topic 4 joint
DESCRIPTION
This ppt discuss about the characteristics of the various types of the joint including fibrous, cartilaginous and synovial joint.TRANSCRIPT
JOINTS AND ITS CLASSIFICATIONS
By: Hermizan Halihanafiah
COLLEGE OF ALLIED
HEALTH AND SCIENCE
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Joints
What is Joint?
• Point of contact between two bones, between bone and cartilage or between bone and teeth.
• Also called articulation or arthrosis
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Structural Classification of Joint
• Based on presence or absence the
synovial cavity and types of connective
tissues that hold the two bones:
– Fibrous joint
– Cartilaginous joint
– Synovial joint
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Fibrous Joint
• No synovial cavity
• Hold by dense irregular connective tissues, rich in collagen fiber
• Fixed joint, immovable joint (synarthrosis)
• 3 types; sutures, syndesmoses, interosseous membranes.
#Suture
Dentoalveolar
Interosseous Membrane
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Syndesmosis Joint
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Cartilaginous Joint
• Lack of synovial cavity
• Allows little movements (partially movable)
(ampiarthrosis) or immovable joint
(synarthrosis)
• Articulating bones tightly connected with the
hyaline cartilage or fibrocartilage
• Two types; synchondroses and symphyses
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Synchondroses
•Connecting meterials between 2 articulating bones is a hyaline cartilage
•Immovable joint (synarthrosis)
•Exp: 1st stercostal joint, epiphyseal plate
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Synchondroses
•Epiphyseal plate is one type of the synchondrosis joint.
•Immovable joint (synarthrosis)
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Symphyses
• Connecting materials
between 2 articulating
bones is fibrocartilage.
• Partially movable joint
(ampiarthrosis)
• Examples: sternal angle of
sternum, pubic symphysis,
intervertebral joint,
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Symphyses
•Intervertebral joint is a one type of the symphysis joint.
•Joint between body of vertebra bones.
•Body of vertebra connect each other by intervertebral disc (fibrocartilage)
•Partially movable (ampiarthrosis)
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Symphyses
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Synovial Joints
• Presence of synovial cavity between articulating
bones
• Freely movable joint (diarthrosis)
• Bones at a synovial joint are covered by a hyaline
cartilage called articular cartilage
• Divide into 6 types, ball and socket, planar (gliding),
condyloid, saddle, hinge, pivot joint.
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Structure of Synovial JointArticular capsule• Surrounds a synovial joint
• Composed 2 layers, outer fibrous membrane and inner synovial membrane
• Fibrous membrane connect periosteum between 2 articulating bones.
• Fibrous membrane give flexibility and strengthen the synovial joint
• Synovial membrane produce synovial fluid that avoid friction between articulating boned during movements.
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Articular Capsule
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Articular Cartilage
• Covered the articulating
surface of the bones with a
smooth, slippery surface.
• Reduce friction between
bones during movement
and assist to absorb
shock.
Articular Cartilage
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Synovial Fluid• Secrete by synovial membrane• Viscous, clear or pale yellow fluid• Function:• Reducing friction by lubricating the joint• Absorbing shock• Supply O2 & nutrient to and removing CO2 and waste
product from the chondrocyte.• Contain phagocyte – remove microbe and debris
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Accessory StructureExtracapsular Structure
• Ligament that lies outside the capsule
• Example : fibular collateral & tibial collateral
ligaments at the knee joint, Patella ligament lie at the
surface of patella etc
• Some joint strengthen by group of muscles. For
examples rotator cuff muscles (SITS) strengthen the
shoulder joint.
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Struktur Extracapsular
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Rotator Cuff Muscles
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Intracapsular Structure
• Structure within the articular capsule
• For examples anterior and posterior cruciate
ligaments at knee joint
• Inside some synovial joint, such as knee, pads of
fibrocartilage disc lie between articular surface of the
bone.
• These pads are known as articular disc or menisci.
• All these structure provide stabilization of the joint.
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Posterior Cruciate Ligament
Anterior Cruciate Ligament
Struktur Intracapsular
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Struktur Intracapsular
Posterior View Knee Joint
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Struktur Intracapsular
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Bursae and Tendon SheathBursae
• Saclike structure, filled
with synovial fluid
• Strategically situated to
alleviate friction in some
joint (knee and shoulder)
• Acts as a cushion and
protect the articulating
bones from friction.
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Tendon (Synovial) sheath• Tubelike bursae that wrap certain tendon that
considerably friction. • Reduce friction during movement• For examples tendon of biceps brachii that
pass through the synovial cavity.• Also found at wrist and ankle
Bursae and Tendon Sheath
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Movement of Synovial Joint
Angular Movement• Increase or decrease in the angle or
articulating bones.• Flexion, extension, lateral flexion,
hyperextension, abduction and adduction.
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Flexion & Extension
Flexion• Movement that decrease in the angle between
articulating bones.
Extension• Movements that increase in the angle between
articulating bones.
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Figure 9.12a
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Hyperextension
• Continuation of extension beyond the anatomical position.
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Lateral Flexion
• Movements of the trunk sideways to the right or left at the waist.
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Figure 9.12b
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Figure 9.12d
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Abduction
• Movement of the body away from the midline
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Adduction
• Movement of the bone toward midline
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Circumduction
• Movement of the distal end of the body part in circle.
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Rotation
• A bone revolves around its own longitudinal axis
• Two types of rotation; Medial rotation and Lateral rotation
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Medial rotation
• Anterior surface of the bone of the limb is turned toward midline
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Lateral Rotation
• Anterior surface of the bone of a limb is turned away from the midline.
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Special Movements
• Elevation
• Depression
• Protraction
• Retraction
• Inversion
• Eversion
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Special Movements
• Dorsiflexion
• Plantar flexion
• Supination
• Pronation
• Opposition
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Elevation
• Upward movement of a part of the body
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Depression
• Downward movement of a part of the body
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Protraction
• Movements of apart of the body anteriorly in the transverse line.
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Retraction
• Movement of a protracted part of the body back to the anatomical position.
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Figure 9.15
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Inversion
• Movements of the soles medially at the intertarsal joint, so that the soles face each other.
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Eversion
• Movement of the soles laterally at the intertarsal joint so that the soles face away each other.
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Dorsiflexion
• Bending of the foot at the ankle in the direction of the dorsum (superior surface).
• Occurs when stand on your heels.
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Plantar flexion
• Bending of the foot at the ankle joint in the direction of the plantar or inferior surface.
• Occurs when standing on your toes.
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Supination
• Movements of the
forearm at the
proximal and distal
radioulnar joint in
which the palm is
turned anteriorly or
superiorly.
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Pronation
• Movements of the forearm at the proximal and distal radioulnar joint in which the distal end of the radius crosses over the distal end of ulna and the palm is turned posteriorly or inferiorly.
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Opposition
• Movements of the
thumbs at the
carpometcarpal joint in
which the thumb moves
across the palm to
touch the tips of the
finger on the same
hands.
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Figure 9.21
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Gliding Movement• Simple movement in
which relatively flat bone surfaces move back and forth and from side to side.
• No significant alteration in angle between bones
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Type of Synovial Joint
Synovial joints are classified into 6 groups based on shapes of articulating surface and possible movement.
Ball and socket
Hinge
Planar (gliding)
Condyloid
Pivot
Saddle
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Ball and Socket
• Consists of the ball like surface of one bone fitting
into cuplike depression of another bone
• Provide triaxial movement (flexion – extension,
abduction – adduction, lateral rotation – medial
rotation)
• Examples : hip joint and shoulder joint
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Ball and Socket Joint
Hip Joint
Glenohumeral Joint
Triaxial Movements
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Hinge Joint
• Convex surface of one bone fits into the
concave surface of another bone.
• Provide monoaxial movement (flexion –
extension)
• Examples: knee joint and elbow joint and
interphalangeal joint.
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Hinge Joint
Elbow Joint
Knee Joint
Monoaxial Movement
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Pivot
• Rounded or pointed surface of one bone
articulates with a ring formed partly by
another bone and partly by ligament.
• Provide monoaxial movement
• Examples: proximal radioulnar joint,
atlantoaxial joint.
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Pivot Joint
Atlantoaxial Joint
Radioulnar Joint
Monoaxial Movement
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Condyloid / Ellipsoidal Joint
• The convex oval shaped projection of one
bone fits into the oval shaped depression of
another bone.
• Provide biaxial movement (flexion –
extension, abduction – adduction)
• Examples : radiocarpal joint,
metacarpopahalangeal (2-5).
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Condyloid Joint
Metacarpophalangeal Joint
CarpometacarpalJoint
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Saddle Joint
• The articular surface of one bone is saddle
shaped, and the other bone fits into saddle.
• Provide triaxial movement (flexion –
extension, abduction – adduction, rotation)
• Example : 1st carpometacarpal joint between
trapezium of the carpus and 1st metacarpal.
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Saddle Joint
Carpometacarpal Joint
Triaxial Movements
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Planar / Gliding Joint
• Articulating surface of two bones are flat or slightly curve.
• Limited movement• Provide biaxial movement (back – forth, side
– side)
• Examples:intercarpal, intertarsal,sternoclavicular, acromioclavicular etc.
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Gliding / Planar Joint
Intercarpal Joint
Biaxial Movements
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Thank You….any question??