calcification
Osteoblasts are responsible for secreting collagen and stimulating calcium phosphate deposition during the process of bone formation.
Bones contain hydroxyapatite, an inorganic salt.
The type of connective tissue matrix that is hard due to calcium salts and forms the hip bone is known as bone tissue, specifically osseous tissue. This matrix is mineralized, primarily composed of hydroxyapatite crystals, which provide strength and rigidity. Bone tissue also contains collagen fibers that contribute to its structural integrity and flexibility. Overall, this unique composition allows bones to support the body and protect vital organs.
Bone tissue appears almost exactly like the cross section of a tree. Each individual tree represents the functional unit of bone connective tissue, or an osteon. The center circle is called the Haversian, or central, canal. The blood and nerve supply of bone (remember, it's a living tissue; therefore, oxygen is delivered to bone via red blood cells and carbon dioxide is taken away) runs through the Haversian canal.
The type of tissue you are describing is osseous tissue, commonly known as bone tissue. It is characterized by a matrix that includes calcium salts and collagen fibers, which provide strength and rigidity. The structural components, such as lamellae (concentric layers) and lacunae (small cavities that house osteocytes), are essential for bone's support and maintenance functions. This specialized connective tissue plays a crucial role in the skeletal system.
ossification.
Osseous tissue has calcium, salts, and blood vessels.
bone (osseus) tissue
When cartilage becomes impregnated with calcium salts, it can transform into bone tissue through a process called endochondral ossification. This leads to the formation of bone tissue from a cartilaginous template.
Bone is not connective tissue. Instead, connective tissue -- ligaments and tendons -- connect to the bone.
Bone cells are called osteocytes, and the matrix of the bone is made of calcium salts and collagen. Bone tissue is the major structural and supportive connective tissue of the body.
The salts that form tiny crystals in the intercellular matrix of bone tissue consist largely of calcium and phosphate ions, specifically in the form of hydroxyapatite. These salts provide the bone with its strength and hardness, contributing to its overall structure and function.
Osteoblasts are responsible for secreting collagen and stimulating calcium phosphate deposition during the process of bone formation.
To form into bone; to change from a soft animal substance into bone, as by the deposition of lime salts., Fig.: To harden; as, to ossify the heart., To become bone; to change from a soft tissue to a hard bony tissue.
Bones contain hydroxyapatite, an inorganic salt.
The type of connective tissue matrix that is hard due to calcium salts and forms the hip bone is known as bone tissue, specifically osseous tissue. This matrix is mineralized, primarily composed of hydroxyapatite crystals, which provide strength and rigidity. Bone tissue also contains collagen fibers that contribute to its structural integrity and flexibility. Overall, this unique composition allows bones to support the body and protect vital organs.
Ossification is the process of bone formation, where cartilage is replaced by bone tissue. Calcification is the process of deposition of calcium salts in tissues, making them hard and rigid. While ossification specifically refers to bone formation, calcification can occur in various tissues in the body.