Musculoskeletal Growth, Injury and Repair - Bones and Tendons

Question 1

What are ligaments?

Answer 1

• Dense band of collagenous tissue
• Connects bone to bone (or cartilage)

Question 2

What are ligaments anchored by?

Answer 2

• Span a joint
• Anchored to bone at either end

Question 3

What is the function of ligaments?

Answer 3

• Anchored to bone at either end
• Gives joint stability through range of positions

Question 4

What type of collagen makes up ligaments?

Answer 4

• Made of type 1 collagen fibres

Question 5

Describe the structure of ligaments?

Answer 5

• Made of type 1 collagen fibres
• Fibroblasts in them
• Sensory fibres
  
  • Proprioception (allows brain to know where the joint is in space)
  • Stretch
  • Sensory
• Vessels on the surface
  
  • Vessels are crimped to allow stretching

Question 6

What is the difference in the composition between ligaments and tendons?

Answer 6

• Composition, compared to tendons ligaments have
  
  • Lower percentage of collagen
  • Higher percentage of proteoglycans and water
  • Less organised collagen fibres
  • Rounder fibroblasts

Question 7

Which of ligaments and tendons have greater percentage of collagen?

Answer 7

Tendons

Question 8

Which of ligaments and tendons have higher percentage of proteoglycans and water?

Answer 8

Tendons

Question 9

Which of ligaments and tendons have more organised collagen fibres?

Answer 9

Tendons

Question 10

When does ligament rupture occur?

Answer 10

Ligament rupture occurs when forces exceed strength of ligament:

• Can be complete or incomplete
• Maybe lead to stability loss or proprioception loss

Question 11

Describe the process of ligaments healing?

Answer 11

• Haemorrhage
  
  • Blood clot is made that is then resorbed and replaced with heavier cellular infiltrate
• Proliferative phase
  
  • Production of scar tissue
  • Disorganised collagenous connective tissue
• Remodelling
  
  • Matrix becomes more ligament like
  • Major differences in composition, architecture and function persist

Question 12

What is the treatment for ligament rupture?

Answer 12

• Non-operative
  
  • Indicated in partial tears, complete tears where no loss of stability or patient poor candidate for surgery
  • Cast and immobilisation
• Operative
  
  • Indicated in instability
  • Can be repair, augmentation or replacement

Question 13

When is non-operative treatment indicated in ligament ruptures?

Answer 13

In partial tears or no loss of stability

Question 14

When is operative treatment indicated for ligament tears?

Answer 14

Indicated in instability

Question 15

Can tendons be seperated from muscles?

Answer 15

Tendons cannot be separated from muscle so thought of as muscle/tendon composite unit

Question 16

Describe the structure of tendons?

Answer 16

• Muscle origin (usually bone)
• Muscle belly
• Musculotendinous junction
• Tendon
  
  • With or without sesamoid bone such as patella
  • With or without tendon sheath
• Tendinous insertion (into bone), Sharpey’s fibres

Question 17

Describe the layers of a tendon?

Answer 17

• Layers
  
  • Collagen bundles covered by endotenon
  • Making fascicles covered by paratenon
  • Making tendon covered by epitenon

Question 18

How does blood supply tendons?

Answer 18

• Blood supply comes through vinculum and forms fine network of vessels in paratenon

Question 19

What are tendons formed from?

Answer 19

• Longitudinal arrangement of cells (mostly tenocytes) and fibres (collagen type 1)

Question 20

Tendons are connected to tendon sheath by what?

Answer 20

• Tendons connected to sheath by vincula

Question 21

What are the functions of tendons?

Answer 21

• Tendons are flexible and strong in tension
• Immobility reduces water content and glycosaminoglycan concentration falls reducing strength

Question 22

How does immobility affect tendons?

Answer 22

• Tendons are flexible and strong in tension
• Immobility reduces water content and glycosaminoglycan concentration falls reducing strength

Question 23

What are the different types of tendon injuries?

Answer 23

• Degeneration
  
  • Example of Achilles tendon
    
    • Intrasubstance mucoid degeneration
    • May be swollen, painful, tender
• Inflammation
  
  • Example de Quervain’s stenosing tenovaginitis
    
    • Tendons of EPB and APL passing through common tendon sheath at radial aspect of wrist
    • Swollen, tender, hot, rest
    • Positive Finklestein’s test
• Enthesiopathy
  
  • Inflammation at insertion to bone of muscle or tendon
    
    • Usually muscle origin and not tendon insertion
  • Due to repetitive injury
  • Can also get it in ligaments, example is plantar fasciitis
• Traction apophysitis
  
  • Example is Osgood schlatter’s disease
    
    • Insertion of patellar tendon into anterior tibial tuberosity with pain and swelling
    • Usually in adolescent active boys
    • Due to recurrent load with inflammatory component
    • Treatment is rest
• Avulsion with or without bone fragments
  
  • Failure at insertion
  • Load exceeds failure strength while muscle contracting
  • Classically called Mallet finger
    
    • Insertion of extensor tendon into dorsum of base of distal phalanx of finger
  • Treatment
    
    • Conservative
      
      • Limited application
      • Retraction tendon
    • Operative
      
      • Reattachment tendon
      • Fixation bone fragment
• Tear in the intrasubstance (rupture)
  
  • Happens when load exceeds failure strength
  • Example of Achilles tendon
    
    • Positive Simmond’s (squeeze) test
    • Palpable tender gap
• Tear in musculotendinous junction
• Laceration/incision
  
  • Affects males more than females
  • Normally young adults
  • Repair surgically and early

Question 24

What is the presentation of a degenerative tendon injury?

Answer 24

• Intrasubstance mucoid degeneration
• May be swollen, painful, tender

Question 25

What is an example of an inflammatory tendon injury?

Answer 25

de Quervain’s stenosing tenovaginitis

Question 26

What is the presentation of an inflammatory tendon injury?

Answer 26

• Swollen, tender, hot, rest
• Positive Finklestein’s test

Question 27

What is enthesiopathy?

Answer 27

• Inflammation at insertion to bone of muscle or tendon
  
  • Usually muscle origin and not tendon insertion

Question 28

What is the cause of enthesiopathy?

Answer 28

• Due to repetitive injury

Question 29

What is an example of traction apophysitis?

Answer 29

• Example is Osgood schlatter’s disease
  
  • Insertion of patellar tendon into anterior tibial tuberosity with pain and swelling
  • Usually in adolescent active boys
  • Due to recurrent load with inflammatory component
  • Treatment is rest

Question 30

What is traction apophysitis?

Answer 30

When excessive pull on a large tendon causes damage to apophysis

Question 31

What is avulsion with or without bone fragments?

Answer 31

• Failure at insertion of tendon
• Load exceeds failure strength while muscle contracting

Question 32

What causes avulsion with or without bony fragments of tendon?

Answer 32

• Load exceeds failure strength while muscle contracting

Question 33

What is an example of avulsion with or without bony fragments?

Answer 33

• Classically called Mallet finger
  
  • Insertion of extensor tendon into dorsum of base of distal phalanx of finger

Question 34

What is the treatment of avulsion with or without bone fragments?

Answer 34

• Conservative
  
  • Limited application
  • Retraction tendon
• Operative
  
  • Reattachment tendon
  • Fixation bone fragment

Question 35

What is a tear in the intrasubstance of a tendon also called?

Answer 35

Ruptured tendon

Question 36

What causes a tendon to rupture?

Answer 36

• Happens when load exceeds failure strength

Question 37

What is the presentation of a tendon rupturing?

Answer 37

• Positive Simmond’s (squeeze) test
• Palpable tender gap

Question 38

What is the treatment for laceration/incision of a tendon?

Answer 38

• Repair surgically and early

Question 39

What is the treatment of tendon ruptures?

Answer 39

• Conservative
  
  • Done where ends can be opposed
  • Mobilise if partial rupture, use splint/cast
• Operative
  
  • Done when high risk of re-rupture of ends cannot be opposed

Question 40

What are the 5 phases of bone growth?

Answer 40

1. Hyaline cartilage model
2. Primary ossification centre allowing growth
3. Secondary ossification centre at each end
4. Medullary cavity formed as bone continues to grow
5. Epiphyseal plate forms at end of long bone, which closes on maturity

Question 41

Describe the anatomy of a long bone?

Answer 41

• Diaphysis (shaft)
• Metaphysis
  
  • Flare at end of shaft
• Epiphysis
  
  • On joint side of physis
• Epiphysis growth plate
• Medullary canal

Question 42

Compare and contrast cortical and cancellous bone?

Answer 42

Question 43

What does cortical bone resist and what does cancellous bone resist?

Answer 43

Cortial - bending, torsion

Cancellous - compression

Question 44

Which of cortical and cancellous bone is more biologically active?

Answer 44

Cancellous bone

Question 45

What is a fracture?

Answer 45

Fracture = break in structural continuity of bone

Question 46

In clinical practice, what symbol indicates a fracture?

Answer 46

”#”

Question 47

What are causes of bones fracturing?

Answer 47

• High energy transfer in normal bones (takes a lot of energy)
• Repetitive stress in normal bones (stress fracture)
• Low energy transfer in abnormal bones (maybe older people)
  
  • Osteoporosis
  • Osteomalacia, metastatic tumour
  • Other bone disorders

Question 48

What is delayed union of a fracture?

Answer 48

Delayed union is when fracture fails to heal in expected time:

Question 49

What are some causes of delayed union of a fracture?

Answer 49

• Can occur due to anything that can interfere with repair
  
  • High energy injury
  • Distraction (fracture ends are not close together)
  • Instability
  • Infection
  • Steroids
  • Immune suppressants
  • Smoking
  • Warfarin
  • NSAID
  • Ciprofloxacin
• When this happens consider alternative management
  
  • Different fixation dynaminisation bone grafting

Question 50

What is non-union of a fracture?

Answer 50

Non-union is failure to heal, which can occur due to:

• Failure calcification fibrocartilage
• Instability
• Abundant callus formation

Question 51

What are some causes of non-union of a fracture?

Answer 51

• Failure calcification fibrocartilage
• Instability
• Abundant callus formation

Question 52

What are the clinical features of non-union of a fracture?

Answer 52

• Pain and tenderness
• Persistent fracture line
• Sclerosis

Question 53

What does fracture biology occur due to?

Answer 53

• Due to mechanical and structural failure of the bone and disruption of blood supply

Question 54

What is very unique about the fracture regeneration process?

Answer 54

Leaves no scar

Question 55

What are the 4 stages of fracture regeneration?

Answer 55

1) Inflammation
2) Soft callus
3) Hard callus
4) Bone remodelling

Question 56

Descibe the steps of phase 1 (inflammation) of fracture regeneration?

Answer 56

• Begins immediately after fracture when haematoma and fibrin clot released into area
• Platelets, PMNs, neutrophils, monocytes and macrophages released
• Local areas of cell death released lysosomal enzymes, creating biological mix designed to get new cells in for repair (following migrate in)
  
  • Fibroblasts
  • Mesenchymal and osteoprogenitor cells
    
    • These are transformed endothelial cells from medullary canal and/or periosteum
    • Also get osteogenic induction of cells from muscle and soft tissues
  • Angiogenesis
    
    • Oxygen gradient required (low oxygen in fracture)
    • Macrophages produce angiogenic factors under hypoxic conditions

Question 57

What can doctors do to assist phase 1 (inflammation) of fracture regeneration?

Answer 57

• What doctors can do, give the patient platelet concentrates
  
  • Platelet derived growth factor (PDGF)
  • Transforming growth factor beta (TGF-B)
  • Insulin like growth factor (IGF)
  • Vascular endothelial growth factor (VEGF)

Question 58

What does PDGF stand for?

Answer 58

Platelet derived growth factor

Question 59

What does TGF-B stand for?

Answer 59

Tranforming growth factor beta

Question 60

What does IGF stand for?

Answer 60

Insulin like growth factor

Question 61

What does VEGF stand for?

Answer 61

Vascular endothelial growth factor

Question 62

Describe stage 2 (soft callus) of fracture regeneration?

Answer 62

• Begins when pain and swelling subside, lasting until bony fragments are united by cartilage or fibrous tissue
• Continued increase in vascularity

Question 63

What can doctors do to assist phase 2 (soft callus) of fracture regeneration?

Answer 63

• Replace cartilage – DMB (demineralised bone matrix)
• Bone graft or bone substitutes
  
  • Autogenous cancellous bone graft is the gold standard
    
    • Is osteoconductive and osteoinductive (allows cells to grow in)
  • Can use allograft bone from other patients
    
    • Risk of disease transmission
    • Not osteoinductive but is osteoconductive

Question 64

What does osteoconductive and osteoinductive mean?

Answer 64

Osteoinduction - process where osteogenesis is induced

Osteoconductive - bone graft material acts as scaffolding for new bone growth

Question 65

Describe stage 3 (hard callus) of fracture regeneration?

Answer 65

• Conversion of cartilage to woven bone
  
  • Endochondral and membranous bone formation

Question 66

Describe stage 4 (bone remodelling) of fracture regeneration?

Answer 66

• Conversion of woven bone to lamellar bone
• Medullary canal is reconstituted
• Bone responds to loading characteristics Wolff’s Law (becomes stronger in direction of load)
  
  • If strain is too high or too low healing will not be correct
    
    • If too low mechanical induction of tissue differentiation fails
    • If too high healing progress does not progress to bone formation

Question 67

What is Wolff’s law?

Answer 67

• Bone responds to loading characteristics Wolff’s Law (becomes stronger in direction of load)
  
  • If strain is too high or too low healing will not be correct
    
    • If too low mechanical induction of tissue differentiation fails
    • If too high healing progress does not progress to bone formation

Question 68

What happens if strain on newly growing bone is too high?

Answer 68

• Bone responds to loading characteristics Wolff’s Law (becomes stronger in direction of load)
  
  • If strain is too high or too low healing will not be correct
    
    • If too low mechanical induction of tissue differentiation fails
    • If too high healing progress does not progress to bone formation

Question 69

What happens if strain on newly growing bone is too low?

Answer 69

• Bone responds to loading characteristics Wolff’s Law (becomes stronger in direction of load)
  
  • If strain is too high or too low healing will not be correct
    
    • If too low mechanical induction of tissue differentiation fails
    • If too high healing progress does not progress to bone formation