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Bones and Bone Tissues


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									Bones and Bone Tissue

Bone. Bone is the hardest tissue in the body and supports various organs. The matrix is tough containing both inorganic and organic substances. The inorganic salts present in the matrix are calcium phosphate, calcium carbonate, calcium fluoride, magnesium phosphate, etc. If a bone is dried , its organic matter (living matter ) is destroyed and inorganic part is left behind. On the other hand if a bone is kept in a dilute HCl for some time,, its inorganic part is dissolved and organic part is left behind. Such a bone is called decalcified bone. Study of a dried bone shows its inorganic matter, while that of a decalcified bone reveals the animal matter. Thus bone may be studied in two forms: decalcified and dried. FUNCTIONS OF BONE The skeleton serves a number of functions in vertebrates. 1. Support. The skeleton forms a rigid framework, which gives support to the body against gravity. This role of the skeleton depends on the deposition of calcium phosphate and carbonate in the bones. Land vertebrates have stronger skeleton than aquatic vertebrates that are supported by the buoyancy of water. 2. Shape. The skeletal framework gives and maintains the shape of the body. Without skeletal support, human body would be flexible like that of a jellyfish. 3. Protection. The skeleton encloses the more vital organs of the body to protect them from injury. For example, brain and sense organs are enclosed in the cranium and sense capsules of the skull, spinal cord in the neural canal of the vertebral column, and heart, large blood vessels and lungs in a bony cage formed of backbone, sternum and ribs. 4. Site for Muscle Attachment. The skeleton furnishes a hard surface for the attachment of muscles to make them effective in movements. Both the ends of a skeletal muscle are attached to bones by means of tendons. 5. Movement. Bones form systems of lavers which are moved by muscle contraction. Movements of bones cause movement of body parts in which they lie. 6. Formation of Blood Corpuscles (Haemopoiesis). Blood corpuscles (red and granulocytes) and platelets are produced in the red bone marrow present at the ends of the long bones, in sternum and scapula, and in the centra of the vertebrae. 7. Hearing. Certain bones (ear ossicles present in the middle ear) help in hearing. 8. Breathing. Cartilages of larynx, cartilaginous rings of the trachea and ribs help in breathing. 9. Sound Production. The cartilages of larynx also help in the production of sound. 10. Mineral Storage. Bones contain deposits of calcium carbonate and calcium phosphate. These may be released into the blood if needed for use elsewhere in the body, but are later replaced. This helps in regulating calcium and phosphosus level of blood. Parathormone and calcitonin hormones from the parathyroid and thyroid glands respectively play a role in this regulation. 11. Fat Storage. Marrow cavity of long bones contains adipose tissue. MICROSCOPIC STRUCTURE OF DECALCIFIED MAMMALIAN BONE It consists of four parts: periosteum, matrix, endosteum and bone marrow. (i) Periosteum. It is a thick and tough sheath that forms and envelop around the bone . It is composed of collagen(=white) fibrous tissue . Bundles of periosteal collagen fibres, called Sharpey’s fibres, penetrate the bone matrix to provide a firm connection between the two. The periosteum contains blood vessels . The periosteum also contains bone- forming cells, the osteoblasts which produce new bone material.

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Bones and Bone Tissue

(ii) Matrix. It is composed of a protein called ossein. The main salts found in the matrix are calcium phosphate, calcium carbonate, sodium chloride and magnesium phosphate. Of these calcium phosphate is maximum in the vertebrate bone. The haversian canals,a characteristic feature of the mammalian bones,. are present in the matrix, Each Haversian canal contains an artery, a vein, a lymph vessel, a nerve and some bone cells , all packed in with connective tissue. The Haversian canals are interconnected by transverse channels , the Volkmann’s canals. The matrix has numerous inactive bone cells, the osteocytes. The latter contain reduced numbers of cell organelles and often store glycogen. An osteocyte is surrounded by a fluid-filled space, the bone lacuna, which leads into fine radiating channels, the canaliculi. In the developing bone, the osteocytes give off several projections called protoplasmic processes (=filopodia) which extend through the canaliculi. With the help of canaliculi and protoplasmic processes one osteocyte is in contact with another osteocyte.

The matrix of the bone occurs as layers called lamellae. The lamellae are of four types. (a) Haversian lamellae. These lamellae occur around the Haversian canals. A Haversian canal with its surrounding lamellae and osteocytes constitute a cylindrical unit of bone called Haversian system or osteon. Haversian systems are absent in spongy bones of mammals. (b) Interstitial lamellae. These lamellae occur between the Haversian systems. (c) Outer circumferential lamellae (=outer concentri
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