Children Orthopaedics

Question 1

How many bones are found within a paediatric skeleton?

Answer 1

270 bones

Question 2

Which regions of a paediatric skeleton is associated with growth post-natally?

Answer 2

Epiphyseal growth plates

Question 3

Which bones are formed from intramembranous bone development?

Answer 3

Mesenchymal Cells - bones, flat bones

Question 4

What are the examples of flat bones?

Answer 4

Facial bones, mandible & medial part of the clavicle

Question 5

Which bones are associated with endochondral ossification?

Answer 5

Mesenchymal  Cartilage  Bone  Long bones

Question 6

What is intramembranous ossification?

Answer 6

• Condensation of mesenchymal cells which differentiate into osteoblasts – ossification centre forms.
• Secreted osteoid traps osteoblasts which become osteocytes.
• Trabecular matrix and periosteum form. (Angiogenesis occurs and blood vessels are incorporated between woven bone).
• Compact bone develops superficial to cancellous. Crowded blood vessels condense into red bone marrow.

Question 7

Where does long bone formation occur?

Answer 7

At primary and secondary ossification centres

Question 8

What is the primary ossification centre?

Answer 8

Sites of pre-natal bone growth through endochondral ossification from the central part of the bone

Question 9

What are the secondary ossification centre?

Answer 9

Occurs post-natally after the primary ossification centre and long bones often have several

Question 10

What are the stages of endochondral primary ossification?

Answer 10

1. Mesenchymal differentiation at the primary centre
2. The cartilage model of the future bony skeleton forms
3. The capillaries penetrate cartilage – calcification at the primary ossification centre – spongy bone forms. Perichondrium transforms into periosteum.
4. Cartilage and chondrocytes continue to grow at ends of the bone
5. Secondary ossification centres develop with its own blood vessel and calcification at the proximal and distal end – calcification of the matrix.
6. Cartilage remains at epiphyseal (growth) plate and at joint surface as articular cartilage.

Question 11

What happens at secondary ossification centres?

Answer 11

Post bone growth occurs, at the physis

Long bone lengthening occurs at the physeal plate, containing cartilage (proliferation of chondrocytes and subsequent calcification of the extracellular matrix into immature bone that is subsequently remodelled0

Question 12

What happens at the epiphyseal side?

Answer 12

Hyaline cartilage active and dividing to form hyaline cartilage matrix

Question 13

What happens at the diaphysial side of bone?

Answer 13

Cartilage calcifies and necroses - replacement by bone

Question 14

What is the main difference between adult and paediatric skeleton?

Answer 14

1. Elasticity
2. Physis
3. Speed of Healing
4. Remodelling

Question 15

Where does continuous endochondral ossification happen?

Answer 15

At secondary ossification centre

Question 16

Compare the speed of healing in an paediatric skeleton compared to that of the adult?

Answer 16

The speed of healing is faster in a child

Question 17

Why is paediatric bone more elastic than adult bone?

Answer 17

Has an increased density of Haversian canals

Question 18

Why does plastic deformities occur within paediatric bone?

Answer 18

The energy is dissipated in altering the structure of the bone - bending prior to fracture

Question 19

What is a buckle fracture?

Answer 19

The bone buckles forming a torus-column prior to fracturing.
One side of the bone bends (does not break all the way through).

A stable fracture - bone fragments have no separated
Compression fracture

Question 20

What is a stable fracture?

Answer 20

Bone fragments have no separated

Question 21

What is a greenstick fracture?

Answer 21

One cortex fracture, however the other side remains intact (is bent)

Question 22

When does gradual physeal closure occur?

Answer 22

Menarche in females

Question 23

When does physeal closure occur in girls?

Answer 23

15-16

Question 24

When does physeal closure occur in boys?

Answer 24

18-19

Question 25

What classification is used to assess physeal injuries?

Answer 25

Salter-Harris Classification

Question 26

Why does premature failure occur?

Answer 26

Due to physeal injuries- significant trauma can elicit growth arrest

Question 27

What happens in patients with a partial arrest of bone growth?

Answer 27

Can manifest as deformities due to inconsistencies in bone growth between affected and non-affected areas

Question 28

What factors does the speed of healing and remodelling potential are dependant on?

Answer 28

Location

Age of patient

Question 29

Which physis of the skeleton grows more?

Answer 29

Knee

Question 30

Which bones within the skeleton exhibits faster growth rates?

Answer 30

Distal femur and proximal tibia exhibits faster growth rates as opposed to the proximal femur or ankle

Question 31

Why does the humerus tolerate angulation and deformity?

Answer 31

Due to spontaneous rate of repair and remodelling potential or paediatric bone

Question 32

What are the four common congenital conditions of bone growth?

Answer 32

Developmental dysplasia of the hip
Club foot
Achondroplasia
Osteogeneis imperfecta

Question 33

What is developmental dysplasia of the hip?

Answer 33

Group of disorders of the neonatal hip where the head of the femur is unstable or incongruous in relation to the acetabulum
‘Packaging disorder’

Question 34

What does the normal development of the hip rely on?

Answer 34

The normal development relies on the concentric reduction and balanced forces through the hip.

The hip needs to reside within the acetabulum (normal forces through the join)

Question 35

How common is hip dysplasia?

Answer 35

2:100

Question 36

What is dislocation?

Answer 36

2:1000

Question 37

Why does hip dysplasia occur?

Answer 37

Abnormal pressure through the acetabulum and hip dysplasia (not centrally placed within the socket)

Question 38

What are the risk factors of developmental dysplasia?

Answer 38

Female
First bone
Breech
Family history 
Oligohydraminos

Question 39

What is oligohydraminos?

Answer 39

Insufficient fluid within the amniotic sac reducing the hydrodynamics and pressure exerted onto the developing foetus in utero, by the amniotic fluid

Question 40

Which ethnicities are associated with developmental dysplasia of the hip?

Answer 40

Native American/Laplanders

Question 41

How is developmental dysplasia of the hip diagnosed?

Answer 41

Usually picked up on baby check- screening in the UK

Question 42

What are the movements of the developmental dysplasia?

Answer 42

Range of motion of hip
usually limitation in hip abduction
Leg length (Galeazzi)

Question 43

What investigations are conducted in patients with developmental dysplasia?

Answer 43

Ultrasound- birth to 4 months

After 4 months - X-ray

Question 44

Why is an X-ray non-beneficial in patients with development dysplasia within the first 4 months?

Answer 44

The primary ossification centres of hip have no yet ossified

Question 45

What is the treatment for neonates with developmental dysplasia of the hip?

Answer 45

Reducible hip and <6 months

Pavlik harness

Question 46

What is an abduction strap?

Answer 46

Maintains the abduction position of the hip joint such that the head of femur is held in the acetabulum, therefore, during development the concentric pressures through the joint an support normal growth

Question 47

What are the alternative treatments to dysplasia of the hip?

Answer 47

MUA and closed reduction and spica

Question 48

What is congenital talipes equinovarus?

Answer 48

There is congenital deformity of the foot

Question 49

Congenital deformities of the foot are common in what demographic?

Answer 49

Hawaiian

M 2:1 F

Question 50

Which gene is implicated in congenital talipes equinovarus?

Answer 50

PITX1 gene

Question 51

What is CAVE?

Answer 51

Deformity due to muscular contracture

Cavus – High arch: Tight intrinsic, flexor hallucis longus, flexor digitorum longus.
Adductus of foot: Tight posterior and anterior tibialis
Varus: Tight Tendoachilles, tib post, tip ant
Equinous: Tight Tendoachilles

Question 52

What is cavus?

Answer 52

High arch

Tight intrinsic , flexor hallucis longus, flexor digitorum longus

Question 53

What is the treatment for club deformity?

Answer 53

Ponseti method

Question 54

What is the Ponseti method?

Answer 54

1) First a series of casts to correct deformity
2) Many require operative treatment – soft tissue release
3) Foot orthosis brace (Sufficient to treat the deformity)
4) Some will require further operative intervention to correct final deformity

Question 55

Which gene is implicated in achodnroplasia?

Answer 55

G380 mutation of FGFR3

Question 56

What is achondroplasia?

Answer 56

Skeletal dysplasia that is characterised by an autosomal dominant condition

Question 57

Why does achondroplasia occur?

Answer 57

Inhibition of chondrocyte proliferation in the proliferative zone of the physis

Results in defect in endochondral bone formation

Question 58

What is rhizomelic dwarfism?

Answer 58

Humerus shorter than the forearm
Femur shorter than tibia
Normal trunk
Normal cognitive development + significant spinal issues

Question 59

What is osteogenesis imperfecta?

Answer 59

Brittle bone disease

Question 60

What is the inheritance pattern of osteogenesis imperfecta?

Answer 60

Autosomal dominant or recessive

Question 61

Which type of collage is decreased in osteogenesis imperfecta?

Answer 61

Decreased type I collagen due to decreased secretion and production of abnormal collagen

There is insufficient osteoid production

Question 62

What are the effects of osteogenesis imperfecta?

Answer 62

Fragility fracture
Short stature
Scoliosis

Question 63

What are the non-orthopaedic manifestations of osteogenesis imperfecta?

Answer 63

Heart
Blue sclera
Dentiogenesis imperfecta - brown soft tissue
Wormian skull
Hypermetabolism - affecting the parathyroid pathway

Question 64

What classification is used for paediatric fractures?

Answer 64

Pattern
Anatomy
Intra/extra-articular
Displacement

Salter-Harris Classification for those affecting the physis

Question 65

What is an avulsion type fracture?

Answer 65

When a bone is being pulled by a ligament

Question 66

What is secondary bone healing characterised by?

Answer 66

Callus formation

Question 67

What is primary bone healing characterised by?

Answer 67

By direct union, there is no associated callus formation

Question 68

What is the preferred healing pathway for intra-articular fractures?

Answer 68

Primary bone healing

Question 69

What is a shortened fracture?

Answer 69

The fracture gap is minimised due to overlap

Question 70

When is displacement optimised in a paediatric fracture?

Answer 70

In the best angle of function (remodelling does not occur in a rotated fracture)

Question 71

What is the SALT classification of physeal injuries?

Answer 71

1) Physeal separation
2) Fracture transverse physis and exits metaphysis (Above)
3) Fracture transverse physis and exists epiphysis (Lower)
4) Fracture passes Through epiphysis, physis, metaphysis
5) Crush injury to physis.

Question 72

Which type of SALT fracture is most common?

Answer 72

Type 2

Question 73

What happens to the risk of growth arrest between SALT type 1 and type V fractures?

Answer 73

Risk increases

Question 74

What happens in a whole physis growth arrest?

Answer 74

Limb length discrepancy

Question 75

What happens in a partial growth arrest?

Answer 75

Angulation as the non-affected side keep growing

Question 76

What happens during an injury at a period near to physeal closure?

Answer 76

There is a small degree of potential growth left (Therefore, the impact of growth arrest on the individual is less)

Question 77

What are the two aims of treating growth arrest?

Answer 77

Limb length correction

Minimise Angular deformity

Question 78

How is limb length correction performed?

Answer 78

Shorten the long side

Lengthen the long side

Question 79

What are the two methods to which angular deformity is corrected?

Answer 79

Stop the growth of the unaffected side

Reform the bone (osteotomy)

Question 80

How can growth arrest fractures be treated using cross-screws?

Answer 80

Prematurely fused the physis , the shorten the unaffected side

Question 81

Which device can be used to lengthen the short side of a limb?

Answer 81

Intramedullary device

Question 82

How can angular deformity be treated?

Answer 82

Stop growth of unaffected side to maintain balance or reform bone

Question 83

What is the first step to fracture management after resuscitation?

Answer 83

Reduce - correct the deformity and displacement

Question 84

What is closed reduction?

Answer 84

Reducing a fracture without making an incision (Traction and manipulation)

Question 85

What is open reduction?

Answer 85

Make an incision, and the realignment of the fracture under direct visualisation (ORIF)

Question 86

What is Gallows Traction (Closed)?

Answer 86

Holding the skin, the long bones of the lower limb can be reduced
MUA

Question 87

What is the risk of healing in paediatric populations?

Answer 87

Overgrowth and excessing healing

Question 88

What is a spica cast?

Answer 88

Holds the lower limb in place

Question 89

What is external restriction?

Answer 89

Splints and plasters

Question 90

Why can an ORIF be avoided in a paediatric fracture?

Answer 90

Due to remodelling and healing potential

Question 91

What is internal restriction?

Answer 91

using plates and screws

Intra-medullary devices

Question 92

What is operative restriction?

Answer 92

Operative intervention maybe required due to fracture affecting the physis (correct the deformity to avoid further trauma)

Question 93

What is recommended during the rehabilitation phase of a patient paediatric fracture?

Answer 93

Playing

Question 94

What is classified as an orthopaedic emergency in a paediatric patient presenting with a fracture?

Answer 94

Septic arthritis

Question 95

What is septic arthritis in a paediatric patient?

Answer 95

Presence of infection within the intra-articular space/synovium - necrotic effect is exhibited by proteases and generates pressure effect on chondrocyets and cartilage due to oedema within closed space

Question 96

Why is there a risk of necrosis within septic arthritis?

Answer 96

Proteases generate pressure effect on chondryocytes and cartilage due to oedema within a closed space

Question 97

What classification criteria is used in a patient with septic arthritis?

Answer 97

Kocher’s classification

Question 98

What is Kocher’s classification?

Answer 98

• Non-weight bearing
• ESR >40
• WBC >12,000
• Temperature >38

Question 99

What is the treatment of septic arthritis in a paediatric patient?

Answer 99

Surgical lavage is required in order to clear the infection, in addition to antibiotic treatment

Question 100

How can transient synovitis be diagnosed?

Answer 100

Once septic arthritis has been excluded

Inflamed joint response to a systemic illness

Question 101

What is Perthe’s disease?

Answer 101

Idiopathic necrosis of the proximal femoral epiphysis.
• Usually in 4-8 years olds
• Male 4:1 Female.

Septic arthritis needs to be excluded first.
• No hyperpyrexia or raised inflammatory markers
• Radiograph is diagnostic test.

Question 102

What is the treatment for SUFE disease?

Answer 102

Slipped under femoral epiphysis (SUFE)
The proximal epiphysis slips in relation to the metaphysis

Treatment is operative fixation with screw to prevent further slippage.