Development Of Tooth Part II PDF

Summary

This document presents an overview of the development of teeth, including different stages. It goes through the processes of initiation, proliferation, histodifferentiation, morphodifferentiation, and apposition. The document also addresses typical malformations and dental discoloration aspects of tooth development.

Full Transcript

Development of tooth
Part II

Basic and Preventive Sciences Department
BMC
Development of tooth/Oral
Biology
Learning objectives

At the end of the lecture student should be able to
Understand and be well versed with various stages tooth formation
Know the significance of histophysiology of tooth formation
Applied aspects of tooth development

Anodontia and Oligodontia
Decreased activity of dental lamina
Anodontia is the congenital absence of tooth germ of the entire
dentition.
Absence of single tooth germ or multiple tooth germs is termed
oligodontia.
Teeth commonly found missing are upper lateral incisors, third
molars and lower second premolars.
Applied aspects of tooth development

Supernumerary Teeth
Teeth which are present in addition to the normal number are
called supernumerary teeth.
This occurs due to hyperactivity of the dental lamina, leading to
the initiation of additional tooth buds.
The most common supernumerary teeth are the mesiodens
(present between two upper central incisors) and paramolars
(present by the side of the molars).
Applied aspects of tooth development

Macrodontia and Microdontia
Macrodontia is an abnormally larger tooth and microdontia is an
abnormally smaller tooth.
This can occur because of abnormal proliferation of the tooth
germ at the bud stage and can affect a single tooth or the
complete dentition.
Applied aspects of tooth development

Gemination and Fusion
Gemination is division of tooth germ
Fusion is the union of the adjacent tooth germs
Occur during the cap stage of tooth development.
Dens Invaginatus
Abnormal invagination of the enamel organ into the dental papilla
Can cause an appearance of tooth within the tooth
Called dens invaginatus or dens in dente.
Applied aspects of tooth development

Dens Evaginatus
Occurs in bell stage
It is cusp-like elevation seen in the occlusal surface of premolars or
molars
This aberrancy occurs due to the abnormal proliferation of inner
enamel epithelium into the stellate reticulum
Results in a core of dentin with intervening pulpal tissue covered
by enamel.
With occlusal wear or fracture of this cusp-like structure, pulp
exposure and can occur
Applied aspects of tooth development

Tetracycline Staining
Tetracycline is an antibiotic which has high affinity for calcified tissue.
Ingestion of this antibiotic during the mineralization of enamel and dentin can
lead to discoloration.
This consequent discoloration of enamel and dentin occurring at the time of
tooth development is called tetracycline staining.
DEVELOPMENT OF A TOOTH: HISTOPHYSIOLOGICAL PROCESS

On the basis of the histo-physiological process taking place, the
development of a tooth can be studied under the following stages:
Initiation
Proliferation
Histodifferentiation
Morphodifferentiation
Apposition
Initiation

Initiation of tooth development depends on the epithelial–
ectomesenchymal interaction.
The dental lamina formed due to such interaction has the ability to
form enamel organs of both the dentitions
Lack of initiation results in the absence of a tooth, a condition called
anodontia.
The tooth commonly absent are the upper lateral incisors, third
molars and lower second premolars (missing teeth).
Initiation

An abnormal initiation can result in the formation of single or
multiple supernumerary teeth (Extra teeth).
The most common supernumerary teeth are
The mesiodens (between two upper central incisors)
The Para-molars (by the side of the molars)
Similarly, aberration in initiation can result in the tooth developing at
abnormal locations (ovary).
Proliferation

The enamel organ formed due to initiation undergoes proliferation to
give the crown of the tooth its final size and shape.
Any disturbance in proliferation will have effects on the developed
tooth depending on the stage at which the disturbance occurs.
Histodifferentiation

As the cells continue to proliferate, they undergo
Structural, biochemical changes
Prepare themselves to carry out their function
e.g. deposition of organic matrix (apposition)
In this process, the cells may give up some of the properties they
possessed earlier, like their ability to proliferate.
Seen in the bell stage just before the formation and apposition of the
enamel and dentin.
Histodifferentiation

In the bell stage,
Inner enamel epithelium influences the adjacent cells of the dental papilla
They differentiate into odontoblasts which form the dentin matrix.
This constitutes the histodifferentiation of odontoblasts.
Then, the inner enamel epithelial cells are differentiated into the
ameloblasts
That form the enamel matrix.
This process is called as Reciprocal induction.
Histodifferentiation

When there is vitamin A deficiency, the ameloblasts fail to
differentiate properly

Their organizing influence on the adjacent cells of dental
papilla is disturbed.

As a result, odontoblasts fail to differentiate properly

The dentin formed by these odontoblasts is known as
osteodentin.
Morphodifferentiation

The morphological form and shape of the tooth are determined
The dentinoenamel junction and the dentinocemental junction are
characteristic for different teeth and determine the shape of the crown and
root
They are established before the formation of the hard tissue
In accordance with their shape, the formative cells deposit enamel, dentin
and cementum, to give the tooth its characteristic form and size.
Morphodifferentiation

Disturbances occurring during the morphodifferentiation can affect
the morphology of the crown or root depending on the stage at
which the disturbance occurs.
E.g.
In the crown - the formation of supernumerary cusp, loss of cusp and peg-
shaped teeth.
Formation of supernumerary root
Dilaceration (abnormal curvature in the root caused due to trauma)
Apposition

Apposition is the deposition of the matrix of dental hard tissues,
characterized by alternate periods of activity and rest.
It is this regular and rhythmic appositional growth that gives the
tooth its final shape.
Apposition involves formation of the organic matrix and its
subsequent calcification or mineralization.
Hypoplasia is the term used to indicate disturbances involving the
matrix formation
Apposition

Hypocalcification or hypomineralization indicates disturbances
involving the calcification or mineralization of the matrix.
Various genetic and environmental factors can cause disturbances in
the formation of enamel matrix leading to enamel hypoplasia.
Thank You