1b// Children's Orthopaedics

Question 1

How many bones are there in a child’s skeleton?

Answer 1

270

Question 2

What are growth plates called, and what do they do?

Answer 2

physis

they are the areas from which long bone growth occurs postnatally

Question 3

What are the types of bone development?

Answer 3

intramembranous mesenchymal cells» bone

endochondral mesenchymal» cartilage» bone

Question 4

What type of bone do intramembranous mesenchymal cells lead to?

Answer 4

flat bones (cranial bones and clavicle)

Question 5

What type of bone do endochondral mesenchymal cells make?

Answer 5

long bones (all other long bones)

Question 6

What is the process called of making cranial bones and the clavicle?

Answer 6

intramembranous ossification

Question 7

What is the process called of making all other long bones?

Answer 7

endochondral ossification

Question 8

Describe the process of intramembranous ossification.

Answer 8

1. Condensation of mesenchymal cells which differentiate into osteoblasts – Ossification centre forms
2. Secreted osteoid traps osteoblasts which become osteocytes
3. Trabecular matrix and immature periosteum form
4. then angiogenesis between woven bone and trabecular, forming bone marrow
5. Compact bone develops superficial to cancellous bone. Crowded blood vessels condense into red bone marrow

Question 8

Where does endochondral ossification occur?

Answer 8

both primary and secondary ossification centres

Question 8

What are primary ossification centres? And what part of the bone are they located?

Answer 8

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

Question 9

What are secondary ossification centres?

Answer 9

Occurs post-natal after the primary ossification centre and long bones often have several (the physis)

Question 10

What are the 2 types of endochondral ossification?

Answer 10

primary and secondary

e.g., endochondral primary ossification

Question 11

Describe the process of endochondral primary ossification.

Answer 11

pre-natal growth through primary ossification centres

a) Mesenchymal Differentiation at the primary centre

b) The cartilage model of the future bony skeleton forms

c) Capillaries (via angiogenesis) penetrate cartilage.
Calcification at the primary ossification centre – spongy bone forms
Perichondrium transforms into periosteum

d) Cartilage and chondrocytes continue to grow at ends of the bone

e) Secondary ossification centres develop

Question 12

Where are primary ossification centres?

Answer 12

middle of diaphysis (shaft of bone)

Question 13

Where do secondary ossification centres develop? And how are they developed?

Answer 13

at proximal and distal ends of long bone with their own blood supply

blood supply calcifies the previously uncalcified matrix into immature spongy bone, so cartilage at ends of bone become sites of secondary ossification

Question 14

What is endochondral secondary ossification for?

Answer 14

long bone lengthening

post bone growth through secondary ossification centres
“the physis”

Question 15

Describe endochondral secondary ossification.
- where does it occur
- what zone and where
- what does it contain
- and sides

Answer 15

Happens at the physis (physeal plate)

Zone of elongation in long bone

Contains cartilage

Epiphyseal side – hyaline cartilage active and dividing to form hyaline cartilage
matrix

Diaphyseal side – Cartilage calcifies and
dies and then replaced by bone

Question 16

What are the epiphyseal and diaphyseal sides?

Answer 16

the diaphysis (shaft or primary ossification centre), metaphysis (where the bone flares), physis (or growth plate) and the epiphysis (secondary ossification centre).

Question 17

Do these make sense?

Answer 17

Question 18

How does a child’s skeleton differ to that of an adult? (4)

Answer 18

more elasticity

physis (constantly growing)

speed of healing is much faster (due to continuous growth)

remodelling potential

Question 19

What does it mean by a child’s bone elasticity? And why is it more elastic?

Answer 19

Children’s bone can bend – more elastic than adult

due to increased density of haversian canals

Question 20

What can increased density of haversian canals lead to? (3)

Answer 20

Plastic deformity:
– bends before breaks

Buckle fracture:
– Tarus like the column

Greenstick:
– like the tree
One cortex fractures but does not break the other side

Question 21

Why do children have more haversian canals?

Answer 21

as their bones are more metabolically active

Question 22

Describe growth of bones in children, e.g., where and speed? And when does growth stop?

Answer 22

Growth occurs at varying rates at varying sites

Growth stops as the physis closes

Question 23

When does physeal closure occur?

Answer 23

Complete at girls: 15-16

boys= 18-19

Question 24

What does physeal closure depend on?

Answer 24

puberty
menarche
parental height

gradual physeal closure

Question 25

How are physeal injuries categorised?

Answer 25

salter-harris

Question 26

What can physeal injuries lead to? And what can that lead to?

Answer 26

growth arrest

leads to deformity

Question 27

What is the speed of remodelling and healing dependent on?

Answer 27

The speed of healing and remodeling potential is dependent on the location and the age of the patient

Question 28

Who heals bones more quickly in the general population?

Answer 28

younger child

Question 29

Which physis grows the most?

Answer 29

at the knee and at the extreme of upper limb

Question 30

What the stages of healing/ remodelling? (3)

Answer 30

inflammation
repair/ callus
remodelling

Question 31

What are common children’s congenital conditions (that you need to know)? (4)

Answer 31

Developmental Dysplasia of the Hip

Club Foot

Achondroplasia

Osteogenesis Imperfecta

Question 32

What is developmental dysplasia of the hip? And what type of disorder is it?

Answer 32

Group of disorder of the neonatal hip where the head of the femur is unstable or incongruous in relation to the acetabulum.

A ‘Packaging Disorder’

Question 33

What is a packaging disorder?

Answer 33

occurs in utero, due to the way a child sits

Question 34

What is the normal development of the hip dependent on?

Answer 34

the concentric
reduction and balanced forces through the hip

Question 35

What is the spectrum of developmental dysplasia of the hip? (3)

Answer 35

dysplasia
or
subluxation
or
dislocation

Dysplasia 2: 100 Dislocation 2:1000

Question 36

What are risk factors for developmental dysplasia of the hip? (6)

Answer 36

Female 6:1

First born

Breech

FHx

Oligohydramnios

Native American/Laplanders – swaddling of hip

Question 37

How is developmental dysplasia of the hip examined?

Answer 37

Usually picked up on baby check – screening in UK

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

In those 3 months or older Barlow and Ortalani are non-sensitive

Question 38

What are the investigations for developmental dysplasia of the hip?

Answer 38

Ultrasound – birth to 4 months
- After 4 months X-ray
- If prior to 6 weeks needs to be age adjusted

Measures the acetabular dysplasia and the position of hip

Question 39

What is the treatment for developmental dysplasia of the hip?

Answer 39

Reducible hip and <6 months
- Pavlik harness 92% effective

Failed Pavlik Harness or 6-18 months
- Secondary changes- capsule + soft tissue
- MUA (manipulation under anaesthetic) + Closed reduction and Spica

Question 40

What is clubfoot?

Answer 40

Congenital deformity of the foot

packaging disorder

Question 41

What is the epidemiology of clubfoot?

Answer 41

1:1000
Highest in Hawaiians
M2:1F
50% are bilateral

Question 42

What is the risk factor of clubfoot?

Answer 42

Genetic…
Approx. 5% likely of siblings
Familial in 25%
PITX1 gene

CAVE

Question 43

What causes CAVE deformity?

Answer 43

due to muscle contracture

Question 44

What is CAVE deformity?

Answer 44

deformity of Clubfoot

Cavus –high arch: tight intrinsic, FHL, FDL

Adductus of foot: Tight tib post and ant

Varus: Tight tendoachillies, tib post, tib ant

Equinous: tight tendoachilles

Question 45

What is the treatment for clubfoot?

Answer 45

Ponseti Method
Gold standard

1. First a series of casts to correct deformity
2. Many require operative treatment
   - Soft tissue releases or tendon transfers (more extreme is tendon)
3. Foot orthosis brace
4. Some will require further operative intervention to correct final deformity.

Question 46

What is achondroplasia?

Answer 46

The most common skeletal dysplasia

Question 47

What is the pathophysiology of achondroplasia?

Answer 47

Autosomal Dominant

• G380 mutation of FGFR3
• inhibition of chondrocyte proliferation in the proliferative zone of the physis
• results in defect in endochondral bone formation

affects secondary ossification

Question 48

What does achondroplasia lead to?

Answer 48

rhizomelic dwarfism

Question 49

What is a part rhizomelic dwarfism?

Answer 49

Humerus shorter than forearm

Femur shorter than tibia

Normal trunk

Adult height of approx.125cm

Normal cognitive development

Significant spinal issues

Question 50

What is osteogenesis imperfecta?

Answer 50

brittle bone disease

decreased type 1 collagen

Question 51

Why is there decreased collagen in osteogenesis imperfecta? And what does that lead to?

Answer 51

Decreased Type I Collagen due to:
- Decreased secretion
- Production of abnormal collagen

leading to insufficient osteoid production

Question 52

How do you get osteogenesis imperfecta?

Answer 52

hereditary- autosomal dominant or recessive

Question 53

What are the manifestations of osteogenesis imperfecta on bones? (3)

Answer 53

Fragility fractures
Short stature
Scoliosis

Question 54

What are the non-orthopaedic manifestations of osteogenesis imperfecta? (5)

Answer 54

Heart

Blue Sclera

Dentinogenesis imperfecta – brown soft teeth

Wormian skull

Hypermetabolism

Question 55

What is wormian skull?

Answer 55

abnormal fusion of cranial sutures

Question 56

What should you consider with paediatric fractures? (5)

Answer 56

Pattern
Anatomy
Intra/Extra-articular Displacement
Salter-Harris

Question 57

What does the pattern of the fracture reflect?

Answer 57

reflects the way the energy is dissipated

Question 58

What are the types of patterns in fracture?

Answer 58

comminuted= high E, more than 1 part fractured

Question 59

What should you consider with anatomy and fractures?

Answer 59

where on the bone the fracture is

Question 60

What are the 2 methods of bone healing?

Answer 60

primary and secondary bone healing

Question 61

Which method of healing is prefered for intra-articular fractures?

Answer 61

primary bone healing is the preferred healing pathway in intra-articular fracture as minimises risk of post traumatic arthritis

Question 62

What is primary bone healing?

Answer 62

heals by direct union

no callus formation

Question 63

What is secondary bone healing?

Answer 63

bone healing by callus

*but remember…
- if the fracture affects the physis it affects growth

Question 64

What are the steps of secondary bone healing?

Answer 64

1. haematoma formation
2. fibrocartilaginous callus formation
3. bony callus formation
4. bone remodelling

Question 65

What are the types of displacements in fractures? (4)

Answer 65

*remodelling potential gives more allowance for displacement for children

*rotated is not well tolerated

*can be multiple at the same time

Question 66

How are physeal injuries classified?

Answer 66

Salter Harris

Question 67

How does Salter Harris classify physeal injuries?

Answer 67

Classification of physeal injuries (SALT)

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

Risk of growth arrest increases from 1 -5

Question 68

Which type of physeal injury is most common and least common?

Answer 68

2 most common

5 least common

Question 69

What do injuries to the physis possibly lead to?

Answer 69

growth arrest

Question 70

What is key in growth arrest>

Answer 70

the location and timing

how much potential growth is affects

diff parts of the skeleton grow at diff rates

Question 71

What are the types of physeal injuries? (2)

Answer 71

Whole physis – limb length discrepancy

Partial – angulation as the non affected side keeps growing

Question 72

What are the aims of treatment for growth arrest?

Answer 72

Aim is to correct the deformity

Minimise angular deformity
Minimise limb length difference

Question 73

How can you treat limb length?

Answer 73

shorten the longer side or lengthen the shorter side

Question 74

How can you treat angular deformity?

Answer 74

stop the growth of the unaffected side
or
reform the bone (osteotomy)

Question 75

What are the 4 Rs for fracture management?

Answer 75

Resuscitate Reduce Restrict Rehabilitate

Question 76

What does it mean by reduce, for fracture management?

Answer 76

Correct the deformity and displacement

Reduce secondary injury to soft tissue / NV structures

Question 77

What are the 2 types of reduction?

Answer 77

closed and open

Question 78

What is a closed reduction?

Answer 78

Reducing a fracture without making an incision

Such as traction and manipulation in A&E

Question 79

What is an open reduction?

Answer 79

Making an incision

The realignment of the fracture under direct visualisation

Question 80

Give an example of closed reduction.

Answer 80

gallows traction
- commonly used for long bone fractures

holding the skin, the long bones of the lower limb can be reduced

Question 81

What is restriction for?

Answer 81

Maintain the fracture reduction

Provides the stability for the fracture to heal

Question 82

What do children rarely have issues with when it comes to bone fractures? And what can they have issues with?

Answer 82

with bone not healing
- however can have issues with too much healing

Question 83

What are the 2 broad categories of restriction?

Answer 83

external and internal

Question 84

What are examples of external and internal restriction? (2 each)

Answer 84

Question 85

What type of restriction is commonly used in paeds? And why?

Answer 85

external
plasters and splints

Remodeling and huge healing potential means that operative internal fixation often can be avoided

Question 86

What do you do when operative intervention may be required for restriction?

Answer 86

Question 87

Do you have to rehabilitate children?

Answer 87

Children generally rehabilitate very quickly

Play is a great rehabilitator

Stiffness not as major issue as in adults

Use it, Move it and Strengthen!

Question 88

Is operation more or less likely in children?

Answer 88

less as children have quicker healing

Question 89

What are causes of the limping child? (4)

Answer 89

Septic Arthritis
Transient Synovitis
Perthes
SUFE

Question 90

What is septic arthritis? And what is so important about it?

Answer 90

presence of infection in intra-articular space

child orthopaedic emergency
- can cause irreversible long term problems in the joint (therefore needs surgical washing of the joint to clear the infection)

Question 91

What is the score used to find out the probability of a child having septic arthritis, and what is in it?

Answer 91

Kocher’s classification
- Non weight bearing
- ESR >40
- WBC >12,000
- Temperature >38

Question 92

What is the diagnosis if septic arthritis has been excluded?

Answer 92

Transient synovitis is a diagnosis once septic arthritis has been excluded

Is a inflamed joint in response to a systemic illness

Supportive treatment with antibiotics is the treatment

Question 93

What is key in septic arthritis? (3)

Answer 93

the history…
- duration
- other recent illness
- associated joint pain

Question 94

What is Perthes disease?

Answer 94

Idiopathic necrosis of the proximal femoral epiphysis

Question 95

With who is perthes disease most common?

Answer 95

usually in those 4-8

male 4:1

Question 96

What must be done before diagnosis of Perthes and what is the treatment?

Answer 96

Septic arthritis needs to be excluded first

Treatment is usually supportive in the first instance
- once diagnosed they are referred to a specialist

Question 97

What would you not expect to see in Perthes, that you would see in septic arthritis?

Answer 97

raised temp and inflamm markers

Question 98

What is SUFE?

Answer 98

Slipped upper femoral epiphysis

The proximal epiphysis slips in
relation to the metaphysis

Question 99

In who is SUFE most common in?

Answer 99

Usually obese adolescent male
- 12-13 years old during rapid growth

Question 100

What is the treatment for SUFE?

Answer 100

Treatment is operative fixation to prevent further slip and minimise long term growth problems

• Septic arthritis needs to be excluded
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