principles of human anatomy and physiology, 11e1 chapter 9 joints
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Principles of Human Anatomy and Physiology, 11e 1
Chapter 9
Joints
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Principles of Human Anatomy and Physiology, 11e 2
Chapter 9Joints
• Joints hold bones together but permit movement
• Point of contact – between 2 bones– between cartilage and bone– between teeth and bones
• Arthrology = study of joints• Kinesiology = study of motion
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Principles of Human Anatomy and Physiology, 11e 3
Classification of Joints
• Structural classification is based on the presence or absence of a synovial (joint) cavity and type of connecting tissue. Structurally, joints are classified as – fibrous, cartilaginous, or synovial.
• Functional classification based upon movement: – immovable = synarthrosis– slightly movable = amphiarthrosis– freely movable = diarthrosis
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Principles of Human Anatomy and Physiology, 11e 4
Fibrous Joints
• Lack a synovial cavity• Bones held closely together by
fibrous connective tissue• Little or no movement
(synarthroses or amphiarthroses)
• 3 structural types– sutures– syndesmoses– gomphoses
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Principles of Human Anatomy and Physiology, 11e 5
Sutures
• Thin layer of dense fibrous connective tissue unites bones of the skull
• Immovable (synarthrosis)
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Principles of Human Anatomy and Physiology, 11e 6
Syndesmosis
• Fibrous joint – bones united by ligament
• Slightly movable (amphiarthrosis)• Anterior tibiofibular joint and Interosseous membrane
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Principles of Human Anatomy and Physiology, 11e 7
Gomphosis
• Ligament holds cone-shaped peg in bony socket • Immovable (amphiarthrosis)• Teeth in alveolar processes
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Principles of Human Anatomy and Physiology, 11e 8
Cartilaginous Joints
• Lacks a synovial cavity• Allows little or no movement• Bones tightly connected by fibrocartilage or hyaline cartilage• 2 types
– synchondroses– symphyses
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Principles of Human Anatomy and Physiology, 11e 9
Synchondrosis
• Connecting material is hyaline cartilage• Immovable (synarthrosis)• Epiphyseal plate or joints between ribs and sternum
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Principles of Human Anatomy and Physiology, 11e 10
Symphysis
• Fibrocartilage is connecting material
• Slightly movable (amphiarthroses)
• Intervertebral discs and pubic symphysis
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Principles of Human Anatomy and Physiology, 11e 11
Synovial Joints• Synovial cavity separates articulating bones
• Freely moveable (diarthroses)
• Articular cartilage– reduces friction– absorbs shock
• Articular capsule– surrounds joint– thickenings in fibrous
capsule called ligaments
• Synovial membrane– inner lining of capsule
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Principles of Human Anatomy and Physiology, 11e 12
Example of Synovial Joint
• Joint space is synovial joint cavity• Articular cartilage covering ends of bones• Articular capsule
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Principles of Human Anatomy and Physiology, 11e 13
Special Features
• Synovial Membrane– secretes synovial fluid
containing slippery hyaluronic acid– brings nutrients to articular cartilage
• Accessory ligaments– extracapsular ligaments
• outside joint capsule– intracapsular ligaments
• within capsule• Articular discs or menisci
– attached around edges to capsule– allow 2 bones of different shape to fit tightly– increase stability of knee - torn cartilage
• Bursae = saclike structures between structures– skin/bone or tendon/bone or ligament/bone
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Principles of Human Anatomy and Physiology, 11e 14
Flexion, Extension & Hyperextension
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Principles of Human Anatomy and Physiology, 11e 15
Abduction and Adduction
Condyloid joints
Ball and Socket joints
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Principles of Human Anatomy and Physiology, 11e 16
Circumduction
• Movement of a distal end of a body part in a circle• Combination of flexion, extension, adduction and
abduction• Occurs at ball and socket, saddle and condyloid joints
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Principles of Human Anatomy and Physiology, 11e 17
Rotation
• Bone revolves around its own longitudinal axis– medial rotation is turning of
anterior surface in towards the midline
– lateral rotation is turning of anterior surface away from the midline
• At ball & socket and pivot type joints
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Principles of Human Anatomy and Physiology, 11e 18
Special Hand & Foot Movements
• Inversion• Eversion• Dorsiflexion• Plantarflexion• Pronation• Supination
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Principles of Human Anatomy and Physiology, 11e 19
Planar Joint
• Bone surfaces are flat or slightly curved
• Side to side movement only• Rotation prevented by ligaments• Examples
– intercarpal or intertarsal joints– sternoclavicular joint– vertebrocostal joints
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Principles of Human Anatomy and Physiology, 11e 20
Hinge Joint
• Convex surface of one bones fits into concave surface of 2nd bone
• Uniaxial like a door hinge• Examples
– Knee, elbow, ankle, interphalangeal joints
• Movements produced– flexion = decreasing the joint angle– extension = increasing the angle– hyperextension = opening the joint
beyond the anatomical position
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Principles of Human Anatomy and Physiology, 11e 21
Pivot Joint
• Rounded surface of bone articulates with ring formed by 2nd bone & ligament
• Monoaxial since it allows only rotation around longitudinal axis
• Examples– Proximal radioulnar joint
• supination• pronation
– Atlanto-axial joint• turning head side to side “no”
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Principles of Human Anatomy and Physiology, 11e 22
Condyloid or Ellipsoidal Joint
• Oval-shaped projection fits into oval depression• Biaxial = flex/extend or abduct/adduct is possible• Examples
– wrist and metacarpophalangeal joints for digits 2 to 5
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Principles of Human Anatomy and Physiology, 11e 23
Saddle Joint
• One bone saddled-shaped; other bone fits as a person would sitting in that saddle• Biaxial
– Circumduction allows tip of thumb travel in circle– Opposition allows tip of thumb to touch tip of other fingers
• Example – trapezium of carpus and metacarpal of the thumb
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Principles of Human Anatomy and Physiology, 11e 24
Ball and Socket Joint
• Ball fitting into a cuplike depression• Multiaxial
– flexion/extension– abduction/adduction– rotation
• Examples (only two!)– shoulder joint– hip joint
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Principles of Human Anatomy and Physiology, 11e 25
Shoulder Joint
• Head of humerus and glenoid cavity of scapula
• Ball and socket• All types of
movement
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Principles of Human Anatomy and Physiology, 11e 26
Elbow Joint (Exhibit 9.3 and Figure 9.13)
• This is a hinge joint formed by the trochlea of the humerus, the trochlear notch of the ulna, and the head of the radius.
• Movements at this joint are flexion and extension of the forearm.
• Tennis elbow, little elbows, and dislocation of the radial head are common injuries to this joint.
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Principles of Human Anatomy and Physiology, 11e 27
Hip Joint
• Head of femur and acetabulum of hip bone
• Ball and socket type of joint
• All types of movement possible
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Principles of Human Anatomy and Physiology, 11e 28
Hip Replacement
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Principles of Human Anatomy and Physiology, 11e 29
Knee Joints (Exhibit 9.5 and Figure 9.15)
• This is the largest and most complex joint of the body and consists of three joints within a single synovial cavity.
• Movements at this joint include flexion, extension, slight medial rotation, and lateral rotation of the leg in a flexed position.
• Some common injuries are rupture of the tibial colateral ligament and a dislocation of the knee.
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Principles of Human Anatomy and Physiology, 11e 30
Tibiofemoral Joint
• Articular capsule– mostly ligs & tendons
• Lateral & medial menisci = articular discs
• Many bursa• Vulnerable joint• Knee injuries damage ligaments
& tendons since bones do not fit together well
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Principles of Human Anatomy and Physiology, 11e 31
Rheumatoid Arthritis
• Autoimmune disorder• Cartilage attacked• Inflammation, swelling & pain • Final step is fusion of joint
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Principles of Human Anatomy and Physiology, 11e 32
Osteoarthritis
• Degenerative joint disease– aging, wear & tear
• Noninflammatory---no swelling– only cartilage is affected not synovial membrane
• Deterioration of cartilage produces bone spurs– restrict movement
• Pain upon awakening--disappears with movement
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Principles of Human Anatomy and Physiology, 11e 33
Gouty Arthritis
• Urate crystals build up in joints---pain– waste product of DNA & RNA metabolism– builds up in blood– deposited in cartilage causing inflammation & swelling
• Bones fuse• Middle-aged men with abnormal gene