Difference between revisions of "Bone & Cartilage Development - Anatomy & Physiology"
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− | + | <big><center>[[Developmental Biology - Anatomy & Physiology|'''BACK TO DEVELOPMENTAL BIOLOGY]]</center></big> | |
+ | |||
==Introduction== | ==Introduction== | ||
− | + | Osteogenesis is the formation of [[Bones and Cartilage - Anatomy & Physiology#Types of Bone|bone]]. Bone forms from one of three lineages; the skull forms from [[Developmental Biology - Neurogenesis - Anatomy & Physiology#Neural Crest|neural cest]]; the limb skeleton forms from lateral plate mesoderm; and the axial skeleton forms from paraxial mesoderm (sclerotome). There are two methods of osteogenesis. Both involve the transformation of pre - existing mesenchymal tissue into bone. | |
+ | #'''Intramembranous Ossification''' - direct conversion of mesenchymal tissue into bone. Occurs in production of the skull. | ||
+ | #'''Endochondrial Ossification''' - mesechymal tissue first differentiates into [[Bones and Cartilage - Anatomy & Physiology#Structure and Function of Cartilage|cartilage]], then into bone. This occurs in the production of limb and axial skeleton. | ||
+ | #*Limb cartilage is produced in a proximal to distal direction as a continuous structure. It becomes punctuated with [[Developmental Biology - Anatomy & Physiology#Joints|joints]] later, and then converted to bone. | ||
− | |||
− | == | + | ==Endochondrial Ossification== |
− | + | *''Bone formation via cartilage.'' | |
+ | #Proliferating limb mesenchyme condenses. | ||
+ | #The increased cell density triggers mesenchymal cells to differentiate into chondrocytes. Proliferation continues. | ||
+ | #The bone shape is formed, with a diaphysis (shaft) and epiphysis (bulbous ends). | ||
+ | #Chondrocytes in the middle of the diaphysis stop proliferating and undergo '''hypertrophy'''. | ||
+ | #*''The shaft is surrounded by the '''perichondrium''', a restrictive membrane. This means that the bone can only grow in length, not width. The epiphysis are pushed away from each other.'' | ||
+ | #After chondrocytes have undergone hypertrophy, they die. | ||
+ | #*'''Osteoblasts''' on the inner side of the perichondrium invade the cartilage matrix. | ||
+ | #*They then secrete the extra - cellular matrix characteristic of bone. | ||
+ | #*''Ossification occurs from the outside - in. This is called primary ossification, or perichondrial ossification.'' | ||
+ | #Blood vessels invade the central region of the diaphysis to transport bone marrow stem cells and osteoclasts. | ||
+ | #*The osteoclasts break down the cartilage matrix to allow room for the bone marrow. | ||
+ | #There is no perichondrium surrounding the eiphysis. | ||
+ | #*This allows for expansion in length of the bone, but means that there are no surrounding oasteoblasts to invade. | ||
+ | #*To achieve osteogenesis, blood vessels invade from the diaphysis and carry osteoblasts with them. | ||
+ | #*''In the epiphysis, osteoblasts initiate bone growth from the inside - out. This is called secondary ossification.'' | ||
+ | #*In some mammals, secondary ossification occurs after birth. | ||
+ | #The bone becomes covered in a layer containing osteoblasts. | ||
− | + | *Cartilage is ''not replaced by bone'' in two areas: | |
+ | :In between the diaphysis and epiphysis, a region called the '''epiphyseal growth plate (EPG)'''. | ||
+ | :At the ends of the epiphysis, between the joints. Acts as a '''shock absorber'''. | ||
− | + | ==Bone Growth== | |
− | + | ===Length=== | |
+ | *The '''epiphyseal growth plate (EPG)''' allows the bone to continue to grow in length after birth. | ||
+ | *The EPG is a region of continuous chondroblast differentiation and maturation. | ||
+ | *The EPG is divided into five zones: | ||
− | + | #'''Germinal Zone''' - chondroblast division at a low rate, and self renewal. | |
+ | #'''Proliferation Zone''' - chondroblast division at a fast rate. | ||
+ | #'''Maturation Zone''' - chondroblast differentiation into chondrocytes. | ||
+ | #'''Hypertrophic Zone''' - chondrosytes enlarge and then die. | ||
+ | #'''Dead cells''' become the matrix for bone growth. | ||
− | + | ===Girth=== | |
− | + | *The '''perisosteum''' lines the outer surfae of the diaphysis of the bone. | |
+ | **It has a cellular inner layer, consisting of osteoblasts, and a fibrous outer layer. | ||
+ | *The '''endosteum''' lines the inner surface of the diaphysis of the bone. | ||
+ | **It contains osteoblasts ''and'' osteoclasts. | ||
+ | *''Bone growth occurs by a shift in the equilibrium between osteoblasts and osteoclasts''. | ||
+ | **Osteoblasts on the outside in the periosteum, add bone to increase the bone's diameter. | ||
+ | **Osteoclasts on the inside in the endosteum remove this bone to maintain bone diameter. | ||
+ | **When osteoclasts start removing less bone, or osteoblasts start adding more bone, the girth increases. | ||
− | + | ==Joint Formation== | |
− | + | *Joints begin to form as the mesenchyme is condensing. | |
− | + | *Joint - forming cells develop different characteristics to cartilage precursors; they are flat and densely packed. | |
− | + | *The region where these joint - forming cells exist is called the "interzone". | |
− | + | *There are three layers in the interzone; a middle layer of low density with regions of high density either side. | |
+ | **The high density regions form cartilage. | ||
− | + | <big><center>[[Developmental Biology - Anatomy & Physiology|'''BACK TO DEVELOPMENTAL BIOLOGY]]</center></big> | |
− | [[ |
Revision as of 13:03, 31 August 2008
Introduction
Osteogenesis is the formation of bone. Bone forms from one of three lineages; the skull forms from neural cest; the limb skeleton forms from lateral plate mesoderm; and the axial skeleton forms from paraxial mesoderm (sclerotome). There are two methods of osteogenesis. Both involve the transformation of pre - existing mesenchymal tissue into bone.
- Intramembranous Ossification - direct conversion of mesenchymal tissue into bone. Occurs in production of the skull.
- Endochondrial Ossification - mesechymal tissue first differentiates into cartilage, then into bone. This occurs in the production of limb and axial skeleton.
- Limb cartilage is produced in a proximal to distal direction as a continuous structure. It becomes punctuated with joints later, and then converted to bone.
Endochondrial Ossification
- Bone formation via cartilage.
- Proliferating limb mesenchyme condenses.
- The increased cell density triggers mesenchymal cells to differentiate into chondrocytes. Proliferation continues.
- The bone shape is formed, with a diaphysis (shaft) and epiphysis (bulbous ends).
- Chondrocytes in the middle of the diaphysis stop proliferating and undergo hypertrophy.
- The shaft is surrounded by the perichondrium, a restrictive membrane. This means that the bone can only grow in length, not width. The epiphysis are pushed away from each other.
- After chondrocytes have undergone hypertrophy, they die.
- Osteoblasts on the inner side of the perichondrium invade the cartilage matrix.
- They then secrete the extra - cellular matrix characteristic of bone.
- Ossification occurs from the outside - in. This is called primary ossification, or perichondrial ossification.
- Blood vessels invade the central region of the diaphysis to transport bone marrow stem cells and osteoclasts.
- The osteoclasts break down the cartilage matrix to allow room for the bone marrow.
- There is no perichondrium surrounding the eiphysis.
- This allows for expansion in length of the bone, but means that there are no surrounding oasteoblasts to invade.
- To achieve osteogenesis, blood vessels invade from the diaphysis and carry osteoblasts with them.
- In the epiphysis, osteoblasts initiate bone growth from the inside - out. This is called secondary ossification.
- In some mammals, secondary ossification occurs after birth.
- The bone becomes covered in a layer containing osteoblasts.
- Cartilage is not replaced by bone in two areas:
- In between the diaphysis and epiphysis, a region called the epiphyseal growth plate (EPG).
- At the ends of the epiphysis, between the joints. Acts as a shock absorber.
Bone Growth
Length
- The epiphyseal growth plate (EPG) allows the bone to continue to grow in length after birth.
- The EPG is a region of continuous chondroblast differentiation and maturation.
- The EPG is divided into five zones:
- Germinal Zone - chondroblast division at a low rate, and self renewal.
- Proliferation Zone - chondroblast division at a fast rate.
- Maturation Zone - chondroblast differentiation into chondrocytes.
- Hypertrophic Zone - chondrosytes enlarge and then die.
- Dead cells become the matrix for bone growth.
Girth
- The perisosteum lines the outer surfae of the diaphysis of the bone.
- It has a cellular inner layer, consisting of osteoblasts, and a fibrous outer layer.
- The endosteum lines the inner surface of the diaphysis of the bone.
- It contains osteoblasts and osteoclasts.
- Bone growth occurs by a shift in the equilibrium between osteoblasts and osteoclasts.
- Osteoblasts on the outside in the periosteum, add bone to increase the bone's diameter.
- Osteoclasts on the inside in the endosteum remove this bone to maintain bone diameter.
- When osteoclasts start removing less bone, or osteoblasts start adding more bone, the girth increases.
Joint Formation
- Joints begin to form as the mesenchyme is condensing.
- Joint - forming cells develop different characteristics to cartilage precursors; they are flat and densely packed.
- The region where these joint - forming cells exist is called the "interzone".
- There are three layers in the interzone; a middle layer of low density with regions of high density either side.
- The high density regions form cartilage.