
Range of Motion - Types
Active and passive
Syndesmosis
Adjacent bones are held together by collagenous fibers or interosseous ligaments, example distal ends of tibia and fibula and radius and ulna
Symphysis
Adjacent bones are separated by a pad of fibrocartilage, example pubic symphysis and intervertebral discs
Synovial Joints
Allow considerable movement. Most joints that unite bone of appendicular skeleton. Complex: Articular cartilage and disks, Joint cavity and capsule, Synovial membrane and fluid. Bursae: Pockets of synovial fluid, Bursitis.
Range of Motion
Amount of mobility demonstrated at a given joint
Joint Disorders
Arthritis, Joint infections, Gout
Functional Joint Class
Based on degree of motion. Synarthrosis: Nonmovable. Amphiarthrosis: Slightly movable. Diarthrosis: Freely movable.
Structural Joint Class
Based on major connective tissue type that binds bones: Fibrous, Cartilaginous, Synovial.
Saddle Joints
Biaxial. Example: Thumb
Fibrous Joints - Syndesmoses
Bones farther apart than suture and joined by ligaments. Some movement may occur.
Structural Classification
Bony, Fibrous, Cartilaginous, Synovial, Based on anatomical organization of the joint
Cartilaginous
Cartilage binds the articulating bones, example left and right halves of the pelvis and between vertebra
Rheumatoid Arthritis
Caused by transient infection or autoimmune disease
Temporomandibular Joint (TMJ)
Combination plane and ellipsoid joint. TMJ Disorders cause most chronic orofacial pain.
Special Movements - Types
Elevation and Depression, Protraction and Retraction, Opposition and Reposition, Inversion and Eversion. Special movements are unique to only one or two joints.
Cartilaginous Joints - Synchondrosis - Location
Epiphyseal plates. Joint between the first rib and the sternum.
Cartilaginous Joints - Symphyses
Fibrocartilage uniting two bones.
Diarthrosis
Freely movable joints, synovial joint, articular capsule of joint is lined with synovial membrane which produces fluid, example elbow and knee, Gliding joints, hinge joints, pivot joints, ellipsoid joints, saddle joints and ball-and-socket
Fibrous
Has fibrous connective tissue connecting the articulating bones, example between tibia and fibula
Ankle Joint
Highly modified hinge joint. Ligaments of arch. Holds bones in proper relationship. Transfer weight.
Suture
Immovable joint between the bones of the skull
Gomphosis
Immovable joint that binds the teeth to bony sockets by periodontal ligaments
Synarthrosis
Immovable joint, extremely strong; sutures, gomphosis, synchondrosis, synostosis
Cartilaginous Joints - Synchondrosis
Joined by hyaline. Little or no movement.
Joint infections
Lyme disease: Tick vector
Gout
Metabolic disorders of unknown cause (idiopathic)
Ellipsoid Joint
Modified ball-and-socket. Biaxial. Example: Atlantooccipital joint.
Knee Joint
Modified hinge joint. Menisci: Fibrocartilage articular disks. Cruciate ligaments: ACL and PCL. Collateral ligaments: Fibular and tibial. Knee Injuries and Disorders: Football injuries, Bursitis, Chondromalacia (Softening of cartilage), Hemarthrosis (Acute), Water on the knee (Slower accumulation)
Hinge joint
Monoaxial joints that permit only angular movement in one plane, example elbow and knee
Pivot joint
Monoaxial joints that permit only rotation; example atlas and the axis, head of radius and shaft of ulna
Pivot joints
Monoaxial. Example: Articulation between dens of axis and atlas
Plane or Gliding joints
Monoaxial. Example: articular processes between vertebrae
Hinge Joints
Monoaxial. Example: elbow, knee
Ball-and-socket
Multiaxial. Examples: shoulder and hip joints
Synovial
Only one with joint cavity, ligament help support articulating bones, example knee
Articulation or Joint - Definition
Place where two bones come together. Freely movable to limited to no apparent movement. Structure correlated with movement.
Synovial Joints - Types
Plane or gliding, Saddle, Hinge, Pivot, Ball-and-socket, Ellipsoid.
Cartilaginous Joints - Symphyses - Location
Pubic symphysis. Intervertebral discs. Junction between manubrium and the body of the sternum.
Synchondrosis
Rigid cartilaginous bridge between two bones, example epiphyseal plate; vertebrosternal ribs and sternum
Ball-and-socket
Round head of one bone rests inside a cup-shaped depression, triaxial joint that permits rotation as well as other movements, example shoulder and hip joints
Fibrous Joints - Sutures
Seams between the bones of the skulls. Synostosis - ossified suture.
Range of Motion - influences
Shape of articular surfaces forming joint: Amount and shape of cartilage covering surfaces. Strength and location of ligaments and tendons. Location of muscles associated with joint. Amount of fluid in and around joint. Amount of use/disuse of joint. Amount of pain in and around joint.
Amphiathrosis
Slightly movable joint, example between tibia and fibula, between left and right halves of pelvis and between vertebrae; Syndesmosis, Symphysis
Fibrous Joints - Gomphoses
Specialized joints. Pegs that fit into sockets. Inflammations: Gingivitis and Periodontal disease
Classes of Joints (2)
Structural and functional
Fibrous Joints - Types
Sutures, Syndesmoses, Gomphoses
Functional Classification
Synarthosis, Amphiathorsis, Diathrosis; Based on degree of movement permitted within joint
Cartilaginous Joints - Types
Synchondrosis, Symphyses, Synchondrosis, Symphyses
Effects of Aging on Joints
Tissue repair slows: Production of synovial fluid declines. Ligaments and tends become less flexible. Decrease in ROM.
Synostosis
Two bones completely fused, example suture of frontal bone and epiphyseal lines of mature bone
Bony
Two separate bones are fused with no boundary; example suture of the frontal bones
Cartilaginous Joints
Unite two bones by means of cartilage
Fibrous Joints - Characteristics
United by fibrous connective tissue: Have no Joint cavity. Move little or none.
Osteoarthritis
Wear and tear
Ellipsoid joint
aka condyloid joint, Biaxial joints with an oval articular face that nestles witin a depression in the opposing surface, example phlanges with metacarpals and tarsals
Gliding joint
aka planar joint, permits limited movement, movement generally in a single plane, example ends of clavicles and between carpal bones
Saddle joint
aka sellaris joints, look like saddles, biaxial joints with articular faces that are concave on one axis and convex on the other, example carpometacarpal joint at the base of the thumb
Ball-and-socket
ball-shaped head articulates with cup-shaped socket; freely movable joint; flexion and extension; abduction and adduction; circumduction; rotation
joint or articulation
connects a bone with another bone, cartilage, or tooth.
Hinge
convex bone surface articulates with a concave bone surface; flexion and extension
infrapatellar fat pad
cushion between patellar ligament and synovial capsule
Flexion (ANGULAR)
decrease in the angle between bones of a joint; usually occurs on a sagittal plane
flexed knee joint
demonstrates gliding and rotation movements
Depression (Special Joint Movement)
downward movement lowering body part vertically
Hyperextension (ANGULAR)
excessive extension movement beyond normal anatomical position
Planar (gliding)
flat or slightly curved plane; gliding motion back and forth and/or side to side
Dense fibrous connective tissue
found on the exterior of the joint; holds the bones together
diarthroses
freely movable jints; about 90% of the joints in the body; all synovial joints.
4 main categories of synovial joint movements
gliding, angular, rotatin, and special movements
knee joint
has the distinction of being the most complex and highly stressed joint; location of many joint injuries; also classified as a hinge joint
Synovial joints
have a small synovial cavity between the two bones that permits a greater amount of movement than fibrous or cartilaginous joints. Majority of the joints in the human body
Fibrous joints
have dense fibrous connective tissue with strong collagen fibers that hold the joints firmly to gether with no synovial cavity. Permits little to no movement.
Cartiliaginous joints
have either hyaline cartilage or fibrocartilage connecting the bones with no synovial cavity. Usually, ther is a small degree of movement.
articular cartilage
hyaline cartilage covering the ends of the bones in the synovial cavity
cartilaginous epiphyseal plates of long bones
immovable joints.
synarthroses
immovable joints; include the sutures between the skull bones and the teeth sockets
Extension (ANGULAR)
increase in the angle between bones of a joint; restore to anatomical position
synovial membrane
inner layer of the articular capsule; composed of areolar connective tissue containing elastic fibers and adipocytes
lateral meniscus
inside of joint cavity; cushions knee joint
medial meniscus
inside of joint cavity; cushions knee joint
Examples of cartilaginous
intervertebral joints, the pubic symphysis, and the joint between the manubrium and body of the sternum.
anterior cruciate ligament or ACL
intracapsular ligament; attaches the femur and tibia anteriorly
posterior cruciate ligament or PCL
intracapsular ligament; stabilizes joint posteriorly
functional classification of joints
is made on the basis of the amount of movement the joint allows.
cartilaginous joints
most are slightly movable.
Retraction (Special Joint Movement)
move a body part backward or posterior
Protraction (Special Joint Movement)
move a body part forward or anterior on a horizontal plane
Abduction (ANGULAR)
move appendage away from midline
Adduction (ANGULAR)
move appendage toward midline
Circumduction (ANGULAR)
move distal part of an appendage in a circle
GLIDING
nearly flat bone surfaces slide or glide over each other
fibrous capsule
outer dense fibrous connective tissue layer of the articular capsule that is continuous with the periosteum of the bone; also forms ligaments when fibrous bundles are parallel
Condyloid
oval convex projection articulates with oval concave depression; flexion and extension, abduction and adduction circumduction
Dorsiflexion (Special Joint Movement)
point your toes upward; stand on your heels
Plantar Flexion (Special Joint Movement)
pont your toes downward; raise your heels
bursa
reduces friction; 13 bursae in knee
Pivot
rounded or pointed projection articulates with ring formed by bone and ligament; rotation
Saddle
saddle-shaped depression articulates with projection that fits into the saddle; same as condyloid joint, except more exaggerated
synovial fluid
secreted by the synovial membrane; lubricates the articular cartilages to reduce friction
Examples of Synovial joints
shoulder, elbow, hip, and knee joints.
Examples of fibrous joints
skull joints, teeth sockets, and the distal joint between the tibia and fiula.
amphiarthroses
slightly movable joints; intervertebral joints, the tibiofibular joint, and the pupic symphysis are examples.
synovial cavity
small space between the two articulating bones
articular capsule
structure that encloses the synovial joint and synovial cavity; has two layers: the fibrous capsule and synovial membrane
ligaments
tough, dense tissue that holds bone to bone; several found in the knee joint
ROTATION
turn on a pivot with a circle
Pronation (Special Joint Movement)
turn palm of the hand to face backward, or, if arm is outstretched, turn palm downward
Supination (Special Joint Movement)
turn palm of the hand to face forward, or, if arm is outstretched, turn palm upward
Inversion (Special Joint Movement)
turn the sole of the foot inward
Eversion (Special Joint Movement)
turn the sole of the foot outward
Elevation (Special Joint Movement)
upward movement rising body part verticallly
