Joints: Movement & Disease Lecture PDF
Document Details
Uploaded by Deleted User
Dr. Gregory Karapetian
Tags
Summary
This document is a lecture on human joints, covering functional classifications, and joint movement, from an anatomical perspective. The document also features the classification of joints from a functional and structural approach.
Full Transcript
Introduction to Articulations Joints: Movement Articulations & Disease Body movement occurs at joints (articulations...
Introduction to Articulations Joints: Movement Articulations & Disease Body movement occurs at joints (articulations) where 2 bones connect Dr. Gregory Karapetian Joint Structure Lecture 9 Determines direction and distance of movement (range of motion) Joint strength decreases as mobility increases Joint Movement Classification of Joints Functional Classifications Functional Classifications Synarthrosis (immovable joint) Fibrous or cartilaginous connections Synarthroses (immovable joints) May fuse over time Are very strong Edges of bones may touch or interlock Amphiarthrosis (slightly movable joint) Fibrous or cartilaginous connections Four types of synarthrotic joints: 1. Suture Diarthrosis (freely movable joint) 2. Gomphosis Also called “Synovial joints” 3. Synchondrosis Subdivided by type of motion 4. Synostosis Classification of Joints Classification of Joints Synarthrotic Joints (immovable) Suture Amphiarthrotic Joints (slightly movable) Bones interlocked Bound by dense fibrous connective tissue More movable than synarthrosis Found only in skull Gomphosis Stronger than freely movable joint Fibrous connection (periodontal ligament) Binds teeth to sockets Two types of amphiarthroses Synchondrosis Syndesmosis: Is a rigid cartilaginous bridge between 2 bones: Epiphyseal cartilage of long bones Bones connected by ligaments Between vertebrosternal ribs and sternum Synostosis Symphysis: Fused bones, immovable: Bones separated by fibrous cartilage Frontal suture of skull Epiphyseal lines of long bones 1 Classification of Joints Classification of Joints Syndesmosis: Symphysis: Posterior tibia and fibula Pubic symphysis Classification of Joints Components of Synovial Joints Diarthrotic Joints (freely movable) Articular cartilages Known as: Synovial joints Pad articulating surfaces within articular capsules: Wrist Thumb Prevent bones from touching At ends of long bones Are within articular capsules Smooth surfaces Lined with synovial membrane lubricated by synovial Shoulder fluid: Reduce friction Elbow Components of Synovial Joints Components of Synovial Joints Synovial fluid Accessory structures Cartilages: Contains slippery proteoglycans secreted by Cushion the joint: fibroblasts Fibrous cartilage pad called Functions of synovial fluid: a meniscus (articular disc) Lubrication Fat pads: Nutrient distribution Superficial to the joint capsule Shock absorption Protect articular cartilages Ligaments: Support, strengthen joints Sprain: ligaments with torn collagen fibers 2 Components of Synovial Joints Components of Synovial Joints Accessory structures (continued…) Tendons: Attach to muscles around joint Help support joint Bursae: Pockets of synovial fluid Cushion areas where tendons or ligaments rub Bursitis of olecranon (elbow) Components of Synovial Joints Synovial Joints Bunion Inflammation Sesmoid bones of toes shift Components of Synovial Joints Synovial Joint Injuries Factors that stabilize Synovial Joints: Prevent injury by limiting range of motion: Collagen fibers of the joint capsule (ligaments) Shapes of the articulating surfaces may prevent movements Other bones, muscles, or fat pads Tendons of articulating bones 3 Synovial Joint Injuries Joint Movement Injuries Types of Dynamic Motion Linear motion (gliding) Dislocation (luxation) Angular motion Articulating surfaces forced out of position Rotation Damages articular cartilage, Planes (Axes) of Dynamic Motion ligaments, joint capsule Monaxial (1 axis) Subluxation Biaxial (2 axes) A partial dislocation Triaxial (3 axes) Simple Model of Articular Motion Simple Model of Articular Motion Types of Movements at Synovial Types of Movements at Synovial Joints Joints Linear Motion: Angular Motion: Flexion Also called a Gliding Joint Anterior–posterior plane Two surfaces slide past each other: Reduces angle between elements Between articulating carpal bones Extension Between articulating tarsal bones Anterior–posterior plane Between clavicle and sternum Increases angle between elements Hyperextension Extension past anatomical position 4 Angular Movements Angular Movements Angular Motion: Abduction Angular motion Frontal plane Moves away from longitudinal axis Adduction Angular motion Frontal plane Moves toward the longitudinal axis Angular Movements Angular Movements Angular Motion: Circumduction Circular motion without rotation Types of Movement at Synovial Types of Movement at Synovial Joints Joints Rotation Direction of rotation from anatomical position Relative to longitudinal axis of body May be left or right rotation Medial rotation (inward rotation): Rotates toward axis Lateral rotation (outward rotation): Rotates away from axis 5 Types of Movement at Synovial Joints Special Movements (1 of 6) Rotation (cont…) Pronation: Inversion: Rotates forearm Twists sole of foot medially Radius over ulna Eversion: Supination: Twists sole of foot laterally Forearm in anatomical position Special Movements (2 of 6) Special Movements (3 of 6) Dorsiflexion: Opposition: Flexion at ankle (lifting toes) Thumb movement toward fingers or palm (grasping) Plantar flexion: Extension at ankle (pointing toes) Special Movements (4 of 6) Special Movements (5 of 6) Protraction: Depression: Moves anteriorly Moves in inferior direction In the horizontal plane (pushing (down) forward) Elevation: Moves in superior Retraction: direction (up) Opposite of protraction Moving anteriorly (pulling back) 6 Special Movements (6 of 6) Types of Synovial Joints Classification of synovial joints by shapes of the articulating surfaces Lateral flexion: 1. Gliding Bends vertebral column 2. Hinge from side to side 3. Pivot 4. Ellipsoid 5. Saddle 6. Ball-and-socket Types of Synovial Joints (1 of 6) Types of Synovial Joints (2 of 6) Gliding Joints: Hinge Joints: Flattened or slightly curved faces Angular motion in a single plane (monaxial) Limited motion (nonaxial) Types of Synovial Joints (3 of 6) Types of Synovial Joints (4 of 6) Pivot Joints: Ellipsoid Joints: Rotation only (monaxial) Oval articular face within a depression Motion in two planes (biaxial) 7 Types of Synovial Joints (5 of 6) Types of Synovial Joints (6 of 6) Saddle Joints: Ball-and-Socket Joints: Straddled (biaxial) Round articular face in a depression (triaxial) The Shoulder Joint The Shoulder Joint Also called the glenohumeral joint Shoulder Ligaments Glenohumeral Coracohumeral Allows greater range of motion than Coracoacromial Coracoclavicular any other joint Acromioclavicular Least stable Shoulder Muscles (aka rotator cuff) Supraspinatus Supported by skeletal muscles, Infraspinatus Teres minor tendons, ligaments Subscapularis Shoulder Bursae Ball-and-socket diarthrosis Subacromial Subcoracoid Subdeltoid Head of humerus and glenoid cavity of scapula Subscapular The Elbow Joint A stable and complex hinge joint 2 Articulations of the Elbow Humero-ulnar joint Largest articulation Trochlea of humerus and trochlear notch of ulna Limited movement Humero-radial joint Smaller articulation Capitulum of humerus and head of radius 8 The Hip Joint Also called Coxal joint Strong ball-and-socket diarthrosis Wide range of motion Structures of the Hip Joint Head of femur fits into the socket of acetabulum Which is extended by fibrocartilaginous acetabular labrum Ligaments of the Hip Joint Pubofemoral Iliofemoral Ischiofemoral Transverse acetabular Ligamentum teres The Hip Joint The Knee Joint A complicated hinge joint Transfers weight from femur to tibia 3 Articulations of the knee joint 2 femur–tibia articulations At medial and lateral condyles 1 between patella and patellar surface of femur The Knee Joint The Knee Joint Menisci of the Knee 8 Ligaments of the Knee Joint Medial and lateral menisci Fibrous cartilage pads Patellar ligament (anterior) At femur–tibia articulations 2 popliteal ligaments (posterior) Cushion and stabilize joint Give lateral support Anterior and posterior cruciate ligaments (inside joint capsule) Tibial collateral ligament – MCL (medial) Locking knees Standing with legs straight: Fibular collateral ligament – LCL (lateral) “Locks” knees by jamming lateral meniscus between tibia and femur Anterolateral ligament 9 The Knee Joint The Knee Joint The Knee Joint The Knee Joint Anterolateral ligament (ALL) Discovered in 2013 by Belgian surgeons ACL replacement graft harvested from tissue in patellar region Surgeon removes tissue and (small piece of) “bone block” at each end ACL knee brace Graft is pulled through two tunnels drilled in the femur and tibia, secures graft with screws or staples 10 Joint Pathology Joint Pathology Sprain Rheumatism Partial or complete tearing of the ligaments and the A pain and stiffness of skeletal and muscular systems capsule of a joint Arthritis Note: “Strain” is the tearing of muscle, not the joint All forms of rheumatism that damage articular cartilages of synovial joints Rheumatoid Arthritis Chronic autoimmune disease Pain, swelling, stiffness, loss of function in joints Healthy immune system protects the body by attacking foreign bacteria and viruses… … But an autoimmune disease causes the body to mistakenly attack healthy tissue Joint Pathology Joint Pathology Osteoarthritis Caused by wear and tear of joint surfaces, or genetic factors affecting collagen formation Generally in people over age 60 Rheumatoid arthritis Rheumatoid nodules Joint Pathology Gouty Arthritis Occurs when crystals (uric acid or Ca2+ salts) form within synovial fluid 11