Osteoclasts are the cells responsible for eroding bone minerals through a process called bone resorption. These specialized cells break down the bone matrix, releasing minerals like calcium back into the bloodstream.
No, bone would sink in water because its density is greater than that of water. Bone is made up of minerals like calcium and phosphorus, which make it denser and heavier than water.
Minerals like calcium and phosphorus :)
Calcium and minerals are vital for maintaining bone health. Calcium is a key component of bone structure, while minerals like phosphorus and magnesium support bone formation and density. Inadequate levels of calcium and minerals can lead to weakened bones, increasing the risk of fractures and osteoporosis.
Vitamin D helps bone cells (osteoblasts and osteoclasts) absorb and utilize minerals like calcium and phosphorus for bone health and mineralization. It helps regulate the balance of these minerals in the body, supporting bone formation and strength.
Bones that are filled with liquid minerals that later harden are called trabecular or spongy bone. These bones have a lattice-like structure that is filled with bone marrow and blood vessels to support bone growth and repair. As the liquid minerals in the bone marrow harden, they give strength and structure to the bone.
they help give the bone strength so that they dont snap like a twig
Yes, bone does release salts, primarily in the form of minerals like calcium and phosphate. These minerals are essential for various bodily functions, including maintaining bone density and supporting metabolic processes. When the body requires these minerals, bone tissue can undergo a process called resorption, where osteoclasts break down bone and release the stored salts into the bloodstream.
I would like to be removed from facebook, totally.
Bone
wierd
Increasing the proportion of organic molecules in the bony matrix would likely make the bone more flexible and less brittle. This is because organic molecules provide elasticity and strength, while inorganic components like minerals provide hardness and rigidity. Balancing these components is important for maintaining the structural integrity of bone.