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1. The skeleton is formed by hyline cartilage model.
2. The outer layer covering the bone begins to form around the outside.
3. Osteoblast form bone beneath the periosteum. This is called a bone collar and this will become compact bone.
4. At the center of the diaphysis the cartilage cells die creating a cavity.
5. Blood vessels grow into this cavity from the periosteum and deliver osteoblast to the area.
6. Ossification begins around the medullar cavity, this is spongy bone.
7. The same process now occurs in the epiphyses. Steps 4-6.
8. All cartilage is ossified except the areas between the diaphysis and epiphysis. This area is the epiphyseal plate also known as the growth plate. The cartilage cells here continues to divide and ossification occurs at the outer borders allow for longitudinal growth.
9. Cartilage also remains at the ends of the bone, this is the articular cartilage at the joint
Development of the cartilage model: mesenchymal cells form shape of the bone and develop into chondroblasts that form hyaline cartilage model.
2.Growth of the cartilage model: Chondroblast become chondrocytes. Some
chondrocytes hypertrophy-burst; causing a pH change which initiates calcification
of cartilage model. Growth in length: chondroblasts go through interstitial growth.
Growth in thickness: new chondroblasts are produced by perichondrium.
3.Development of the primary ossification center: nutrient artery penetration in
the middle diaphysis induces perichondrium cells in the perichondrium to
differentiate into osteoblasts; later becomes periosteum. Osteoblasts deposit
spongy bone; primary ossification spreads from out to inward and towards both
ends of cartilage model.
4.Development of marrow cavity: Osteoclast breaks down some of the newly
formed spongy bone trabeculae leaving a marrow cavity and osteoblasts replace
spongy bone with compact bone in the diaphysis.
5.Development of the secondary ossification center: Blood vessels penetrate the epiphyses, allowing ossification to start in the middle of the epiphysis and work outwards in both directions.6.Formation of the articular cartilage and epiphyseal plate: Hyaline
cartilage becomes the articular cartilage and later becomes the epiphyseal plate
a bone collar forms around the diaphysis of the hyaline cartilage model. the cartilage in the center of the diaphysis calcifies and then cavitates. the periosteal bud invades the internal cavities and spongy bone forms. the diaphysis elongates and a medullary cavity forms. the epiphyses ossify.
Endochondral Ossification: bones begin as hyaline cartilage model. This happens in most
bones of the skeleton and these are called endochondral bones.The hyaline cartilage model has a primary ossification center and secondary ossification centers.This all begins in the second month of development when breakdown of hyaline cartilage occurs.
The Stages of Endochondral Ossification are:
1. Formation of what is called a bone collar
2. Cavities or holes in the hyaline cartilage
3. Invasion of internal cavities by the periosteal bud, and then spongy bone formation.
4. Formation of the medullary (middle cavity); appearance of secondary ossification centers in the epiphyses (ends).
5. Ossification of the epiphyses, with hyaline cartilage remaining only in the epiphyseal plates (for growth).
the formation of bone from pre-existing hyaline cartilage models
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What is the type of ossification in bones preformed in cartilage?
Endochondral ossification is the type of ossification in bones that are formed in cartilage. This process involves the replacement of cartilage by bone during development and growth.
What type of ossification does hyaline cartilage ossify by?
Hyaline cartilage ossifies through endochondral ossification, which involves the replacement of cartilage by bone during skeletal development. This process begins with a cartilage template that is gradually replaced by bone tissue.
What are most developmental bones made of in the embryo?
Most developmental bones in the embryo are made of cartilage, which later ossifies (hardens) to form bone. This process is known as endochondral ossification.
The majority of bones in the human body are formed through?
The majority of bones in the human body are formed through a process called endochondral ossification, where a cartilage model is gradually replaced by bone tissue. This process allows for the growth and development of long bones, such as those in the arms and legs.
What type of ossification occurs in the roof of the skull?
Intramembranous ossification
Ossification that involves replacing cartilage with bone is?
endochondral ossification.
What is the process by which bones form?
ossification
What are the two types of ossification?
Intramembranous and Endochondral Ossification
How was bones form?
There are two ways bones are formed, intramembranous ossification, and endochondral ossification. Intramembranous ossification is how the flat bones are formed, while the long bones are formed with endochondral ossification.
What is the type of ossification in bones preformed in cartilage?
Endochondral ossification is the type of ossification in bones that are formed in cartilage. This process involves the replacement of cartilage by bone during development and growth.
Most bones of the body form by which type of ossification?
Intramembranous ossification
Does endochondral ossification begins on fibrous connective tissue membranes?
No, INTRAMEMBRANOUS OSSIFICATION, is developed from a fibrous membrane. Essentially all bones below the base of the skull (except the clavicles) are formed from endochondral ossification. Endochondral ossification uses hyaline cartilage "bones" as a pattern for forming true bones.
The long bones of the body are developed by what type of ossification?
The long bones of the body are developed by endochondral ossification. This process involves the replacement of a hyaline cartilage model with bone tissue during skeletal development.
What is chondrofication?
Process of making cartiledge in endochondral ossification
What is the name of the mechanism in which long bones ossify?
Endochondral ossification.
What is the original source of osteoblasts in endochondral ossification?
Hyaline Cartilage
What is the primary center for endochondral ossification or long bones?
diaphysis
