Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
JOINTS OF THE HUMAN BODY Joint is a point of connection between two bones Strands of connective tissue, ligaments, hold the bones together and ensure the stability of joints JOINT CLASSIFICATION Joints are classified according to their Synarthroses Immovable Amphiarthroses Slightly movable Diarthroses Allow the greatest amount of motion motion capabilities: WHAT IS A LIGAMENT A band of tough fibrous tissue joining two bones together Ligaments maybe capsular, extrinsic, or intrinsic Capsular ligaments are thickenings within a fibrous joint capsule Extrinsic ligaments run between bony joints, around the outside of a synovial cavity Intrinsic ligaments occur within a synovial cavity and are generally less common than the other types Ligaments are relatively non-elastic, but flexible enough to allow movement Their main tasks are to bind bones together, to strengthen and stabilize joints (especially joints, such as the knee and shoulder, where the articulating bones do not fit very tightly together), and to limit joint movement to certain directions JOINT CLASSIFICATION CONT’D Joints are further classified by the joints them: Fibrous joint Allow no movement E.g. sutures of the scull Cartilaginous joints Allow limited movement E.g. intervertebral discs Synovial joints Allow large range of movements E.g. hip joint material that CHARACTERISTICS OF JOINTS Ligament Connects bone to bone Fibrous non-elastic material that limits motion Tendon Connects muscle to bone Fibrous tissue with some elasticity Transmits mechanical work from the muscle to move the bone Disc Present in interior of some joints to lesson shock Permits two types of movement to occur simultaneously Bursa Collapsed bag with thin walls and a moist inner surface Eliminates friction when a tendon or muscle comes into contact with another object. TYPES OF SYNOVIAL JOINTS There are three basic types of synovial joints: unilateral (rotation only about one axis) biaxial joints (movement about two perpendicular axes) multiaxial joints (movement about all three perpendicular axes) TYPES OF SYNOVIAL JOINTS CONT’D Synovial are further classified into: 1. Hinge Joint 2. Pivot Joint 3. Condyloid Joint 4. Saddle-shaped joint 5. Ball and Socket Joint 6. Plane Joint 1. HINGE (GINGLYMUS) JOINT Uniaxial Has one articulating surface that is convex, and another that is concave E.g. humero-ulnar elbow joint, interphalangeal joint PIVOT JOINT Uniaxial E.g. head of radius rotating against ulna CONDYLOID (KNUCKLE) JOINT Biaxial (flexion-extension, abduction-adduction) The joint surfaces are usually oval One joint surface is an ovular convex shape, and the other is a reciprocally shaped concave surface E.g. metacarpophalangeal joint SADDLE JOINT Biaxial (flexion-extension, abduction-adduction) The bones set together as in sitting on a horse E.g. carpometacarpal joint of the thumb BALL AND SOCKET JOINT Multiaxial (rotation in all planes) A rounded bone is fitted into a cup=like receptacle E.g. shoulder and hip joints PLANE (GLIDING) JOINT Uniaxial (permits gliding movements) The bone surfaces involved are nearly flat E.g. intercarpal joints and acromioclavicular joint of the vertebrae JOINTS OF THE PECTORAL GIRDLE STERNOCLAVICULAR JOINT Connects the sternum to the clavicle the only joint connecting the pectoral girdle to the axial skeleton true synovial joint strengthened by an intracapsular disc and extrinsic ligaments ACROMIOCLAVICULAR JOINT unites the lateral end of the clavicle with the acromion process of the scapula where shoulder separations often occur in sports such as hockey, baseball, and football GLENOHUMERAL JOINT Connects the upper limb and the scapula A typical multiaxial joint has a wide range of movement at this joint compromise = relative lack of stability UPPER LIMB JOINTS ELBOW JOINT There are three joints at the elbow: humero-ulnar joint medial (with respect to anatomical position) between the trochlea of the humerus and the olecranon process of the ulna humero-radial joint lateral between the capitulum of the humerus and the head of the radius radio-ulnar joint between the radius and the ulna ELBOW JOINT CONT’D Humerus Humero-Ulnar Joint Humero-Radial Joint Radio-Ulnar Joint Radius Ulna JOINTS OF THE PELVIC GIRDLE HIP JOINT - Between the head of the femur and the cup (acetabulum) of the hip bone (os coxae) Like shoulder joint, hip joint is: ball and socket joint multiaxial joint that allows flexion- extension, abduction-adduction and circumduction ILLIUM HIP JOINT CONT’D unlike shoulder joint, hip joint is very stable in fact it is the body’s most stable synovial joint due to: deepened socked (via lip or fibrocartilaginous labrum ) an intrinsic and very strong extrinsic ligaments dislocation in sports is not common, but can occur in car collisions dislocate the head posteriorly or drive it through the posterior lip of the actetabulum LOWER LIMB JOINTS KNEE JOINT Tibiofemoral or knee joint incredible range of movement (flexion –extension) KNEE JOINT CONT’D however, the knee joint is relatively stable due to additional structural supports from: menisci shock-absorbing fibrocartilaginous discs anterior and posterior cruciate ligaments in the centre of the joint lateral and medial collateral ligaments extending from the sides of the femur to the tibia and fibula the musculature that surrounds it ANKLE JOINT Lateral malleolus talocrural or ankle joint Medial malleolus involves several bones: medial and lateral malleoli of the tibia and fibula head of the talus calcaneus (heel bone) Talus Calcaneus Execute a simple movement that isolates 1 joint Describe the actions your body takes to execute the movement Execute a complex movement involving multiple joints Describe the actions your body takes to execute the movement