Every living cell effects metabolism,which is the sum total of all cell activity in an organism. Some cells metabolise slower or faster than others. Dr R Skinner
Cellular metabolism takes place in bone cells in the same way that it takes place in any other cells. The outer layer of the bone, composed of calcium phosphate, is a secretion, not composed of living cells, but living cells are in the interior section or marrow of the bone.
Bone is a tissue, it is living in a sense <doesn't have consciousness. There are small channells in the bone tissue that nourish it. A healthy bone grows, it supports and is involved in production of blood. Bones are made of cells, like all tissues, the cells have a metabolism.
In a laboratory setting, the presence of dmem glucose can affect cellular metabolism by providing a source of energy for the cells to use in various metabolic processes. Glucose is a key fuel for cells, and its presence can influence the rate at which cells grow, divide, and produce energy.
Leukemia can affect the skeletal system by causing bone pain, bone weakness leading to fractures, and reduced bone marrow production of red and white blood cells and platelets. It can also lead to an increase in immature white blood cells in the bone marrow, impacting bone health and function.
No, bone cancer does not affect teeth because teeth are not made of bone tissue. However, there are types of cancer that can affect the mouth and jaw bones, but these would not be considered bone cancer of the teeth specifically.
During a mastoidectomy, the mastoid air cells located in the mastoid bone are removed. These air cells are typically removed to treat chronic ear infections or other diseases that affect the mastoid bone which houses these cells.
. Osteogenic cells respond to traumas, such as fractures, by giving rise to bone-forming cells and bone-destroying cells. Osteoblasts (bone-forming cells) synthesize and secrete unmineralized ground substance and are found in areas of high metabolism within the bone. Osteocytes are mature bone cells made from osteoblasts that have made bone tissue around themselves. These cells maintain healthy bone tissue by secreting enzymes and controlling the bone mineral content; they also control the calcium release from the bone tissue to the blood. Osteoclasts are large cells that break down bone tissue. They are very important to bone growth, healing, and remodeling. The last type of cells are bone-lining cells. These are made from osteoblasts along the surface of most bones in an adult. Bone-lining cells are thought to regulate the movement of calcium and phosphate into and out of the bone.http://www.mnsu.edu/emuseum/biology/humananatomy/skeletal/cells.htmlholy cow ur good. thanx, thisll help me on my project. yahoo!
No, a bone scan shows bone metabolism.
Bone cells, primarily osteoblasts, produce several key proteins that are essential for bone formation and maintenance. The most notable of these are collagen type I, which provides structural support, and osteocalcin, which is involved in bone mineralization and energy metabolism. Osteopontin and bone sialoprotein are also produced, playing roles in cell adhesion and the regulation of mineralization. Together, these proteins contribute to the overall integrity and functionality of bone tissue.
yes, i think. how can it be call bone cells if its outside the bone??
Bone cells originate from mesenchymal stem cells, which are multipotent progenitor cells found in the bone marrow and other tissues. These stem cells differentiate into various types of bone cells, including osteoblasts (bone-forming cells), osteocytes (mature bone cells), and osteoclasts (bone-resorbing cells). The process of differentiation is influenced by various factors, including hormones and mechanical stress on the bones.
If one of the three types of bone cells—osteoblasts, osteocytes, or osteoclasts—were missing, the balance of bone metabolism would be disrupted. For instance, if osteoblasts were absent, new bone formation would be severely impaired, leading to weakened bone structure over time. Conversely, if osteoclasts were missing, bone resorption would be insufficient, potentially resulting in excessive bone density and brittleness. Ultimately, the absence of any one type of bone cell would compromise the overall health and function of bone tissue.