Articulations

Question 1

How many joints are there in the body?

Answer 1

230 +

Question 2

What are the three different joint structures?

Answer 2

Fibrous Joints
Cartilaginous Joints
Synovial Joints

Question 3

What are fibrous joints?

Answer 3

fixed/ immoveable joints
connected by dense connective tissues consisting mainly of collagen and do not have a joint cavity

Question 4

What is a common example of a fibrous joint?

Answer 4

A common example of a fibrous joint are sutures.
➢ Sutures join adjacent bones of the cranium together.
Another example of a fibrous joint are gomphosis.
➢ Gomphosis bind the teeth to the socket of the maxilla mandible.
➢ This is the only joint type that does not join bone to another
bone.

Question 5

What are cartilaginous joints?

Answer 5

Cartilaginous joints are connected entirely by cartilage (fibrocartilidge or
hyaline cartilage).
Cartilaginous joints allow more movement between bones than fibrous joints,
but less than synovial joints.
There are two types of cartilaginous joints:
➢ Synchondrosis
➢ Symphysis
A synchondrosis is a cartilaginous joint where bones are joined by hyaline
cartilage.
A synchondrosis can be temporary or permanent.

Question 6

What are examples of cartilaginous joints (Synchondrosis)?

Answer 6

An example of a temporary synchondrosis includes
the epiphyseal plate of a long bone (i.e. the femur)
The first sternocostal joint is an example of a permanent
synchondrosis.

Question 7

What are examples of cartilaginous joints (Symphysis)?

Answer 7

A symphysis is a cartilaginous joint where bones are joined by fibrocartilage.
➢ Fibrocartilidge is extremely strong (multiple bundles of thick collagen
fibres) and allows limited movement to occur.
An example of this joint type includes the pubic symphysis.
➢ This joins the left and right pubic bone (narrow gap).
The intervertebral symphysis is a wide gap symphysis located between
vertebrae. A thick pad of fibrocartilage forms the intervertebral discs.
➢ The width allows for small movements and cushioning between vertebrae.

Question 8

What are synovial joints?

Answer 8

Synovial joints are the most common and most mobile joint in the human body.
A synovial joint contains:
➢ A synovial cavity filled with synovial fluid
➢ A joint capsule uniting the articulating bones.
The outer fibrous membrane may contain ligaments.
The inner synovial membrane secretes lubricating,
shock absorbing, and joint-nourishing synovial fluid.
➢ Articular (hyaline) cartilage lines the epiphyses (end of a
long bone) to absorb shock and reduce friction between
bones.

Question 9

What are examples of synovial joints?

Answer 9

Examples of synovial joints include:
➢ Ball and Socket Joints
➢ Hinge Joints
➢ Condyloid Joints
➢ Gliding (or Plane) Joints
➢ Pivot Joints
➢ Saddle Joints

Question 10

What is a ball and socket joint?

Answer 10

A ball and socket joint is a joint in which the
rounded surface of a bone (the ball) rotates with a
depression of another bone (the socket).
This joint type allows for the greatest freedom of
movement than any other type of joint
(triaxial/multiaxial).
Examples include the acetabulofemoral (hip) and
glenohumeral (shoulder) joint.

Question 11

What is a hinge joint?

Answer 11

A hinge joint is where two or more bones meet and move along an axis to bend.
This joint allows movement in one direction (uniaxial)
Hinge joints are assisted by cartilage, ligaments and
muscles to bend.
Examples include the ankle, knee and elbow joint.

Question 12

What is a condyloid joint?

Answer 12

A condyloid joint consists of an oval-shaped end of one bone rotating within an
oval-shaped depression in another bone.
Condyloid joints allow movement with two degrees of freedom (biaxial)
Unlike ball and socket joints, a condyloid joint does
not allow axial rotation.
Examples include the radiocarpal joint,
metacarpophalangeal joint and metatarsophalangeal joint

Question 13

What is a gliding or plane joint?

Answer 13

A gliding joint (also called a plane joint) is formed between two bones that meet at
flat (or nearly flat) articular surface.
Gliding joints allow bones to “glide” or “slide” past one another.
Unlike other joints, the angle between the two bones forming the
joint rarely changes, only their position relative to one another
(non-axial).
Synovial fluid lubricates the joint, reducing friction when the bones pass each other.
An example of a gliding joint is the zygapophyseal joint (facet joints).

Question 14

What is a pivot joint?

Answer 14

A pivot joint (also referred to as a rotary or trochoid joint) is a freely moveable
joint that allows only rotary movement around a single axis (uniaxial).
Pivot joints are formed by one bone rotating within
a ring of a concave surface of another bone.
The best example is that of the atlanto-axial joint which
allows for the horizontal rotation of the head (try it!).
Another example is the radio-ulnar joint which allows
the palm of the hand to face upwards or downwards (try it!).

Question 15

What is a saddle joint?

Answer 15

A saddle joint is where one bone forms a support for the other bone to rest on.
(Like a horse rider sitting on a saddle)
A saddle joint is a biaxial joint which allows double motion
(biaxial) due to one bone forming a concave shape and the other a
convex shape.
Examples includes the carpometacarpal joint at the base
of the thumb or the sternoclavicular joint.

Question 16

What are the three function classifications of joints?

Answer 16

Synarthrosis
➢ joints that have no movement.
Amphiarthrosis
➢ partially movable joints.
Diarthrosis
➢ enables a wide variety of movement.

Question 17

What is a synarthrosis?

Answer 17

Synarthrosis is an immoveable articulation in which the bones
are united by intervening fibrous connective tissues.
Most synarthrosis are fibrous joints.
Examples include sutures of the cranium and gomphosis

Question 18

What is an amphiarthrosis?

Answer 18

Amphiarthrosis is a partially moveable articulation
Most amphiarthrosis are cartilaginous joints.
Examples include the pubic symphysis and intervertebral discs.

Question 19

What is a diarthrosis?

Answer 19

Diarthrosis is a freely moveable articulation
All diarthrosis are synovial joints.
Examples include the hip-joint, knee-joint, elbow-joint, sternoclavicular-joint.
Diarthrosis can be sub-divided into nonaxial, uniaxial, biaxial and triaxial.

Question 20

What are the sacroiliac ligaments?

Answer 20

Anterior sacroiliac ligaments
➢ Posterior sacroiliac ligaments:
(Interosseous, short posterior
and long posterior)
➢ Sacrotuberous ligaments
➢ Sacrospinous ligaments

Question 21

What are the muscles of the sacroiliac joint?

Answer 21

➢ Internal abdominal oblique
➢ External abdominal oblique
➢ Erector spinae
➢ Piriformis
➢ Gluteus maximus
➢ Psoas minor

Question 22

What are the movements of the sacroiliac joint?

Answer 22

The sacroiliac joint allows little to no movement.
➢ Made possible by numerous ridges and depressions (not smooth)
➢ Total movement = 2 - 4° of rotation
➢ SI movement decreases torsional stress
➢ SI movement decreases forward shearing (L5/S1)
The sacroiliac joint moves in the sagittal plane. This movement is termed: nutation and counternutation

Question 23

What is the architecture of the sacroiliac joint?

Answer 23

The sacroiliac joints connect the ilium
posterior-laterally.
➢ Fibrocartilage on the iliac side
➢ Hyaline cartilage on the sacral side
➢ Articular surfaces have
interdigitating symmetrical ridges
➢ Largest joint in the body
(surface area of ~17.5cm2

Question 24

What is the sacroiliac joint?

Answer 24

The sacroiliac joint (articulatio sacroiliaca) is formed between the
auricular surface of the sacrum (sacro) and the ilium (iliac).
➢ Diarthrosis
➢ Synovial Joint
➢ Gliding (Plane) Joint
➢ Weight transmission (upper to lower)
➢ Favours strength and stability