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Fibrous connective tissue is known as matrix. Matrix helps to connect joints and enables movement of the joints. If this becomes damaged, the joint or limb may become unusable.
At this stage it is known what artritis does, how t deos it but not why it does it.
The joints which allow the least amount of movement are Fibrous Joints - also known as immovable joints. These joints are held firmly together by strong connective tissue and allow no or very little movement. Examples are the joints between the bones in the skull and the teeth.
Joints that allow movement in a single plane are called trochlear joints, also known as hinge joints. Examples of such joints are the knee and the humero-ulnar joint of the elbow. Technically the knee does rotate slightly in the last few degrees of extension which is called the "screw home mechanism", but is still considered a hinge joint.hinge
Preikestolen and Kjeragbolten are amongst the most well known unique land formations.
It is best known for its hoodoos.
Fibrous Joints are also known as immovable joints. An example of these are Cranial Joints found in the skull.
cartilaginous joints or synchondrosis joints
The joints between the articular processes of the spinal collumn are synovial joints of the plane variety they are often known as Facet joints.
They are rare but bluish-green formations are known. The minerals responsible are copper salts.
The shoulder is one of the best known "ball-&-socket joints." It is a freely moveable joint.
A fibrous joint, also known as a synarthrosis, is essentially immovable. These joints are held together by fibrous connective tissue, such as sutures in the skull, and allow for very limited to no movement.
The cranial bones are fused together at immovable joints known as sutures. The skull contains 22 bones of which 21 are fused together at these joints. The only skull bone that is capable of movement is the jaw bone.
Probably the best known suture joints are those that join the bone plates of the skull.
osteoporosis
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