The organic component of the bone matrix is primarily made up of collagen fibers, which provide flexibility and strength to the bone. Collagen is produced by bone cells called osteoblasts and helps in bone formation and repair processes.
Osteoblasts are the cells responsible for producing the organic matrix in bone. They are specialized bone cells that secrete collagen and other proteins that form the framework for mineralization in bone tissue.
Immature or matrix-depositing bone cells are osteoblasts. These cells are responsible for bone formation by secreting collagen and other proteins that make up the bone matrix. Osteoblasts play a crucial role in bone growth and remodeling.
Bone cells that liquefy the bone matrix and release calcium into the blood are called Osteoclasts. Immature or matrix depositing bone cells are called osteoblasts.
The ongoing process of tearing down and rebuilding bone matrix is called osteoclasts.
The primary mineral found in bone matrix is hydroxyapatite, a crystalline form of calcium phosphate. It gives bone its strength and rigidity by providing a framework for bone structure.
The matrix of the bone (calcified hydroxyapatite) is non-living; the living part of the bone are the cells (osteoblasts, osteocytes, osteoclasts) and the periosteum, a tough membrane that covers the bone and allows tendons and ligaments to attach to the bone.
The laser beam is produced from the emitter matrix.
that is a biology question. the bony matrix is the principle tissue of mature bones. trabecular bone is spongy bone ,which is less dense than compact bone.
The destruction of matrix by osteoclasts involves the secretion of acid and enzymes, such as cathepsin K, that break down the mineral and collagen components of bone matrix. This process is essential for bone resorption, where old or damaged bone is broken down to be replaced by new bone formation.
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osteclast