Paediatrics Introduction 2024 PDF

Summary

This document is an introduction to paediatrics, specifically for week 1 of a course at Queensland University of Technology. It covers the prevalence of disease in children, child development, and embryonic development in children, alongside milestones.

Full Transcript

Paediatrics Week 1

Welcome to the world of little (and not so little)
people!

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The Queensland University of Technology (QUT) acknowledges the Turrbal and Yugara, as
the First Nations owners of the lands where QUT now stands. We pay respect to their
Elders, lores, customs and creation spirits. We recognise that these lands have always
been places of teaching, research and learning.

QUT acknowledges the important role Aboriginal and Torres Strait Islander people play
within the QUT community.
Todays Lecture Structure
Please log into gosoapbox with the code: 512-789-226
Prevalence of disease in children
Part 1 – Review of the AIHW 2018
Define stages of growth in children & milestones
Part 2 – Embryology
Part 3 – Ontogeny
Part 4 - Milestones

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Part 1 – Prevalence of disease in children

Pertinent points from the Australian Institute of Health and Welfare (AIHW)
Document - Australian Children in brief 2019

4.7 million children live in Australia (aged 0-14)
- 51% Identify as male
- 49% Identify as female
= 19% of the Australian Population

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Part 1 – Prevalence of disease in children

EPIDEMIOLOGY
- 1 in 17 identified as Aboriginal and Torres Strait Islander (5.9%)
- 1 in 5 (17%) live in the lowest socio-economic areas
- 2 in 3 (70%) live in major cities
- 1 in 14 (7.4%) had some level of disability (Boys 9.4%, Girls 5.4%)

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Part 1 – Prevalence of disease in children

HEALTH

Source: Australia's Children - in brief 2018 (AIHW – page 16)

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Part 1 – Prevalence of disease in children

DIABETES
- Just over 6500 Australian
children had type 1
diabetes in 2017
=141 per 100,000 children
- Currently, there is no
reliable national estimates
of type 2 diabetes among
children

Source: Australia's Children - in brief 2018 (AIHW – page 20)

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Part 1 – Prevalence of disease in children
DISABILITY
- Relates to a child's ability to participate in a range of activities, including
activities of daily life
- Is typically measured in terms of the level of difficulty they experience when
performing the core activities of daily living
Self-care
Mobility
Communication
Schooling

Source: Australia's Children - in brief 2018 (AIHW – page 16)

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Part 1 – Prevalence of disease in children
DISABILITY – Most common
- Intellectual (190,000 children or 4.3%)
- Sensory/speech (140,000 or 3.2%)

- 219,000 children had schooling restrictions (Needing special equipment to
participate or attending a special school)

- Estimated 177,000 children aged 0-14 had severe disability (Boys 5.2%, Girls
2.6%)
- Prevalence of severe disability was highest among children 5-9 years

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Part 1 – Prevalence of disease in children
https://www.aihw.gov.au/reports/children-youth/australias-
children/contents/health/children-with-disability

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Part 1 – Prevalence of disease in children
Mental Health
Estimated 1 in 7 children aged 4-11 (almost 14%) met the criteria to be diagnosed
with a mental illness
Most common:
Attention deficit hyperactivity disorder (ADHD): 8.2%
Anxiety disorders: 6.9%

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Part 1 – Prevalence of disease in children
PHYSICAL ACTIVITY
- Less than 1 quarter (23%) of
children aged 5-14 undertook
recommended 60 mins of physical
activity every day
- Less than 1 third (32%) net the
screen based activity guidelines
- 65% (956,000) aged 5-8, 78%
(740,000) aged 9-11 and 72%
(652,000) aged 12-14 participated
in organised physical activities
outside school hours at least once
per week.
Source: Australia's Children - in brief 2018 (AIHW – page 31)

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Part 2 – Embryological and Foetal Development
The greatest developmental changes that occur in an individual's life occurs
during the first four weeks following fertilisation.
Lower limb buds appear between 3rd and 4th embryonic weeks
Foetal period begins with the 8th embryonic week – at this stage the foot is in
90° of equinus and adducted. It is supinated and externally rotated relative to
the leg
Ossification of the foot begins early in the foetal period

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Part 2 – Embryological and Foetal Development
EMBRYONIC PERIOD
Technically begins 3rd week post-conception and ends at the end of week 8
Myriad of changes

I.e. Convert Pre-lower limb buds to individual bones
Embryonic cell mass divides to form:
Ectoderm: Epidermis, sensory receptor and nervous tissue
Mesoderm: Skeletal connective, muscle and blood tissues
Endoderm: Inner layer which forms respiratory and GI tract linings

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Part 2 – Embryological and Foetal Development
EMBRYONIC PERIOD – INSULTS THAT CAN CAUSE BIRTH DEFECTS
Alcohol
Growth retardation, craniofacial abnormalities, CNS dysfunction
Fetal alcohol syndrome (FAS)
ADHA, altered facial features, decreased physical growth, reduced brain growth
Tobacco
Increased rate of miscarriage, increased infant mortality, low birth weight, fetal hypoxia
Cannabis
Lower birth weight
Unsure?
Cocaine
Very dangerous. Brain damage (4x higher). Infants are often unresponsive and irritable

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Part 2 – Embryological and Foetal Development
DEVELOPMENT OF THE FOOT

Derived from mesenchyme projecting through the ectoderm.
3 main stages to forming the skeleton:
Mesenchymal
Cartilaginous
Osseous

Mesenchyme differentiates to form metatarsals, phalanges and the tarsus

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 Part 2 – Embryological and Foetal Development
EMBRYONIC PERIOD

Week 3
The developing nervous system is evident when the endoderm thickens to form the neural
plate.
Week 4:
the spinal cord develops.
Week 3-5:
Lower limb buds develop weeks (slightly after the upper limb buds).
The development of the lower limb buds are fast, with discernible changes every 2 days
Week 5:
the femoral, tibial and common peroneal nerves branch to their respective areas of the limb
bud
https://www.youtube.com/watch?v=VpbdqGJ9LWk

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Part 2 – Embryological and Foetal Development
EMBRYONIC PERIOD
Week 6
Limbs are perpendicular to the body and laterally rotated at 90° appearing
as paddles or flippers
Foot is in full equinus and inverted
Plantar surface of the feet face each other (‘praying’ position)
Bud webbing begins to notch and regress to form digits
Webbed feet or syndactyly may result from incomplete regression of
limb bud webbing

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 Part 2 – Embryological and Foetal Development
EMBRYONIC PERIOD
Week 7
Muscles of the gastrocnemius and soleus are apparent with myogenous
zones for other flexors, extensors and peroneals present but ill-defined
Main nerves have branched to supply and innervate the future muscle
groups

Many congenital deformities of the foot occur before the 7th embryonic
week, at which point the structural/skeletal component are determined.

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 Part 2 – Embryological and Foetal Development
FOETAL PERIOD
Period between week 8 and term (37-40 weeks)
The developing foot is in marked equinus, supinated and adducted
Muscles, vessels and nerves are differentiated and digits are now distinct
Muscles of the gastrocnemius and soleus are apparent with myogenous zones
for other flexors, extensors and peroneals present but ill-defined
Main nerves have branched to supply and innervate the future muscle groups
Muscles of the gastrocnemius and soleus are apparent with myogenous
(Skeletal muscle development) zones for other flexors, extensors and peroneals
present but ill-defined
Main nerves have branched to supply and innervate the future muscle groups

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Part 2 – Embryological and Foetal Development
FOETAL PERIOD
Week 9
Calcaneus moves from adjacent to the talus to plantar to the talus
(subtalar joint is formed)
Tibia and fibular begin to form ankle mortise around the forming talar
dome
1st metatarsal base articulates with the medial cuneiform, (results in the 1st
met and great toe to be adducted)
Distal phalanx of the great toe is the 1st bone to ossify

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FOETAL PERIOD
Week 10-12
Foot begins to dorsiflex at the ankle
Foetus is 75mm long at 12 weeks and begins to move it legs and clench its
fists
The inverted position of the foot continues with torsion of both the head and
the neck of the talus and also at the distal calcaneus
Tibia and fibula are equal length for the last time, tibial length increases.
Pre-form nail tissue develops

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Part 2 – Embryological and Foetal Development
FOETAL PERIOD
Week 16
Feet evert due to torsional changes in the talus and calcaneus
MLA develops
The movement of eversion and dorsiflexion of the foot continues until
birth and postnatally until the age of 6 years.

Week 18
The foetus is 15cm long

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FOETAL PERIOD
Week 21
Calcaneus ossifies (first tarsus bone to do so)

Week 22
Foetus is 30cm long and has hair on its head.
Nails are present

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FOETAL PERIOD
Week 24
Ossification centre of the talus appears
From Week 26:
The foetal spine becomes increasingly flexed from the cervical to sacral
vertebrae.
At 37 Weeks:
The cuboid ossifies (used as indicator for foetal maturity in conjunction with ear
cartilage)

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Part 3 – Ontogeny of the Foot
Ontogeny = Development of Bone

3 sections:
Primary
Secondary
Fusion

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Part 3 – Ontogeny of the Foot
PRIMARY CENTRE

A primary ossification centre is the first area of a bone to start ossifying. It
usually appears during prenatal development in the central part of each
developing bone.

In long bones the primary centres occur in the diaphysis/shaft

In irregular bones the primary centres occur usually in the body of the bone. Most
bones have only one primary centre (e.g. all long bones) but some irregular
bones such as the os coxa (hip) and vertebrae have multiple primary centres

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Part 3 – Ontogeny of the Foot
SECONDARY CENTRE

A secondary ossification centre is the area of ossification that appears after the
primary ossification centre has already appeared - most of which appear during
the postnatal and adolescent years.

Most bones have more than one secondary ossification centre.

In long bones, the secondary centres appear in the epiphyses (the enlarged
wide end of a long bone that articulates with other bones at joints)

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Part 3 – Ontogeny of the Foot

Mackie et al 2008 Image 1
https://www.youtube.com/watch?v=vOKLFdP4pjE

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Part 3 – Ontogeny of the Foot

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Part 3 – Ontogeny of the leg

Many of the paediatric foot problems presenting to the Podiatrist have their
origin in ontogentic development

This is generally morphological concerns of transverse & frontal plane nature

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Part 3 – Ontogeny of the leg
FEMUR FRONTAL PLANE:
The angle of inclination of the femur (the angle formed by the log axis of the head
and neck to the long axis of the femoral shaft)
Neonates the angle is approximately ~135-140 degrees
Reduces in adult to ~125 degrees

Zaghloul A 2018 Figure 6

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Part 3 – Ontogeny of the leg
FEMUR TRANSVERSE PLANE:

Femoral neck anteversion or “medial femoral torsion.”
It is thought to result from medial (internal) rotation of the limb bud in
early intrauterine life.
In postnatal development, The FNA angle diminishes about 1.5 degrees
a year until about 15 years of age.
In Adults, average femoral head and neck torsion forward of the body’s
frontal plane is about 15 degrees, a little less in men (less than 15°) and
a little more women (18°)

https://www.youtube.com/watch?v=GTpHJumNKVM

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Part 3 – Ontogeny of the leg
FEMUR TRANSVERSE PLANE:
Age Newborn 5 9 16
FNA angle 31 Degrees 26 Degrees 21 degrees 15 degrees

Cilbulka 2004, figure 1

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Part 3 – Ontogeny of the leg
FEMUR SAGITTAL PLANE:

A mild anterior convexity may occasionally exist in the femur as the only
sagittal plane influence

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Part 3 – Ontogeny of the leg
TIBIA and FIBULA FRONTAL PLANE:

In the newborn there is varus
bowing (tibial varum) in the shaft of
the tibia of about 15 – 20 degrees.
The appearance of bowing in
infants is accentuated by the early
placement of soft tissue masses
on the

Apley & Soloman (1993)

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Part 3 – Ontogeny of the leg
TIBIA and FIBULA SAGITTAL PLANE:

Retrotorsion – not a true torsion, but a backward deflection of the tibia, most
probably due to tension of the hamstring muscles ( usually biceps femoris)
Retroflexion – tibia bent to be concave posteriorly (possibly due to the pull of
the posterior leg muscles with attachments proximally)
Retroversion - at birth the tibial plateau demonstrates a 27 degree posterior
angulation – gradually raising to 5 degrees by 19 years of age

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Part 3 – Ontogeny of the leg
TIBIA and FIBULA TRANSVERSE PLANE:

At birth the medial and lateral malleoli are in approximately the same frontal
plane – from 0 degrees to slight external rotation.
3 months after birth the malleoli begin to externally rotate – continues until age
6.

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Part 3 – Ontogeny of the leg
FOOT:

The average length of the foot at birth is about 7 – 10cms.
It is relatively long with respect to the lower leg
It is very flexible - held in approximately 15 degrees of dorsiflexion.
When the newborn legs are held in a passive extended position, the feet are
slightly inverted and adducted 15 degrees.
There is some slight inversion/eversion present in the ankle joint in the
newborn
The foot can plantarflex to 50 degrees and dorsiflex to 45 degrees.

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Part 3 – Ontogeny of the leg
FOOT:

At birth the following bones are visible on x-ray:
Talus
Calcaneus
Cuboid
All 5 metatarsals
All phalanges except intermediate and distal on the 5th toe

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Part 3 – Ontogeny of the leg
FOREFOOT:
The forefoot in the newborn is usually inverted 10-15 degrees on the rearfoot
& fully reducible (FF supinatus)
Torsion of the talar head is downward and medial about 20 – 25 degrees in the
frontal plane. This increases approximately 20 degrees in a valgus direction.
Forefoot adduction is approximately 20 degrees. The angle between the
trochlea surface and the neck of the talus reduces from approximately 30
degrees to 20-25 degrees.
Other angles which diminish with growth and contribute to correction of the
adducted position of the forefoot are:
The angle between the talar neck and calcaneus
The angle between the talar trochlea surface and the calcaneus.

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Part 3 – Ontogeny of the leg
MLA:
The medial longitudinal arch is present and is easily seen in newborn and
prewalking children, but in most cases the fat pad (Spitzy’s) may obscure the
normal osseous arch contour.

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Part 3 – Ontogeny of the leg
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Part 4 – Developmental Milestones
OVERVIEW
Look for signs of developmental variation

Expectant normative progress & timeframes
There is variation in milestones following 2 years age
Up to 2 years – milestone progression is usually consistent

Please watch this video for an overview

https://www.youtube.com/watch?v=g4HdXxz25pw

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Part 4 – Developmental Milestones
OVERVIEW
Progression is heavily favoured
Plateau is concerning
Regression is very concerning
Aim to identify patterns - not just single instances of milestone aberration
Identification of consistency in variance
Sibling comparison affords consistency in environment

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Part 4 – Developmental Milestones
I month

Spontaneous motor activity generalised
Lifts head when prone; poor supine head control
Beginning to regard surroundings
Follow objects to midline

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2 Months

Motor activity generalised

Smiles and coos socially

Follows objects past midline

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3 Months

Follows well with eyes
May wave at toy: beginning to regard hands
Good control of head when prone and looking around
Head control improved when in sitting position
Moro’s reflex disappearing
Smiles: coos in more sustained fashion

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4 Months

Beginning to reach for toys symmetrically
Regards toys and may pull them to mouth
Removes cloth from face
Control of head good when sitting
Plays with hands
Laughs

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6 Months

Reaches with either hand and begins to transfer objects
Rolls over
May sit briefly when placed in sitting position
Laughs and interacts with examiner

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8 Months

Prehensile function palmer (grasping)
Independent sitting
Beginning to creep reciprocally
Vocalises with infantile rhythms and polysyllabic vowel sounds (‘babbling’)
Regards self in mirror

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10 Months

Crawls reciprocally
Pulls up on rail
Kneeled play
May begin to cruise (uses support, slides feet then steps)
Uses thumb and index finger in opposition
May say ‘mama’ or ‘dada’
Feeds self and holds own bottle

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Part 4 – Developmental Milestones
12 Months

Walks with support (double then single hand)
Stands alone
Places cube in cup; tries to build tower of two cubes
May have two words in addition to ‘mama’ or ‘dada’
Begins to feed self with fingers

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Part 4 – Developmental Milestones
15 Months

Walks alone
Creeps upstairs
4 to 5 word vocabulary
Drinks from a cup
Beginning to feed self with a spoon
Makes desires known by pointing or vocalising

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Part 4 – Developmental Milestones
18 Months

Walks well
Sits on a chair
Throws a ball
Climbs on furniture
Stacks 3 – 4 cubes
10 word vocabulary
Begins to identify pictures
Pulls toy on string
May be toilet trained during day

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Part 4 – Developmental Milestones
2 Years
Runs well Undresses self partially
Negotiates steps one at a time Attempts to put on socks
Uses pronouns and 3 word Refers to self a ‘I’
sentences Knows full name
Helps to put things away
Feeds self with a spoon
Refers to self by name
Toilet trained during day

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Part 4 – Developmental Milestones
3 Years

Alternates feet going upstairs
Pedals tricycle
Builds tower of cubes
Names drawings
Uses plurals and obeys propositional commands
Feeds self well
Buttons and buttons clothes and puts on shoes
Negotiates stairs alternating pattern unassisted (ascension>descension)
Single leg stance (eyes open) 5- 7 secs – expect marked difference
SLS must preceed hopping

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Part 4 – Developmental Milestones
4 Years
Runs and climbs well
Walks downstairs alternating feet
Hops on one foot
Coordinated skipping attained
Throws a ball overhead
Attempts to catch a ball or kick it in the air
Pedals tricycle rapidly
Draws a man with head, trunk and arms or legs
Counts 3 objects
Names one or more colours

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Part 4 – Developmental Milestones
5 Years

Skips, alternating feet
Draws a man
Copies a square, cross, and a circle
Dresses and undresses without assistance
Knows the names of 4 or more colours
Counts to 10 or higher

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Part 4 – Developmental Milestones
6 Years

Draws a man with hands and clothes
Repeats 4 digits
Knows morning and afternoon
Knows left from right side

Single leg stance >15 secs – minor deviation noted

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Part 4 – Developmental Milestones
https://www.youtube.com/watch?v=GTpHJumNKVM

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Part 4 – Developmental Milestones
Developmental Tools

Griffith Developmental scales are one of the most accessible & widely used in
Australian Paedatric testing
More specific for gross motor developmental testing is Movement Assessment
Battery for Children (Movement ABC)

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References
AIHW: The health of Australias Children, https://www.aihw.gov.au/reports/children-youth/australias-
children/contents/health/the-health-of-australias-children; updated 25/2/2022
Cibulka MT. Determination and Significance of Femoral Neck Anteversion. Physical Therapy. 2004;84(6):550-
8.
Mackie EJ, Ahmed YA, Tatarczuch L, Chen KS, Mirams M. Endochondral ossification: how cartilage is
converted into bone in the developing skeleton. Int J Biochem Cell Biol. 2008;40(1):46-62.
Zaghloul A. Hip Joint: Embryology, Anatomy and Biomechanics. Biomedical Journal of Scientific & Technical
Research. 2018;12(3).

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