Session 7: Bone Flashcards
Define endochondral ossification.
Replacement of a pre-existing hyaline Cartilage template by bone.
Describe the difference sections of a long bone.
- Diaphysis (shaft)
- Metaphysis (wide portion which contains epiphyseal growth plates)
- Epiphysis (end part)
Describe the process of long bone development.
Endochondral Ossification
- Initial hyaline Cartilage model
- Collar of compact bone appears at shaft
- Primary ossification centre forms (calcification by osteogenic cells)
- Medulla becomes cancellous bone/ secondary ossification centres/ epiphyseal growth plates form
- Epiphysis calcifies
- Epiphyseal growth plates replaced by bone
What is intramembranous ossification?
Increase in girth of bone
Define intramembranous ossification.
Thickening of flat bones at periosteal surfaces (appositional growth)
Name 3 flat bones.
- Skull
- Clavicle (collar bone)
- Pelvic bones
Describe the stages of intramembranous ossification.
- Mesenchymal stem cells form clusters (nidus)
- MSC become osteoprogenitor cells
- Osteoprogenitor cells become osteoblasts
- Lay down ECM (containing Type I collagen)- ostoid
- Mineralises to form spicules
- Spicules join and form trabeculae (woven bone)
TRUE OR FLASE: Osteoclasts have multiple nuclei.
True
What structures carry vessels within compact bone?
Haversian and volkmann’s canals
Does this description match mature or immature bone?
- osteocytes arranged in concentric lamellae of osteons
- re-adsorprion cancels running parallel
Mature
How do osteocytes share nutrients?
Long cytoplasmic processes connecting via gap junctions
Why does spongy bone have no Haversian or volkmanns canals?
No requirement for external nutrient supply
What cell type is essential in bone remodelling?
Osteoclasts
Describe the stages of fracture repair.
- Haematoma forms (clot)
- Fibrocartilaginous callus formation (tissue rich in cappliaries and fibroblasts)
- Bony callus formation (trabeculae develop)
- Fracture repair
Define autograft
Donor is recipient
