Tooth Development (Odontogenesis) PDF

Summary

This presentation details the stages of tooth development, from initiation to maturation. It discusses the interactions between epithelial and mesenchymal cells, focusing on the sequential processes of morphogenesis and histogenesis, and also describing different stages and stages of development in detail. The presentation includes diagrams to illustrate different parts of the teeth and their development stages

Full Transcript

Tooth Development
(Odontogenesis)

Prepared by:
Dr.Abdelatif Galal
Introduction

The development of the
tooth and it’s supporting
structures is involves many
complex biological
processes:

1-Epithelial mesenchymal
interaction.
2-Morphogenesis.
3-calcification
(mineralization).
Dentition: is a process of teeth eruption occurs in different
stages of human’s life :

Primary dentition – develops during embryonic and fatal
periods of prenatal developments – 20 teeth ( lateral dental
lamina).

Permanent dentition – develops as the jaw grows and
matures – 32 teeth (successor D.L).

Mixed dentition period - between the primary and
permanent periods during which an individual has some
teeth from both – during the preteen years (Distal extension
of D.L).
Teeth are derived:

 Ectoderm (Dental or enamel organ)
 Mesoderm (Dental papilla)
 Mesoderm (Dental Sac)
Dental organ Enamel

Dental papilla Pulp
Dentin

Dental sac Cementum
Periodontal membrane
 Basement membrane

ECTODERM

MESODERM

ectomesenchymal cells
Tooth development can be divided into three phases, which
are :

1- Initiation : during this phase , the sites of the future teeth are
established with the appearance of tooth germs called dental
lamina.
2- Morphogenesis : During this phase , the shape of the teeth
are determined by a combination of cell proliferation and cell
movement.
3- Histogenesis : During this phase , differentiation of the
cell (began during morphogenesis) proceed to give rise to the
fully formed dental tissues, both mineralized (such as enamel ,
dentin , and cementum ) and unmeneralized ( such as pulp and
periodontal ligaments).
STAGES of TOOTH DEVELOPMENT –

initiation stage – 6 th to 7 th week
bud stage – 8 th week
cap stage – 9 th to 10th weeks
bell stage – 11th to 12th weeks
apposition stage – varies per tooth
maturation stage – varies per tooth
Tooth formation:. Initial stages – The interaction between the oral
epithelium and the underlying mesenchymal cells
results in tooth development.

The first sign of tooth development begins when the
embryo is about 6 th weeks;

a continuous band of thickened epithelium forms around
the stomodeum( primitive oral cavity) this gives rise to the
primary epithelial band
Tooth formation -initial stage-
 Primary epithelial bands:
Horseshoe-shaped bands
that appear approximately
around the 37th day of
development, one for each
jaw.
 There are two subdivisions:
vestibular lamina and
dental lamina
By 7th week the primary band divides into two
processes a buccally located vestibular lamina and
a lingual one the dental lamina.
 Primary epithelium band: will gives rise to:-

1-Vestibular lamina :(an outer or buccal band of epithelial
thickening). Also termed the lip furrow band.
it subsequently hollows and forms the oral vestibule
between the lips and cheeks from one side and the dental
arch from other side.

2-Dental lamina: It is an inner band of epithelium , the
dental lamina develops in the future spot for the dental
arches
 Dental lamina appears as a thickening of the
oral epithelium adjacent to condensation of
ectomesenchyme.

20 areas of enlargement or knobs appear,
which will form tooth buds for the 20 primary
teeth.

by the eighth week the dental lamina appears
as an arch shaped band of epithelial tissue
carrying a series of swellings.
Not all will appear at the same time. The first
to develop are those of the anterior
mandibular region

The dental lamina begins to function at 6 th
prenatal week and continues to 15th year of
birth (3 rd molar)
Function of dental lamina
1.Forming buds of the 20 primary teeth
2.Form the buds of permanent dentition
lingual to the buds of the primary teeth
Vestibular lamina
 the vestibular lamina cells rapidly enlarge and
then degenerate – forms a cleft that becomes
the vestibule of the oral cavity.
STAGES of TOOTH DEVELOPMENT

 initiation stage – 6 th to 7 th week
 bud stage – 8 th week
 cap stage – 9 th to 10th weeks
 bell stage – 11th to 12th weeks
 apposition stage – varies per tooth
 maturation stage – varies per tooth
Morphogenesis:
 bud stage
 cap stage
 bell stage
Bud stage
 Marked by the incursion of epithelium into
the mesenchyme

 The enamel organ in the bud stage appears as a
simple, spherical to ovoid.
Tongue

Bud stage

Future dental papilla
Bud stage
 This developing tooth forms from both the
ectoderm and mesenchyme and from neural
crest cells that have migrated into the
mesenchyme. The epithelial component is
separated from the adjacent mesenchyme by a
basement membrane.
STAGES of TOOTH DEVELOPMENT

 initiation stage – 6 th to 7 th week
 bud stage – 8 th week
 cap stage – 9 th to 10th weeks
 bell stage – 11th to 12th weeks
 apposition stage – varies per tooth
 maturation stage – varies per tooth
 Cap stage
 characterized by continuation of the in growth
of the oral epithelium into the mesenchyme.
 tooth bud of the dental lamina proliferates
unequally in different parts of the bud

◼ forms a cap shaped tissue
◼ looks like a cap sitting on a ball of
condensing mesenchyme
 Cap stage
 By the 11th week, morphogenesis has progressed, the deeper
surface of the enamel organ invaginating to form a cap-shaped
structure.

Enamel organ are arranged to form the:
 Outer enamel epithelia (cuboidal cell)
 inner enamel epithelia(columnar cell).
 Stellate reticulum(cell contain glycosaminoglycans).
Cap stage
 a depression forms in
the deepest part of
each tooth bud and
forms the cap or
enamel organ (or
dental organ) –
produces the future
enamel (ectodermal
origin)
the adjacent mesenchymal cells continue to
proliferate and surround the enamel organ. The
part of the mesenchyme lying beneath the
internal enamel epithelium is termed the dental
papilla.

while that surrounding the tooth germ forms the
dental follicle(dental sac).
Cap stage
 below this cap is a
condensing mass of
mesenchyme – dental
papilla (mesenchymal
origin )
produces the future
dentin and pulp tissue
Cap stage
 the basement membrane
separating the dental
organ and the dental
papilla becomes the
future site for the
dentino-enamel
junction (DEJ)
Cap stage
 Remaining mesenchyme surrounds the
dental/enamel organ and condenses to form the
dental sac or the dental follicle
 Cap Stage of
Tooth
Development
Dental (enamel) organ

Dental papilla

dental follicle

©Copyright 2007, Thomas G. Hollinger, Gainesville, Fl
Oral Histology, 5th edition, A R Ten Cate
Cap stage
 Enamel knots are
clusters of nondividing
epithelial cells visible in
sections of molar cap
stage tooth germs.
 They play an important
role by the cuspal
morphogenesis.
STAGES of TOOTH DEVELOPMENT

 initiation stage – 6 th to 7 th week
 bud stage – 8 th week
 cap stage – 9 th to 10th weeks
 bell stage – 11th to 12th weeks
 apposition stage – varies per tooth
 maturation stage – varies per tooth
Bell stage
 Continuation of histodifferentiation and
morphodifferentiation
 cap shape then assumes a more bell-like shape
 differentiation produces four types of cells within
the enamel/dental organ
1. inner enamel epithelium
2. outer enamel epithelium
3. stellate reticulum
4. stratum intermedium
Oral cavity

Outer dental
epithelium

Dental lamina

Enamel knot

Stellate reticulum

Stratum
intermedium

Inner dental
Epithelium

Dental papilla
Differentiation of the Enamel organ
 outer enamel (dental)
epithelium (OEE):
 cuboidal shape
 protective barrier during
enamel production
 very little cytoplasm
 cells are separated from the
dental follicle by a
basement membrane
Differentiation of the Enamel organ
 inner enamel (dental)
epithelium (IEE)
 short, columnar cells
 differentiates into the enamel
secreting cells = ameloblasts
 separated from the dental
papilla below it by a basement
membrane also
 cells accumulate large amounts
of glycogen
Differentiation of the Enamel organ
 stellate reticulum
 star-shaped cells in many
layers
 center of the enamel organ
 forms a network = reticulum
 supports production of
enamel
Differentiation of the Enamel organ
 stratum intermedium
 inner layer of compressed flat
to cuboidal cells
 very high levels of the enzyme
alkaline phosphatase
 supports production of
enamel
Dental Papilla in early bell stage :
before the IEE completes its folding to
differentiate into ameloblast to
produce enamel.
 the dental papilla undergoes
differentiation and produces two
types of cells
1. outer cells of the DP – forms the
dentin-secreting cells (odontoblasts)
2. central cells of the DP – forms the
primordium of the pulp
Dental sac in early bell stage:
Before formation of the dental hard tissue begins , the dental
sac shows a circular arrangement of its fibers and it resemble
a capsular structure.

With the development of the root , the fibers of D. S.
differentiate into periodontal fibers that become
embedded in the cementum and alveolar bone.
STAGES of TOOTH DEVELOPMENT

 initiation stage – 6 th to 7 th week
 bud stage – 8 th week
 cap stage – 9 th to 10th weeks
 bell stage – 11th to 12th weeks
 apposition stage – varies per tooth
 maturation stage – varies per tooth
B -Late or advanced bell stage(apposition and
maturation stage)

The late bell stage represents the final stage of
odontogenesis, and it is characterized by apposition and
maturation of dental tissues.

Apposition means formation and secretion of the dental
tissues; enamel, dentin, and cementum in successive
layers.
The basal margin of the E.
organ (cervical loop ) gives
rise to the epithelial root
sheath which Initiate
formation of dentin in root.

Dental sac cells will
differentiate into cementoblast
to form cementum.

Maturation stage is reached
when the dental tissues are
fully mineralized.
Fate of dental lamina
1- dental lamina is functional in developing 52 teeth from 6
prenatal weeks until 4 years after birth (development of third
permanent tooth).

2- The dental lamina degenerates by mesenchymal invasions
in late bell stage.

3- Developing tooth lose its connection with dental lamina

4- some times remnants of dental lamina remains in the jaws
as epithelial rests of serres ( serres’ pearls).
Nutrition and tooth development
Nutrition has an effect on the developing tooth. Essential nutrients for a
healthy tooth include calcium, phosphorus, and vitamins A, C, and D.

Calcium and 6 phosphorus are needed to properly form the
hydroxyapatite crystals(minerals), and their levels in the blood are
maintained by Vitamin D.

Vitamin A is necessary for the formation of keratin, and Vitamin C is for
collagen.

Fluoride is incorporated into the hydroxyapatite crystal of a developing
tooth and makes it more resistant to demineralization and
subsequent decay.
Deficiencies of these nutrients
In situations where calcium, phosphorus, and vitamin D are
deficient, the hard structures of a tooth may be less
mineralized.

A lack of vitamin A can cause a reduction in the amount of
enamel formation.

Fluoride deficiency causes increased demineralization when
the tooth is exposed to an acidic environment, and also delays
remineralization.

Furthermore, an excess of fluoride while a tooth is in
development can lead to a condition known as fluorosis
Developmental disturbances of teeth:

1-Anodontia: is a complete lack of tooth development.
Anodontia is very rare, most often occurring in a hereditary
condition called ectodermal dysplasia.

2-Hypodontia (congenital missing tooth or teeth):
It is one of the most common developmental abnormalities.
The absence of third molars is very common, followed in
prevalence by the second premolar and lateral incisor.
3-Hyperdontia(supernumerary teeth): It is believed
to be associated with the remanent of dental lamina or
epithelial rest of Serres.

4-Dilaceration: is an abnormal bend found on a
tooth, and is nearly always associated with trauma that
moves the developing tooth bud.
5-Regional odontodysplasia is rare, but is
most likely to occur in the maxillary anterior
teeth. The enamel, dentin, and pulp of teeth
are affected, so the teeth are very brittle.

On radiographs the teeth appear more
radiolucent than normal, so they are often
described as "ghost teeth".
6-Amelogenesis imperfect: is hereditary
condition characterized by a defect in
dental enamel formation.

Teeth are often free of enamel, small,
misshapen, and tinted brown.
7- Dentinogenesis imperfecta: is hereditary condition
characterized by a defect in either dentin matrix formation or
mineralization of dentin.

8-Natal and neonatal teeth : Natal teeth are present at the
time of birth. Neonatal teeth will erupt during the first 30
days after birth.

Natal teeth are three times more common than neonatal
teeth.
9- Gemination: arises when 2 teeth
developed from one tooth bud, as a result
patient have extra tooth
Reference
 Graff, V.D. 2001. Human Anatomy. 6th Ed. The
McGraw Hill.
 Langman. Medical Embryology. 11th ed.
 Sperber. 2001. Craniofacial Development. London. B.C
Dekker Inc