Embryology of Tooth Eruption and Exfoliation PDF

Summary

This document provides an overview of the embryology of tooth eruption and exfoliation. It covers the three phases of tooth eruption, explains the role of the reduced enamel epithelium, and discusses different theories about the mechanisms of tooth eruption, including molecular determinants and bone remodeling.

Full Transcript

Embryology of tooth erup0on and exfolia0on
Learning Outcomes

 Describe the three phases of tooth erup0on
 Describe how the dento-gingival junc0on originates
 Describe the process of tooth exfolia0on
 Outline the theories of tooth erup0on
 Be able to link the processes to the developmental 0meline of teeth and to erup0on
and exfolia0on ages for each tooth

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Select the single best answer: B

The erup0on process of teeth:
a) Begins in early childhood around 6 months of age
b) Begins before birth and con0nues throughout life
c) Is completed when all teeth are present in the mouth
d) Is completed once all the primary teeth erupt

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Select the single best answer:

The erup0on process of teeth:
a) Begins in early childhood around 6 months of age – this is part of the ac0ve
erup0on phase, there are erup0ve processes that start much earlier
b) Begins before birth and con0nues throughout life
c) Is completed when all teeth are present in the mouth – con0nues aFer the teeth
have appeared in the mouth
d) Is completed once all the primary teeth erupt – the permanent den00on erupts
aFer the primary den00on

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Erup0on of teeth

 The erup0on process of teeth is a con0nuous
process that occurs throughout life that begins
during early embryological development
 It involves three phases
 It begins once the tooth crown development is
complete during the bell stage and alongside root
development so although the Grst tooth is visible in
the oral cavity around 6 months of age, the process
begins much earlier
 It is a mul0-factorial process not en0rely
understood where there are various theories that A histological sec0on of an erup0ng lower incisor and
the developing permanent successor – what stage of
explain how it occurs development is the successor based on its shape?
Early-late bell stage

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Lets re@ect on why we need to know this?

Provides the physiological founda0on of
oral health advice for:
 ‘teething’ for parents

 wobbly teeth for children and parents

 ‘wisdom’ teeth erup0ng

Be able to clinically dis0nguish normal
and abnormal tooth erup0on and
exfolia0on for example: Processes and patterns Photo showing the lower
 Iden0fy a supernumerary tooth jaw of a child with a
 Iden0fy a missing tooth wobbly front tooth.
 Refer for orthodon0cs

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DeEni0ons

 Erup0on is the physiological movement
of teeth from their developmental
posi0on in the alveolar bone through
the soF 0ssues to its posi0on of
func0on in the oral cavity. The process
of erup0on has three phases.

 Exfolia0on is the physiological
resorp0on of primary teeth un0l they Gif showing eruption and
are lost (they exfoliate). exfoliation of a mandibular
permanent premolar and its
primary predecessor respectively.
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Embryological links to erup0on and exfolia0on

 Begins during the bell stage
 Ameloblasts, cells of the enamel organ, osteoclasts, odontoclasts and oral epithelium
play a role
 Underpinning knowledge explains the various theories on the mechanisms of the
erup0ng tooth
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Clinical links to erup0on and exfolia0on

The developmental 0meline
during embryology follows into life
with the erup0on 0meline that is
ESSENTIAL to iden0fy the presence
and posi0on of:
 Missing teeth

 Supernumerary teeth

 Crowding of teeth and

orthodon0c referral Clinical image showing an ectopically
erupting UL3 with an over-retained ULC

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Workbook ac0vity

 Complete Sec0on 1, Ques0on 1-2, to recap your exis0ng knowledge of embryology
relevant for tooth erup0on.

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 Three phases of the erup0on process

A outlines the phases of eruption, B shows the histological perspective of each 11
1. The pre-erup0ve phase

 The movement of the developing
tooth within the alveolar bone
un0l crown forma0on is
complete

 This movement starts during the
bell stage remodelling the bony
crypt to allow more space for the
developing tooth Bone remodelling around it - resorption and deposition
Happening in small space in embryos mouth
As embryo grows, more space for teeth to erupt

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 Different rates of tooth movement - through bone much slower

Through soft tissue - much faster

2. Ac0ve erup0on phase

 The movement of teeth through
the alveolar bone (intraosseous)
then the soM 0ssue
(supraosseous) to the oral cavity

 This phase starts around the
similar 0me as root forma0onMore space Enamel

and con0nues un0l the tooth
reaches occlusion (remember
root forma0on con0nues aFer
this phase)
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 Over eruption - recession, exposure of cementum

3. Post-erup0ve phase

 The movement of teeth aMer
ac0ve erup0on to maintain
occlusion and compensate for
occlusal and proximal tooth wear
as well as growth

 This movement occurs through
out life such as when an
opposing tooth is removed

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Single best answer: A

The erup0on process of teeth…
a) Starts during the bell stage of tooth development
b) Starts aFer birth for all the primary teeth
c) Starts once the root forma0on of a tooth is complete
d) Starts at the same 0me as the crown forma0on begins

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Single best answer:

The erup0on process of teeth…
a) Starts during the bell stage of tooth development
b) Starts aFer before birth for all the primary teeth
c) Starts once alongside the root forma0on of a tooth is complete which con0nues
aFer the ac0ve erup0on phase
d) Starts at the same 0me as the aFer crown forma0on begins is complete

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 Ac0ve erup0on phase in more detail

Tooth moved into position and ready to start active phase

Moved through bone and found pathway to move to soft tissues

Diagrams showing the ac0ve erup0ve phase

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The role of the Reduced Enamel Epithelium
Once amelogenesis is complete, the
ameloblasts shrink and combine with the
outer enamel epithelium, stratum
intermedium and any residual stellate
re0culum forming the reduced enamel
epithelium Needs protection when moving through bone -
osteoblasts and osteoclasts break down break, if no
protection would also be able to break down the tooth
It func0ons to:
 Protect the developing tooth crown

 Fuse with oral epithelium crea0ng an

erup0on pathway
 Form the dento-gingival junc0on – an

essen0al seal Vertical cross-section of the cusp tip of an
incisor during the pre-eruptive phase
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The erup0on pathway

 The bone overlying the developing
crown is resorbed by osteoclasts (and
odontoclasts of predecessor teeth)
Primary

 This allows a pathway for movement
that is ini0ated by complex signaling of
the cells

 The reduced enamel epithelium
protects the tooth crown from the
osteoclasts and the odontoclasts

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The erup0on pathway

 The reduced enamel epithelium fuses
with oral epithelium to create an
erup0on pathway

 There are no blood vessels or nerves
present yet

 S0mula0on of and trauma occurs to
ectomesenchyme to enable to fusion

 This fusion forms a seal that prevents
exposure of the underlying Fusion of the oral epithelium
ectomesenchyme and haemorrhage and reduced enamel epithelium
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Forma0on of the dento-gingival junc0on and sulcus

 As the tooth breaks through the oral
epithlium, the reduced enamel
epithelium and oral epithelium (now
combined) form the dento-gingival
junc0on sealing the external oral cavity
o\ from the rest of the body

 It also forms a shallow trough that will
create the gingival sulcus

 This junc0on has clinical signiEcance for
periodontal disease and the long A tooth erupting through the
junc0onal epithelium of the gingiva gingiva and forming the dento-
gingival junction 21
Rate of erup0ve movement

 Movement through bone is slow = 1-10um/day

 Movement through soF 0ssue is faster = 75um/day un0l occlusion
reached

 Muscular forces of the tongue, cheek, lips guide the tooth into posi0on

 Sustained force of 4-5g is required – any habits that you can think of?
Thumb sucking - affects positioning of teeth

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Single best answer

The reduced enamel epithelium:
a) Forms a protec0ve layer over the tooth root during erup0on
b) Forms from ameloblasts during amelogenesis
c) Surrounds the developing tooth crown during erup0on
d) Fuses with the oral epithelium to form the periodontal adachment with the tooth

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Single best answer

 The reduced enamel epithelium:
a) Forms a protec0ve layer over the tooth root crown during erup0on
b) Forms from di\eren0ated ameloblasts and the outer enamel epithelium, stratum
intermedium and any residual stellate re0culum during aFer amelogenesis
c) Surrounds the developing tooth crown during erup0on
d) Fuses with the oral epithelium to form the periodontal gingival adachment with
the tooth

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Exfolia0on (shedding) of primary teeth
 As the permanent successor teeth develop
(posi0oned lingually), they increase in size and
start the erup0ve phases
 This signals the exfolia0on of the primary teeth
where odontoclasts slowly resorb the roots of
the primary teeth up to its crown that remains
largely intact

 Mas0catory forces also contribute to the
exfolia0on process by applying pressure

 The padern is usually the same thus any
varia0ons are a key indicator of abnormali0es
clinically
If the primary roots stopped exfoliating - direction of permanent tooth can change
Can potentially have primary and secondary tooth present in mouth - unnecessary extraction A ground section of an exfoliating
Encourage mobility as soon as they become slightly mobile - primary teeth tooth and an erupting permanent 25
successor
So how does the tooth actually erupt?

We do not really know...

There are various theories
that adempt to explain this
process.

Research is ongoing in this
area.

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Root forma0on theory

 The tooth crown is elevated by
the thrust of root development

 Refuted since erup0on occurs
throughout life and root
development does not

Rocket launching analogy for root
formation pressure
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Bone re-modelling

 It is unsure whether bone
resorp0on and deposi0on cause
teeth to erupt OR whether this is
an e\ect

 It is not the only mechanism, it is
believed that it is modulated by
the dental follicle

Histological section of
alveolar bone surrounding the
developing tooth 28
Dental follicle theory

 Signals between the dental
follicle and the reduced enamel
epithelium have been found to
induce bone re-modelling

 This may explain the consistency
of erup0on 0mes as linked to the
lifecycle of ameloblasts  A – enamel organ
 B - dental papilla
 C – dental follicle

A histological section of a tooth in the bell 29
stage
Periodontal ligament theory

 The power of the forma0on of
the periodontal ligament by
Gbroblasts is thought to
contribute to the movement in
tooth erup0on

 This is refuted similar to the root
forma0on theory PDL doesn’t continue forming throughout life

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Formation of the periodontal ligament
Molecular determinants of tooth erup0on

Various molecules are thought to be involved in the complex process of
tooth erup0on each playing a di\erent role.

There are also more recent theories under inves0ga0on
including bite forces on the soF 0ssues and
neuromuscular forces

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Summary

The erup0on and exfolia0on processes are complex and mul0-factorial,
we have discussed:
 The three phases of erup0on

 The ac0ve phase in detail

 How the phases link to embryological development

 Outline of the theories of erup0on

More detail and the clinical applica0on will be discussed further in Oral
Biology.

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