Healing And Repair - Fractures

Question 1

What is a fracture

Answer 1

A fracture is present when there is loss of continuity in bone 
 ranging from 
•multi fragmental 
•comminuted 
•hairline 
•microscopic
•close fracture = no open wounds
•open fracture = open wounded

Question 2

Bone and cartilage cells

Answer 2

1)Osteoblasts - produce new bone

2)Osteocytes- maintain the bone (mature bone cells) osteoblasts become trapped in the matrix= osteocytes
Reduced ability to synthesis bone
Routine turn over of matrix

3) Osteoclasts- Remove bone tissue- reabsorb bone
4) Osteoprigenerator cells- periosteum and endosteum- mature to osteoblasts Differentiate into osteoblasts when required I.e fracture

Cartilage cells:
Chondroblasts chondrocytes and chondroclasts

Chondroplasts:
immature cells — Produce extracellular matrix

Chondrocytes:
Mature cells — maintain extracellular matrix

Chondroclasts- absorb cartilage

Question 3

Fracture healing

Answer 3

Is a specialised type of wound healing involving a regeneration process rather than a repair process

Tissue formed in healing process is the same as the original tissue

Question 4

Primary fracture healing

Answer 4

Occurs in the presence of rigid fracture fixation i.e. no movement at fracture site

Question 5

Secondary fracture healing

Answer 5

Indirect bone healing with named stages and use of cartilage model

Occurs when there is a micro movement (stimulates repair process) at the fracture site

More common

Shafts or all long bones

Question 6

Stages of secondary fracture healing in long bones

Answer 6

1) Haematoma
2) Cellular proliferation/cartilage model formation
3) Callus formation
4) Consolidation of callus
5) Remodelling

Question 7

1)Haematoma

Answer 7

0-2 weeks

Haematoma occurs almost immediately after trauma occurs

Formation of a blood clot- occurs at time of fracture where there is rupture of localised blood vessels

Blood cells and platlets initiate a sequence of cellular events inflammatory response

Cellular proliferation and cellular differentiation eg osteoblasts and chrondroblasts

Torn blood vessels lead to necrosis bone end

New capillary buds sprout from undamaged vessels and grow towards the fracture site

Question 8

2)Cellular proliferation and cartridge model formation

Answer 8

0-2 weeks

Cartilage replaces Haematoma

Cellular activity on exterior + interior of bone

Differentiation and proliferation of stem cells into chondroblasts and osteoblasts

Cartlidge laid down by chondroblasts gradually replacing the heamotoma

Chondrocytes proliferate and hypertrophy releasing contents in the extracellular matrix

Cartilage model = gel like fusion between bone ends not solid disrupted by excess movement

Question 9

3)Callus formation

Answer 9

3-4 weeks UL
6-8 LL

New blood vessels bringing chondroclast and osteoblasts to fracture site

Osteoblasts lay down collagen and mineral salts to form woven bone

Chondroclasts remove Cartlidge model

External and internal bridging callus visible on x-ray

Question 10

Callus formation contd

Answer 10

6-12 weeks

Periosteum re-formed

Blood clot almost replaced by cellular tissue

Necrotic bone ends reabsorbed

Outcome stage= fracture union

There is some rigidity at the fracture site and movement of the part is allowed

excessive movement gap in bone can delay this process

Question 11

4)Consolidation of callus

Answer 11

6-8 weeks UL
12- 16 LL

Collagen fibers re-organised along lines of stress

Haversion systems start to reform in compact bone by the process of cutting cones

Outcome of this stage is sufficient bone strength to permit weight-bearing in normal use

Question 12

5) Remodelling

Answer 12

12 weeks UL
24 weeks LL

strengthening of bone along stress linesI osteoblasts

Surplus bone slowly removed by osteoclasts

Morrow cavity reformed

This stage may last for 18 months to 2 years fixation metalwork remains in situ for this time period

Question 13

Primary fracture healing process

Answer 13

Occurs when there is a rigid fixation by metalwork

Stem cells differentiate into osteoblasts straightaway to produce new bone not Condrablasts

Cutting cones process occurs at site i.e. osteoclasts tunnel across fracture site followed by information of new blood vessels and osteoblasts producing bone

Direct union without callus formation occurs

Question 14

Structure and healing of cancellous

Answer 14

Short bone healing etc

Loose meshwork
No haversion system
More straight forward

lined with stem cells- osteoblasts for new bone production

New bone nerve fibres blood supply grow out from each fragment and unite in the middle (direct healing)

Blood vessels and nerves interweave

Question 15

Process of fracture healing in cancellous bone

Answer 15

1) Haematoma
2) Proliferation of osteogenic cells at fracture surface
3) Intercellular metric slide down by osteoblasts
4) Calcification of matrix
5) Bone strength along lines of stress