Joints of the body

1. JOINTS

2. JOINTS
Definition:
A place where two or more bones get articulated with one another is called a joint.
Joints help to connect different parts of skeleton and form a basic framework of body.
Study of structure and functions of various joints is called arthrology.
LIGAMENTS:
At a joint the bones are connected to each other by ligaments.
Ligaments are tough, elastic fibrous connective tissue bands or threads which connect bone
to bone at a joint.
Ligaments keep the bones in proper position and avoid dislocation of bones during the
movement.
SIGNIFICANCE OF JOINTS:
They help in locomotion.
Joints also help in desirable voluntary movements of body parts.
Joints bring flexibility in rigid skeleton.
Some joints are protective and act as shock absorbers.
dr. aarif

3. JOINTS
Immovable Slightly movable Freely movable
OR OR OR
Fibrous Cartilagenous Synovial
OR OR OR
Synarthroses Amphiarthroses Diarthroses
1. SUTURES 1.SYNCHONDROSIS 1. BALL & SOCKET
2. GOMPHOSIS 2. INTERVERTEBRAL 2. HINGE
3. SYNDESMOSIS 3. PUBIC SYMPHYSIS 3. GLIDING
4. CONDYLOID
5. SADDLE
6. PIVOT
dr. aarif

4. SYNARTHROSES
FEATURES :
• The bones are united at the joints by thin or dense layer of white fibrous connective
tissue.
• The white fibers are made up of a protein collagen.
• These joints are fixed i.e. cannot permit any movement of articulating bones.
• Short and thick fibers do not allow movement of articulating bones.
• The line of fusion at joint is called suture
FUNCTIONS:
• Fixed joints are primarily meant for growth and may permit molding during childbirth.
• Usually these joints are the places of growth. When growth period is over these joints
tend to ossify
dr. aarif

5. SUTURES OF SKULL
(SERRATE SUTURES)
• These joints are found in flat and curved
roofing bones of the skull.
• These joints are also called serrate joints
because articulating surfaces of the bones
show serrated margins.
• The bones are repeatedly interlocked.
Therefore joints become fixed and protective in
function.
• In young or newborn, the roofing bones of 4 Types :
skull leave about six gaps called fontanelles. a) Coronal : Betn frontal & parietal
Fontanelles permit flexibility for parturition
and brain growth. b) Sagittal Betn both parietals
• At about 2 years of age the gaps are closed c) Lambdoidal : Betn parital and occipital
by ossification
d) Lateral : Betn temporal and parital
dr. aarif

6. SYNDESMOSIS
It is the fibrous connective tissue that connects two
bones. E.g. tibia and fibula
dr. aarif

7. GOMPHOSIS
(Peg and Socket)
It is the characteristic of thecodont teeth.
The roots of the teeth are fixed in sockets
(alveoli) of jaw bones.
The fibrous connections in this case are many
short periodontal ligaments.
dr. aarif

8. AMPHIARTHROSES
These are called amphiarthroses because they are neither fixed nor freely
movable.
It is intermediate stage of joints when related to development and movement.
They allow some movement in response to compression, tension or twisting.
The line of fusion between articulating bones is called synchondrosis or
symphysis.
dr. aarif

9. SYNCHONDROSIS
The connecting material is a hyaline cartilage.
It is very soft and elastic with minimum strength.
E.g. Epiphyseal Plate: This epiphyseal plate is
present between epiphysis & diaphysis of long
bones.
It is a temporary joint present in children and it
gets ossified in adults.
This joint provides the sites and means for growth
of the long bones in children.
It also contributes to the flexibility in the
endoskeleton of children
dr. aarif

10. SYMPHYSIS
The connecting material is a fibrocartilage.
Fibrocartilage is an opaque, comparatively strong
but flexible structure, due to the presence of
numerous white fibers of collagen.
It is present between two pubic bones of the
pelvic girdle.
The pubic bones are connected by a disc of
fibrocartilage.
It allows slight movements as
compression, bending, twisting etc.
It makes the joint more flexible.
In females, it helps to increase the size of the birth
canal for easy parturition.
In males, it is comparatively less flexible.
dr. aarif

11. INTER VERTEBRAL
JOINT
These joints are present between the
centers of adjacent vertebrae of
backbone.
The connecting discs are fibro-
cartilaginous.
These joints help in shock absorption and
protect the spinal cord from mechanical
injury.
These joints make the vertebral column
slightly flexible.
dr. aarif

12. DIARTHROSES
These are called perfect joints due to the
presence of all well-developed structures
needed for free movement.
These are most evolved and therefore freely
movable type of joints
It consists of, synovial cavity, synovial fluid,
synovial membrane, capsule, ligaments and
articulating surfaces covered by hyaline
cartilage
dr. aarif

13. dr. aarif

14. Synovial Membrane:
It lines the synovial cavity and forms a synovial capsule.
The synovial membrane secretes synovial fluid.
It encloses fluid filled synovial cavity and protects internal parts of joint.
Synovial fluid:
It is a clear, yellowish, slimy and viscous fluid similar to lymph.
The viscosity of fluid is due to hyaluronic acid secreted by the cells of the synovial
membrane.
It contains nutrients and mucus.
The fluid lubricates the joint and nourishes hyaline cartilage.
The fluid also contains phagocytes, which removes microorganisms and cellular debris.
Deficiency of this fluid causes arthrosclerosis.
Hyaline cartilage:
It covers the end of articulating surfaces of bone and avoids direct contact or friction
between bones.
Ligaments:
The joints are provided with capsular ligaments and numerous accessory ligaments.
Accessory ligament may be intra or extra capsular.
Ligaments avoid dislocation of bones and make the joints stronger.
dr. aarif

15. dr. aarif

16. The spherical head of one bone fits into a cup-
shaped socket of other bone.
These joints are prone for easy dislocation or
separation on sudden strain. BALL & SOCKET
These joint allow multi-axial movements.
The shoulder joint allows rotatory
or circular movements (360°) and hip joint
allows straight movement (180°).
Examples: Shoulder joints, Hip joint etc.
are examples of ball and socket joint.
dr. aarif

17. Spoon shaped surface of one-bone fits into the HINGE
concave cavity of other bone.
There are strong collateral ligaments.
These joints resist dislocation.
These joints allow uniaxial movements
and resemble with the movements
of door and window.
In elbow joint, the ulna works as
hinges, so only forward movement
is possible.
In knee joint the patella or knee
cap works as hinges so only backward
movement is possible.
Examples: Elbow joints, Knee joints, etc.
are examples of hinge joint.
dr. aarif

18. The articular bones are permitted for gliding
or sliding movements. GLIDING
These joints allow non-axial
movements,
which are neither back-forth nor
side to side but irregular.
The articulating surface is convex
so friction is avoided.
Examples: Intercarpal joints,
Intertarsal joints, etc., are examples
of gliding joint.
dr. aarif

19. These are also called as ellipsoid joints.
Oval-shaped condyle of one bone fits into CONDYLOID
elliptical cavity of other bone.
These joints allow biaxial
movements i.e. forward – backward
and side to side but not rotation.
Examples: Radius carpal,
Metacarpo - phalangeal joints
are examples
of Condyloid joint.
dr. aarif

20. The characteristic of this joint is that the
articulating surfaces of bones are saddle SADDLE
shaped, i.e. each surface has both concave and
convex area.
Each surface is convex in one plane, concave in
the perpendicular plane.
It resembles with Condyloid joint but it allows
greater freedom of movement for the joint.
This joint allows biaxial movement.
It is the most flexible joint in the body.
Saddle joint has evolutionary significance in
human evolution.
It increases grasping power of fingers and
helps in skillful work like
writing, drawing, painting, etc.
Examples: Edges of metacarpal and first phalange of thumb is peripherally
articulated so saddle joint makes free movement. Carpo metacarpal joint of
thumb are examples of saddle joint. dr. aarif

21. Articular surfaces comprise of a central
bony pivot (dense) surrounded by an PIVOT
osteo-ligamentous ring.
One bone remains fixed while
the other bone rotates freely
around the pivot-shaped
process of fixed bone.
It allows uniaxial movement
i.e. rotation.
Examples: 1. Atlanto-axial joint.
Atlas moves along with skull
around the pivot-like odontoid
process of axis. This joint allows
rotation movement of the skull
2. Radio Ulnar joint
dr. aarif