MSK Growth/Injury and repair – bone Flashcards
What are the differences between cortical and cancellous bone?
Cortical bone – diaphysis, resists – bending + torsion, laid down circumferentially, less biologically active.
Cancellous bone – metaphysis, resist/absorbs – compression, site of longitudinal growth, very biologically active
Describe what is meant by a fracture
A fracture is break in structural continuity of bone. May be a crack, split, crumpling, buckle.
Why may bones fail?
High energy transfer in normal bones – takes a lot of energy.
Repetitive stress in normal bones – stress fracture.
Low energy transfer in abnormal bones – osteoporosis, osteomalacia, metastatic tumour, other bone disorders.
Describe what is involved in stage 1 of fracture repair
Inflammation stage, Begins immediately after fracture.
Haematoma and fibrin clot
Platelets, PMN’s, neutrophils, monocytes, macrophages.
By products of cell death – lysosomal enzymes.
Involves:
- Fibroblasts
- Mesenchymal and osteoprogenitor cells
- Angiogenesis
What are the mesenchymal and osteoprogenitor cells (stage 1 fracture repair)?
Mesenchymal: Transformed endothelial cells from medullary canal and/or periosteum.
Osteoprogenitor: Osteogenic induction of cells from muscle and soft tissues.
Describe what is involved in stage 2 fracture repair
Begins when pain and swelling subside. Lasts until bony fragments are united by cartilage or fibrous tissue. Some stability of fracture although Angulation can still occur. Continued increase in vascularity.
Describe what is involved in stage 3 fracture repair
Conversion of cartilage to woven bone. Typical long bone fracture – endochondral bone formation, membranous bone formation. Increasing rigidity – “secondary” bone healing, obvious callus (bony healing tissue).
Describe stage 4 fracture repair
Conversion of woven bone to lamellar bone. Medullary canal is reconstituted. Bone responds to loading characteristic Wolff’s Law (bone in a healthy person or animal will adapt to the loads under which it is placed.)
What is the role of strain in fracture healing?
Degree of instability is best expressed as magnitude of strain (% change of initial dimension). If strain is too low mechanical induction of tissue differentiation fails. Too high and healing process does not progress to bone formation.
What are the different categories of abnormal healing of bone?
Delayed union – failure to heal in expected time. Non-union – failure to heal.
What may be the reason for delayed union?
High energy injury. Distraction (increasing osteogenic jumping) Instability Infection Steroids Immunosuppressant Smoking Warfarin NSAIDs Ciprofloxacin
What can cause non-union?
Failure calcification fibrocartilage. Instability – excessive osteoclasts. Abundant callus formation. Pain + tenderness. Persistent fracture line. Sclerosis.
What would be the approach to delayed healing?
Consider alternative treatment:
- Different fixation
- Dynamisation
- Bone grafting
