2457 - Module 5 Part 2 - Joints.pptx

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Joints
BIOL 2457
Anatomy & Physiology I

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 Learning Objectives
By the end of this lesson, students will be able to:
1. Explain what a joint is.
2. List the major structural classifications and functional classifications of joints.
3. Describe the general structure of fibrous joints.
4. List examples of each specific kind of fibrous joint.
5. Describe the general structure of cartilaginous joints.
6. List examples of each specific kind of cartilaginous joint.
7. Describe the general structure of synovial joints, including a description of their major
structures.
8. Describe the functions of bursae & tendon sheaths in synovial joints.
9. List specific examples of each of the six types of synovial joints.
10.List the movements of each of the six types of synovial joints.
11.Describe the relationship between joint stability & joint mobility.
12.Explain the anatomical basis for sprains, dislocations, cartilage tears, bursitis, and tendonitis.
13.Identify similarities and differences between the three types of arthritis.
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 Introduction to Joints
Joints (articulations) are locations
where bones meet

Functions of joints
Connecting bones together
Allowing body movement

Joints can be classified 2 ways
How the bones interact (structural)
How much they move (functional)

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 Joint Classifications
STRUCTURAL - held together

FUNCTION
AL
movement

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Functional Classifications of Joints
Synarthroses
are immovable joints

Amphiarthroses
are slightly moveable joints

Diarthroses
are freely moveable joints
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 Structural Classification of Joints
Fibrous joints are bones connected with collagen fibers.
These joints are amphiarthroses or synarthroses.

Type #1: Sutures Type #2: Gomphoses Type #3: Syndesmoses
Location: between skull bones Location: between roots & Location: between radius &
sockets
ulna AND tibia & fibula
Movement level: synarthrosis Movement level: synarthrosis
Movement level: amphiarthrosis

The
periodontal
ligament is the
name of the
collagen fibers
in this joint.

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 Structural Classification of Joints
Cartilaginous joints are made of bones connected with cartilage
These joints are function as amphiarthroses or synarthroses

Type #1: Synchondroses Type #2: Symphyses
Locations: the epiphyseal plate, attaching rib #1 Location: between the vertebra
to the sternum.
(intervertebral discs) AND between halves of the
Can become synostoses (if calcified) hip (pubic symphysis)

Movement level: synarthrosis Movement level: amphiarthrosis

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 Structural Classification of Joints
Synovial joints are diarthrotic joints with an articular
capsule

General structure of synovial joints:
Articular cartilage, hyaline covering the boney surfaces

The joint cavity, a space filled with synovial fluid

Synovial fluid, which reduces friction & feeds
chondrocytes **

The articular capsule
fibrous capsule holds bones together
synovial membrane produces synovial fluid
internal capsule has no nerves (pain perception is **Synovial
external) fluid functions:
shock absorption
Reinforcing ligaments, which strengthen the joint overall lubrication
nutrients for 8
 Synovial Joint Support Structures
Synovial joints use bursae & tendon sheaths to reduce friction or pressure
Bursae are fluid-filled connective tissue sacs
Tendon sheaths (a type of bursae) surround tendons
These are found where soft tissues rub each other or rub hard tissues
They do not provide structural support like other accessory structures: bones,
ligaments, tendons, muscle, and even fat pads.

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 Synovial Joint Movements
The structure of a synovial joint determines how many directions it can move in

Plane joints are non-
axial (only gliding Condylar joints &
movements) saddle joints are
biaxial
(movement
along 2 axes)

Ball-and-socket joints
are multi-axial
(movement along 3
Hinge joints & pivot axes)
joints are uniaxial
(movement along 1
axis)

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 Types of Synovial Joints
Plane joint
Classification: non-axial
Examples: intercarpal joints, intervertebral
joints

Hinge joint
Classification: uniaxial
Examples: elbow, knee, ankle, &
interphalangeal joints

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 Types of Synovial Joints
Pivot joint
Classification: uniaxial
Examples: proximal radioulnar joint,
atlantoaxial joint (between the atlas & axis)

Condylar joint
Classification: biaxial
Examples: metacarpophalangeal joints,
radiocarpal joints

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 Types of Synovial Joints
Saddle joint
Classification: biaxial
Examples: carpometacarpal joint of the thumb

Ball-and-socket joint
Classification: multiaxial
Examples: shoulder and hip

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 Synovial Joint Movements
Synovial joints move in three general ways:
Gliding movements  two bones slide past each other
This occurs where 2 flat boney surfaces meet.

Angular movements  the angle between two bones increases or
decreases
Rotational movements  a bone rotates around its axis
ABDUCTI ADDUCTI LATERAL/MEDIAL
FLEXION EXTENSION
ON ON ROTATION

Special
movements
cannot be classifed
as any of these
others
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 Angular
Synovial Joint Movements Movements

Flexion: the angle between bones decreases (they move closer together)

Extension: the angle between bones increases (they move farther apart)

Hyperextension: a bone extends beyond the anatomical position

*The knee
joint is
“backwards”
compared to
other body
joints!*

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 Angular
Synovial Joint Movements Movements

Abduction: moving a structure away from the midline of the
body

Adduction: moving a structure toward the midline of the body

Circumduction: moving a limb in a
“cone” (distal aspect in a circle,
proximal aspect unmoved)
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 Rotational
Synovial Joint Movements Movements

Medial Rotation: the bone turns toward Lateral Rotation: the bone
the midline of the body turns away from the midline of the body

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 Special
Synovial Joint Movements Movements

Pronation: rotating the hand Plantarflexion: the toes
medially press downward

Supination: rotating the hand Dorsiflexion: the toes pull
laterally upward
◦ also called plantar extension

Inversion: the foot rolls
medially

Eversion: the foot rolls
laterally
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 Synovial Joint Movements Special
Movements

Protraction: a structure Elevation: a structure
moves forward moves up

Retraction: a structure Depression: a structure
moves backward moves down

Opposition: the thumb
comes together with
another finger
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 Synovial Joint Disorders –
Cartilage Tears
Cartilage helps to stabilize joints &
absorb shock

Cartilage naturally breaks down with
age
In younger people, cartilage damage is
typically due to accidents or sports
injuries

Damage to synovial joint cartilage
initially leads to swelling at the joint Cartilage tears are most common in the
Ultimately, the joint may stop bending / knee (in the cartilage called the
meniscus)
straightening
The more
mobile the joint, the less stable 20
The more stable the joint,
 Synovial Joint Disorders –
Bursitis & Tendonitis
Tendonitis occurs when a tendon (or
its tendon sheath) become inflamed &
swollen.

This is typically caused by injury or overuse.

Bursitis occurs when the bursa near the
synovial joints become inflamed &
swollen.
This is typically caused by friction or injury.
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 Synovial Joint Disorders –
Sprains & Dislocations

Dislocations occur when
bones are forced out of their
Sprains occur normal alignment
when ligaments are stretched Sprains, inflammation, and immobility
usually occur because of dislocations
or torn Once repositioned, the joint will heal 22
 Synovial Joint Disorders –
Arthritis
Osteoarthritis is the most common kind
of arthritis
By age 80, most people have some
osteoarthritis symptoms

In osteoarthritis, the articular cartilage
softens & degenerates
Joints make a crunching sound called crepitus
Bone spurs develop on the exposed bone
tissue

Osteoarthritis is caused by years of joint
wear & tear
It develops slowly and irreversibly. 23
Synovial Joint Disorders –

Arthritis
Rheumatoid arthritis is the autoimmune
form of arthritis
White blood cells release inflammatory
chemicals into the synovial joint
cavities
The cartilage gets broken down
Pannus (scar tissue) replaces it
Pannus ossifies, leading to deformed
joints
Rheumatoid arthritis is treated with
immunosuppressants, anti-
inflammatory medications, and pain
medications

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 Synovial Joint Disorders –
Arthritis
Gouty arthritis is caused by uric acid crystals in the
joints
Normally, uric acid is excreted in the urine
If levels are too high, it forms “needles” inside
the joints
The immune system attacks the crystals in the joint
This leads to pain
This immobilizes the joint
This damages the joint

Gouty arthritis is treated with anti-inflammatory
medications, pain medications and increased water
consumption

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