6 enamel.pdf

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ENAMEL

Dr Sandeep Gupta
 CONTENTS

 INTRODUCTION

 PHYSICAL PROPERTIES

 CHEMICAL PROPERTIES

 AMELOGENESIS
 ENAMEL
Enamel is the hard, vitreous

like substance that covers

the outer regions on the

tooth crown.

It is the cap that covers

and protects the underlying

tissues.
 INTRODUCTION

Protective covering - variable
thickness over crown.

Enamel starts to form
when embryo is 18 weeks.

 Enamel-ectodermal origin
 PHYSICAL PROPERTIES

STRUCTURE
THICKNESS COLOR HARDNESS
OF MATRIX

MODULUS OF SPECIFIC
STRENGTH RESISTANCE
ELASTICTY GRAVITY

PERMEABILIT REFRACTIVE
Y INDEX
 PHYSICAL PROPERTIES

 Hardest calcified tissue in human body -high
content of mineral salts & crystalline
arrangement.

 Extremely hard-- enables to withstand the
mechanical forces applied during tooth
functioning.
PHYSICAL PROPERTIES

4% 96%
 Maximum thickness of over cusps/ incisal edge,
thinning to knife edge at neck of tooth/ pit /
groove area.

 0 to 2 mm (incisors)/ 2.6 mm (molars)
 PHYSICAL PROPERTIES- colour n
translucency

enamel is usually translucent, Underlying Dentin is
yellow
Color-ranges from yellowish white to greyish
white
Greyish teeth more
opaque enamel.

Yellowish teeth-
thin, translucent
enamel-yellow color
of dentin visible
 PHYSICAL PROPERTIES- colour n
translucency

 Cervical areas-
thin enamel-
reflects yellow
color of dentin.
 Incisal areas -
bluish tinge thin
edge of double
layer of enamel
Hardness-350-500  Tooth enamel ranks 5 on mohs hardness
KHN scale and a young’s modulus of 83 Gpa
Compressive strength 50x103 psi/ 350 MPa
Strength Shear strength 13x103 psi/ 90 MPa
Tensile strength 1.5x103 psi/ 10 Mpa(low)
Abrasion
high.
resistance
Modulus of
-high, 19x106 psi/ 130 GPa
Elasticty
Abrasion
high.
resistance
Enamel of Deciduous teeth 2.95
Specific gravity
Enamel of Permanent teeth 2.97

Permeability complete or partial

1.655 (in comparison Porcelain is 1.5 and
Refractive index
Quartz is 1.54)
 CHEMICAL
CONTENT

ORGANIC
INORGANIC
4% (INCLUDES
96% WATER,related to
porosity & transport of
fluoride ions)
 Major– Calcium Enamel & Non
INORGANIC CONSTITUENTS

ORGANIC CONSTITUENTS
Hydroxyapatite enamel Proteins-
proteins
Minor–
fluoride & zinc are carbohydrates(80-
other trace- silver, 95% sugars & 5-
aluminum, barium, 20% amino acids).
copper, nickel,
selenium, titanium, Lipid content
vanadium& lead. (approx 1%)
  Hydroxyapatite crystals-hexagonal in cross
section.
 Molecular arrangement within
each unit cell of crystallite-
hydroxyl group surrounded
by 3 uniformly spaced
calcium ions which in turn
are surrounded by 3 similarly
spaced phosphate ions.

 6 calcium ions in a uniform
hexagon enclose phosphate
ions.
 Fluoride in hydroxyl
position of
hydroxyapatite

Calcium
hydroxyapatite
‘Amelogenesis is the formation of enamel on teeth and
begins when the crown is forming during the advanced
bell stage of tooth development after dentinogenesis,
forms a first layer of dentine’
 ENAMEL PROTEINS
The organic matrix of enamel is made up of
noncollagenous proteins only and contains several enamel
proteins and enzymes.

AMELOGENINS
NONAMELOGENINS
90% ARE
HETEROGENEOUS GROUP 10% ARE– ENAMELIN ,
OF LOW MOLECULAR AMELIN OR SHEATHLIN,
WEIGHT PROTEINS TUFTELIN
 AMELOGENINS

Enamel proteins Physical Properties
characteristics

Amelogenins Major secretory Accumulates during
forms– 25kDa, secretory stage
23kDa, Undergo major
N-terminal domain short term and long
is tyrosine rich. term degradation

Central part is Regulate growth &
leucine rich. thickness
NONAMELOGENINS

Ameloblastin
(amelin or
sheathlin)

Enamelin

Sulfated
glycoprotein
Tuftelin
BUD STAGE
H & E– 10 X
CAP STAGE
H & E– 10 X
EARLY BELL
STAGE
H & E– 10 X
 ADVANCED BELL STAGE
DECALCIFIED SECTION, H
EPITHELIAL ENAMEL ORGAN-Originates from the
stratified squamous epithelium of the primitive oral
cavity.
‘Amelogenesis is the formation of enamel on teeth and
begins when the crown is forming during the advanced
bell stage of tooth development after dentinogenesis,
forms a first layer of dentine’
Enamel formation occurs in 2 phases

SECRETORY PHASE MATURATIVE PHASE
ENAMEL PROTEINS SECRETION AND MATRIX VESICLES PROVIDE
FORM ORGANIC MATRIX CLOSED ENVIRONMENT TO
INITIATE CRYSTAL FORMATION
IN PREFORMED ORGANIC
MATRIX.
 MATRIX PROTIENS CONTINUES TO BE
SECRETED BY AMELOBLASTS-UNTIL ENTIRE
THICKNESS OF ENAMEL LAID.
Enamel crystallite formed-grow rapidly in length
within organic matrix
 PROTEASES HARDEST
SECRETED BY DEGRADE &
ENAMEL
AMELOBLASTS REMOVE
FIRST-SOFT/
MODERATELY ENAMEL
HARD ENAMEL PROTEINS/
AMELOGENIN
SECRETORY PHASE MATURATIVE PHASE

INFLUX OF ADDITIONAL
30%, MINERALISED
MINERAL TO ATTAIN
ENAMEL
96%

PROTEIN-66% PROTEIN-4%

WATER-5% WATER-1%
 LIFE CYCLE OF AMELOBLASTS
 According to function ,life span of cells of inner enamel
epithelium –divided into 6 stages

1.
Morphogenic
2.
6. Desmolytic Organizing/
Differential
AMELOBLAST
LIFE CYCLE

3.
5. Protective Formative/
Secretory

4. Maturative
 1. MORPHOGENIC STAGE

P
 Early bell stage. IEE

 Low cuboidal cells Resting on
basement membrane; separating
it from dental papilla.
D

PROXIMAL-ADJACENT TO
STRATUM INTERMEDIUM

DISTAL-ADJACENT TO ENAMEL
MORPHOGENIC STAGE

P
 Cells are short &
columnar,with large oval nuclei
(almost fill cell).

 Golgi apparatus & centrioles
D
located in proximal end of cell.

 Mitochondria evenly distributed
throughout cytoplasm.
 2. Organizing/ inductive stage

 Late bell stage

 Ameloblasts Elongated up to 40
microns.

 Resting on basement membrane;
separating it from newly formed
odontoblasts.
 Shift proximally towards
NUCLEI
stratum intermedium

Cluster in proximal
MITOCHONDRIA
region,few scattered.

Increased in number.
rER

Increases its volume &
Golgi complex migrate towards central
core of cytoplasm.
 Ameloblasts become reversely
polarised with majority organelles
in cell body distal to nucleus.
 SECRETORY STAGE

 Basal lamina supporting

ameloblasts disintegrates after

deposition of predentin.
 SECRETORY STAGE

 Development of junctional

complexes

 Proximal Terminal Web

 Distal Terminal Web
 SECRETORY STAGE

Synthesis of enamel proteins & secretion

STARTING OF AMELOGENESIS
Structureless layer of enamel deposited
 Ameloblasts migrate away from dentin surface

permitting formation of Tomes’ Process
Tomes’ Process
Contains secretory granules
and small vesicles
Secretion of enamel
confined to 2 sites
FIRST SITE

Adjacent to proximal part
of process
Around the periphery of
cell

SECOND SITE

One surface of Tomes’
process.
Later fills pit with matrix.
 SECRETORY STAGE

Wall being Pits enclosing the
formed by first Tomes’s process
site
Maturative Stage
 MATURATIVE STAGE

 Enamel maturation -occurs after
most of thickness of enamel
matrix formed in occlusal
/incisal region

 (cervical –enamel matrix
formation still progressing).

Two third of amelogenesis time is occupied by maturation stage
 Maturative Stage

Cyclic Process
There is modulation of cells, the cyclic creation, loss and
recreation of ‘ruffle ended’ and ‘smooth ended
ameloblasts’.
 Maturative Stage- Cyclic Process
Ruffle ended Smooth ended

Proximal Proximal
junctions junctions
(Leaky ) (Tight)

Distal Distal
junctions junctions
(Tight) (Leaky)

Induction of inorganic Removal of proteins &
material water
 PROTECTIVE STAGE

 When enamel completely developed & fully calcified-
ameloblasts cease to be arranged in a well defined layer
 PROTECTIVE STAGE

 These cell layers –form stratified epithelial covering of
enamel –called REDUCED ENAMEL EPITHELIUM.
 Function of REE –protecting mature enamel by separating it
from C.T until tooth erupts.
 DESMOLYTIC STAGE
 REE proliferates & seems to induce atrophy of CT
separating it from oral epithelium –

 fusion of two epithelia can occur.
 DESMOLYTIC STAGE

 Epithelial cells elaborate enzymes  destroy CT
fibres by desmolysis.
 DESMOLYTIC STAGE

 Premature degeneration of REE may prevent eruption
of tooth.
THANK YOU