Joints: Movement & Disease Lecture PDF

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) 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

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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

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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

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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

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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

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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)

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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)

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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

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 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

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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

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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

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