Week 8 - HSDH2140 - Eruption Past Paper PDF

Summary

This document is a presentation on tooth eruption, covering pre-eruptive, eruptive, and post-eruptive phases, including bone remodeling, root formation, and the role of the periodontal ligament. It also discusses the reduced enamel epithelium (REE).

Full Transcript

Eruption
H S D H 2 1 4 0 E M B RYO LO GY & H I S T O LO GY
FA L L 2 0 2 4.
D R. JA FA R A L A B D U L L A H

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 3.1.1 - Describe the relationship between bone, tooth
root development and the mechanisms for various
tooth eruption and post eruption
Learning - Pre-active

Objective
- Eruptive
- Post-eruptive

s 3.1.2 – Describe abnormalities in eruption,
exfoliation, occlusions, and their etiologies.

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Introduction: Tooth development
 Odontogenesis: is the process of tooth
development  takes place in stages  continuous
process

 Dentition: is used to describe the natural teeth in the
jaws.
The primary dentition: 2 to 6 years  20 teeth
The permanent dentition: >12 years  32 teeth gradually erupt
and replaces the primary dentition.
PRIMARY TOOTH
ERUPTION
AND SHEDDING

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Tooth eruption
The word ‘’eruption’’ refers to
cutting of teeth through gums
(Oral Mucosa)

Tooth eruption is the process by
which developing teeth emerge
through the soft tissue of the jaws
and the overlying mucosa to:
 Enter the oral cavity
 Contact the teeth of the opposing arch
 Function in mastication
The phases of tooth eruption
Physical tooth movements consists of the following:
 Pre-eruptive phase:
 Eruptive phase:
 Post-eruptive phase:
 Pre-eruptive phase
Starts at the beginning of tooth
development and ends when the
crown formation is completed.
 Pre-eruptive phase: This phase
includes all movements of primary
and permanent tooth crowns from 
early initiation and formation to 
crown completion.

Tooth not erupted yet
 Pre-eruptive phase
Characterized by :
Dental (enamel) organ differentiated from primitive
oral epithelium  formation of enamel and DEJ
 Dental papilla is made up with odontoblasts 
produce dentin and the dental pulp
 Dental sac (dental follicle) is made up with fiber
cells  differentiates into PDL, cementum and
alveolar bone
 Formation of bone cavity that surrounds the apex of
the tooth
 Movement of developing tooth within the growing
jaw.
 Periodontal Ligament (PDL)
Development of the PDL
◦The dental sac begins to form the
PDL on the outside of the newly
formed Cementum.
◦Collagen fibers are formed which
immediately organize themselves
into the fiber bundles of the PDL.
◦The ends of these fibers attach to
the cementum and Alveloar Bone
(Sharpey’s fibers)

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Development of the Periodontal
Ligament (PDL)

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PDL Fibers
During
Eruption
Initially fibers lack
orientation, they quickly
align themselves obliquely.
As the tooth
erupts, more fibers
form and orientate
themselves forming
the common fiber
groups.

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 Eruptive tooth movement
 During the phase of eruptive tooth movement, the tooth moves from its
position within the bone of the jaws to its functional position in occlusion.
However, jaw growth is still occurring while most teeth are erupting.
The term pre-functional eruptive movement is used to describe the
movement of tooth after its appearance in the oral cavity till it attains the
functional position
Pre-eruptive Teeth
Movement
The movement of teeth before they begin to erupt
Teeth movement:
◦ Place teeth in a position for eruptive movement
◦ This space is soon used because of rapid growth of the tooth, and crowding results,
especially in incisors and canine region.
◦ This crowding is then relieved by growth of the jaws.

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Eruptive (pre-
functional
phase)
Starts with the initiation of
root formation and ends
when the teeth reach
occlusal contact.

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Eruptive (pre-functional
phase)
Pre-Functional eruptive phase:
Four major events occur during this phase
 Root formation: requires space for the elongation of the roots.
1. Proliferation (=rapid growth) of the epithelial root tissues  initiates the
differentiation of odontoblasts from the dental papilla
2. The odontoblasts form root dentin and pulp tissues.
3. Cementum, PDL and the bone are formed
4. Bone removal is necessary for permanent teeth to erupt!

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Reduced Enamel Epithelium
(REE)
is a layer of cells that forms after enamel development.
It helps facilitate tooth eruption by fusing with the oral
epithelium, allowing the tooth to emerge through the gums, and
protects the enamel during this process. REE usually
disintegrates after the tooth has erupted.
Eruptive (pre-functional
phase)
 Movement:
Occurs through the bone of the
jaws to reach the oral mucosa.

The reduced enamel epithelium
(REE) fuses with the oral
epithelium
Eruptive (pre-functional
phase)
 Penetration: of the tooth’s
crown tip through the fused
epithelial layers allows the
entrance of the crown enamel
into the oral cavity
Intraoral occlusal/incisal
movement: The erupting tooth
continues until clinical contact
with the opposing crown
occurs.
Active eruption

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Active eruption
Takes place after the
teeth are functioning to
maintain the position of
the erupted tooth in
occlusion while the jaws
are continuing to grow

The actual vertical
movement of the
tooth.
 Active eruption
The REE appears as a few layers of flattened cells overlying the new enamel surface.
As this formation of the REE occurs for a primary tooth, it can begin to erupt into
the oral cavity.
Active eruption
To allow for the eruption process, the REE first has to fuse with the oral
epithelium lining the oral cavity.
Second, enzymes from the REE then disintegrate the central part of
the fused tissue, leaving an epithelial tunnel for the tooth to erupt through
the surrounding oral epithelium into the oral cavity.

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Active eruption

As a primary tooth actively
erupts, the coronal part of the
fused epithelial tissue peels
back off the crown, leaving the
cervical part still attached to
the neck of the tooth.
Active eruption
 Active eruption
The process involving
loss of the primary tooth
consists of differentiation
of Osteoclasts, which
absorb the alveolar bone
between the two teeth,
and Odontoclasts, which
cause resorption or
removal of parts of the
primary's root of dentin
and cementum as well as
small parts of the enamel
crown.
 Active Eruption
The process of shedding of the primary tooth is
intermittent (“on again/off again”) because at the
same time that osteoblasts differentiate to replace
the resorbed bone, odontoblasts and
cementoblasts also differentiate to replace the
resorbed parts of the root.
Active Eruption
The primary tooth is then lost, exfoliated, or shed, as the succedaneous
permanent tooth develops lingual to it.
Post-eruptive tooth movement
The movements made by the tooth after it has reached its functional
position in the occlusal plan.
They may be divided in three categories:
 Accommodation for growth: occurs between 14 and 18 years by formation of
new bone to keep developing with increasing height of jaws.
 Compensation for occlusal wear: compensation occurs primarily by continuous
deposition of cementum around the apex of the tooth. This deposition occurs only
after tooth moves!
 Accommodation for interproximal wear: compensated by mesial or approximal drift
Mechanism of tooth movement
4 Factors:
 Bone remodeling: Osteoclasts and osteoblasts are responsible for
bone resorption and formation  play a crucial role in reshaping the alveolar
bone to accommodate tooth movement
 Root formation: occurs after crown formation  as the roots lengthen,
they provide an anchor within the jawbone.
 Vascular pressure: refers to circulation of blood in the tissues
surrounding teeth  blood vessels deliver nutrients and oxygen to cells and
remove waste products.
 Periodontal ligament (PDL): is a connective tissue that anchors teeth to
the alveolar bone  during tooth movement, it remodels and adapts to
the applied forces.
10 minutes break