Anywhere there CAN be bone. Eventually. The first place seems to be the clavecal . At least 7 to 12 months... However, there is ossification in the ciliary muscles just about first. Life before the eyes nearly get focused.... As a rule, almost nobody goes there. And only sort of long bones or bones that can be counted without a microscope seem to be considred. We are a people of vision, or at least sight. In short, as a people, we post-europeans, asians, and just about everybody but the Arunta, operate on the theory, that if you cant see it easy, it is probabaly not there. For the benifit of the culture, anywhere there is bone, muscle or mamalian tissue with any kind of stress and a supply of calcium to be deposited. That's a quick and dirty answer.
Bone growth occurs primarily at the ends of long bones where growth plates, also known as epiphyseal plates, are located. These growth plates are responsible for lengthening bones during childhood and adolescence. Additionally, bones can also undergo remodeling throughout life in response to mechanical stress or injury.
Ossification occurs wherever bone can form.
The first place seems to be the clavicle, at an age of 7 to 12 months. There is ossification in the ciliary muscles about the same time. Often only long bones or bones of a visible size seem to be considered. But ossification can occur anywhere there is bone, muscle or mammalian tissue with any kind of stress and a supply of calcium.
Ossification is the action of producing bone. Bone is constantly removed and laid down by two types of cells; osteoclasts remove bone and osteoblasts lay down new bone. The osteoclasts use a peroxide method to dissolve bone and the osteoblasts lay down a mineral matrix to create new bone. As we grow and exercise the two work together to reshape bone. This continues for our whole lives.
It occurs in the epiphyseal plate
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The process of laying down new bone.
The centers of ossification.
The epiphyseal line or the growth plate.
Bone growth is controlled by a variety of factors, including growth plates found at the ends of long bones. At around age 20, these growth plates ossify and turn into solid bone, which signals the end of longitudinal bone growth. After this point, bone remodeling and maintenance occur instead of growth.
After the growth plates close, the bones stop growing in length and overall height, leading to what is known as longitudinal growth. However, bones can still continue to grow in thickness through a process called appositional growth, where new bone tissue is added to the outer surface.
Bone growth in long bones occurs at the growth plates, also known as epiphyseal plates. These are cartilage plates located at the ends of long bones where new bone is formed as cartilage cells proliferate and get replaced by bone tissue. This process allows bones to lengthen during growth.
The process of bones increasing in width is called appositional growth. This occurs when new bone tissue is added to the existing bone surface, resulting in an increase in bone diameter.
Longitudinal bone growth occurs until the growth plates, also known as epiphyseal plates, close. This typically happens around the age of 18 in girls and 20 in boys. After the growth plates close, bones stop growing in length.
epiphyseal plates
Epiphyseal plate
Bone growth is controlled by a variety of factors, including growth plates found at the ends of long bones. At around age 20, these growth plates ossify and turn into solid bone, which signals the end of longitudinal bone growth. After this point, bone remodeling and maintenance occur instead of growth.
Appositional growth occurs in the periosteum, where new bone tissue is added to the surface. Interstitial growth, on the other hand, occurs within the bone itself, at the epiphyseal plates during growth.
After the growth plates close, the bones stop growing in length and overall height, leading to what is known as longitudinal growth. However, bones can still continue to grow in thickness through a process called appositional growth, where new bone tissue is added to the outer surface.
Osteomas is a general term for a bony growth on the surface of a bone, but there are many more specific diagnoses depending on the morphology of the tumor. A more specific type of benign tumor on the surface of bone is an osteochondroma, made up of both bone and cartilage. Exostosis is another type of bony growth on bone.
Bone growth in long bones occurs at the growth plates, also known as epiphyseal plates. These are cartilage plates located at the ends of long bones where new bone is formed as cartilage cells proliferate and get replaced by bone tissue. This process allows bones to lengthen during growth.
Longitudinal bone growth occurs until the growth plates, also known as epiphyseal plates, close. This typically happens around the age of 18 in girls and 20 in boys. After the growth plates close, bones stop growing in length.
The process of bones increasing in width is called appositional growth. This occurs when new bone tissue is added to the existing bone surface, resulting in an increase in bone diameter.
The appearance of the growth plate closure, also known as the epiphyseal line, signals the end of bone growth in long bones. This happens when the cartilage in the growth plate is replaced by bone, indicating that growth has ceased in that particular bone.
When the epiphyseal plate is replaced by bone, then growth at that bone stops.
Bone growth stimulation is the technique of promoting bone growth in difficult to heal fractures by applying a low electrical current or ultrasound to the fracture.