osteoblast

(noun)

A mononucleate cell from which bone develops.

Related Terms

Examples of osteoblast in the following topics:

  • Postnatal Bone Growth

    • Osteoblasts are mononucleate cells that are responsible for bone formation.
    • Osteoblasts produce a matrix of osteoid that is composed mainly of Type I collagen.
    • Osteoblasts are also responsible for the mineralization of this matrix.
    • Bone is a dynamic tissue that is constantly being reshaped by osteoblasts and osteoclasts.
    • Osteoblasts produce bone matrix and mineral, and osteoclasts break down the tissue.

  • Embryonic and Fetal Bone Formation

    • When osteoblasts become trapped in the matrix that they secrete, they differentiate into osteocytes.
    • Osteoblasts continue to line up on the surface, which increases their size.
    • During the formation of bone spicules, cytoplasmic processes from osteoblasts interconnect.
    • The periosteum contains a layer of undifferentiated cells (osteoprogenitor cells) that later become osteoblasts.
    • The osteoblasts secrete osteoid against the shaft of the cartilage model (appositional growth).

  • Bone Repair

    • Bone fractures are repaired through physiological processes in the periosteum via chrondroblasts and osteoblasts.
    • The periosteum is one source of precursor cells that develop into the chondroblasts and osteoblasts that are essential to heal bone.
    • The periosteal cells distal to (further from) the fracture gap develop into osteoblasts that form woven bone.
    • At this point, the mineralized matrix is penetrated by channels, each containing a microvessel and numerous osteoblasts.
    • The osteoblasts form new lamellar bone upon the recently exposed surface of the mineralized matrix.

  • Development of the Skeleton

    • Ossification (or osteogenesis) is the process of laying down new bone material by cells called osteoblasts.
    • The peripheral portion is more fibrous, while, in the interior the cells or osteoblasts predominate.
    • Therefore, a network of bone is formed, the meshes of which contain the blood vessels and a delicate connective tissue crowded with osteoblasts.
    • The perichondrium becomes the periosteum that contains a layer of undifferentiated cells (osteoprogenitor cells) which later become osteoblasts.
    • These osteoblasts secrete osteoid against the shaft of the cartilage model (Appositional Growth).

  • Bone Remodeling

    • Osteoblasts and osteoclasts, coupled together via paracrine cell signaling, are referred to as bone remodeling units.
    • Recent research has suggested that certain growth factors may work to locally alter bone formation by increasing osteoblast activity.
    • Fibroblast growth factor activates various cells of the bone marrow including osteoclasts and osteoblasts.
    • The release of these growth factors from the bone matrix could cause the proliferation of osteoblast precursors.
    • Bone tissue is removed by osteoclasts, and then new bone tissue is formed by osteoblasts.

  • Bone Scans

    • A bone scan picks up excessive osteoblastic activity, so it is useful for finding metastasized cancer tumors in the bone.
    • Nuclear bone scans are not to be confused with the completely different test often termed a "bone density scan," DEXA or DXA, which is a low exposure X-ray test measuring bone density to look for osteoporosis and other diseases where bones lose mass, without any bone re-building (osteoblastic) activity.
    • The nuclear medicine scan technique is sensitive to areas of unusual bone re-building activity because the radiopharmaceutical is taken up by osteoblast cells that build bone.
    • The technique, therefore, is sensitive to fractures and bone reaction to infections and bone tumors, including tumor metastases to bones, because all these pathologies trigger bone osteoblast activity.

  • Stages of Bone Development

    • This occurs with the synchronized action of osteoclasts and osteoblasts, cells that resorb and deposit bone, respectively.
    • Osteoblasts and osteoclasts, coupled together via paracrine cell signalling, are referred to as bone remodeling unit.
    • Bone tissue is removed by osteoclasts, and then new bone tissue is formed by osteoblasts.

  • Microscopic Anatomy of Bone

    • Bone matrix is laid down by osteoblasts as collagen, also known as osteoid.
    • Osteoid is hardened with inorganic salts, such as calcium and phosphate, and by the chemicals released from the osteoblasts through a process known as mineralization.

  • Capacity of Different Tissues for Repair

    • At this point, the mineralized matrix is penetrated by channels, each containing a microvessel and numerous osteoblasts.
    • The osteoblasts form new lamellar bone upon the recently exposed surface of the mineralized matrix.
    • The trabecular bone is first resorbed by osteoclasts, creating a shallow resorption pit known as a "Howship's lacuna. " Then osteoblasts deposit compact bone within the resorption pit.

  • Clinical Advances in Bone Repair

    • The porous bone-like properties of the metal foam contribute to extensive bone infiltration, allowing osteoblast activity to take place.