Dentin Structure (Oral Biology I, BDS 123) Fall 2024 PDF

Summary

This document is lecture notes on dentin structure and properties for a course titled Oral Biology I (BDS 123). The lecture was presented at Galala University in Fall 2024.

Full Transcript

Course Title: Oral Biology I
Course Code: BDS 123
Topic of Lecture: Dentin structure..
Lecturer: Prof Samah Mehanny

F A C U L T Y O F D e n t i s t r y

T h e F u t u r e S t a r t s H e r e
F a l l 2 0 2 4

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Dentin forms the
main bulk of the
tooth
-In the crown, it is
covered by enamel
-In the root, it is
covered by cementum

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 Physical Properties
1-Yellowish in color.
Remember that Hunter Schreger bands explain the fact that
enamel in spite of being a translucent structure, doesn’t
entirely reflect the yellowish color of dentin.
Some of the light rays pass through the wavy coursed
enamel rods and others are reflected giving the natural
appearance of the tooth.
If the enamel rods passed in a straight course, the teeth
would clearly reflect the dentin color that gives an unaccepted
esthetic appearance.

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2- Dentin is an elastic vital tissue.
-Presence of collagen fibers and smaller
hydroxyapatite crystals provide the dentin its
elastic quality that prevents fracture of the
overlying enamel.
-Dentin is considered a vital tissue due to
presence of dentinal tubules with its content
(odontoblastic processes and dentinal lymph)

3-Thickness varies from 3-10 mm.
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4- Regarding Hardness (it is softer than
enamel but harder than cementum and
bone). Thus by X-ray, it takes greyish
shade. It is more radiolucent than enamel
(darker) and more radio-opaque than
cementum.

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 Chemical properties of dentin
70-75% inorganic 30-25% organic material
material
Collagen
Hydroxyapatite type I
Phosphorylated
crystals proteins

Glycoproteins
and lipids
(Inactive matrix-metalloproteinase MMPs)

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Role of matrix-metalloproteinase in dentin (adult
dentin and during dentinogenesis)

The MMPs present in the dentin are
produced by odontoblasts during secretion of the
dentin matrix and are suggested to be involved
in dentin formation.

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After mineralization of the collagen matrix, the inactive
forms of MMPs remain trapped within the calcified matrix
but are mostly concentrated in the predentin and at
the DEJ.

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 Active MMPs Inactive MMPs
(after dentin formation
(dentinogenesis) and mineralization)
Acidic medium
Activation to this enzyme occurs if the pH decreases
as in case of caries or during acid etch application.

The consequences of MMPs activation are;
Spread of caries especially at DEJ.
Weakening to the hybrid layer that affects the
durability of the restoration.

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 Types Of Dentin

Mantle
dentin
Primary
Sec. dentin
Circum-
Ir D
Sec. pulpal
dentin
dentin Sec.
RD

Predentin
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Primary dentin : dentin which is formed
to produce the typical form of the tooth.

Secondary dentin: represent the
continuing deposition of dentin by
odontoblast after root formation has been
completed
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Histological Structure Of Dentin
Odontoblastic
process
Dentinal
tubules

Dentin

Predentin

Odontoblasts
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 1-Odontoblasts and Dentinal Tubules
Mantle D

DEJ
Odontoblastic
process (Tome’s fiber)
Circumpulpal D

Preodontoblastic
space (containing dentinal
lymph)

Peritubular dentin
(highly mineralized)

Intertubular
Predentin

dentin
Odontoblasts
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 D.E.J
Peri -
Odontoblastic odontoblastic
process= space !!! →
Tome’s fiber dentinal fluids

Dentinal
tubules

Peri-
tubular
dentin.

Enamel
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Dentin is a vital hard tissue consists of;
Cells and Intercellular substance.
Cells: the odontoblasts are not located
inside its calcified ground substance but
are aligned on its pulpal surface.
A long process (odontoblastic process or
Tomes’ fiber) extends from the distal end
of these cells and traverses the whole
thickness of dentin till the DEJ and just
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The odontoblastic processes run inside a
fine tubules called the Dentinal tubules.

Dentinal tubules: are the unit structure
of the dentin.
Dentinal tubules are built up by
peritubular dentin and are separated
from each other by intertubular dentin.

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 The unit structure of dentin is dentinal
tubules
Number per unit area
Pulpal side : peripheral layer
4 : 1

Diameter
D.T. taper from pulpal surface outwards
Closely packed near the pulp
than in the peripheral layer
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Dentinal tubules

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 Branches
Lateral Terminal
branches branches

The od. Processes may extend into
the enamel giving rise to the Enamel
spindle (pain receptor). This could
explain the highest sensitivity at the
DEJ

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Course of dentinal tubules

At the cusp tip Straight
or (incisal edge)

At cervical
area S shape

Mid portion
of root and
apically Straight
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 Causes of S shape curvature
It results from the crowding of and path
followed by the odontoblasts during their
recession toward the pulp.
This may slow the rate of caries
propagation in this area where thinner
enamel thickness compared with occlusal
/incisal enamel is exist.
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 T.S. In Dentinal Tubules

1- Microscopic picture

Odontoblastic
process (Tomes’
fiber)

Preodontoblastic
space
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 Space of
Rounded light hallo
odontoblastic
(peritubular dentin)
processes

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 T.S. In Dentinal Tubules
2- Ground section

3- Decalcified section
Odontoblastic processes appear
shrunken surrounded by a ring-
shaped space due to the break down
of the delicate matrix of the
peritubular dentin (due to its high
mineral content its matrix is
delicate).
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Odontoblastic process (responsible for the
dentin vitality):
It exists in the dentinal tubule and follows it in
the course, number, diameter, and branches.
The lateral branches originate at a right angle
to their processes, many of them end blindly
while others unite with other branches of
adjacent processes.
They contain all cell organelles, especially in
the area of predentin.
Microtubules and intermediate filaments run
longitudinally through the process.
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 Peritubular dentin
It is a highly calcified dentin.
The mineral content is greater than 90%. In contrast,
the inter-tubular dentin has a mineral content of 70%.
It is deposited on the internal walls of the dentinal
tubules.
It plays a significant role as it keeps the patency of the
dentinal tubules thus maintains the odontoblastic
processes vital and unmineralized.

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 Intertubular dentin
Dentin located between the dentinal tubules.
Represent the primary secretory product of
odontoblasts.
It forms the greater surface area than the
dentinal tubules especially toward the dentin
peripheries.

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 Inter tubular D.

Inter tubular D.

Inter tubular D.
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 Clinical implication of Dentinal tubules
- They are the reason of dentin permeability,
providing a pathway for the caries invasion.
- Infected dentin shows the dentinal tubules
packed with microorganisms.

- Drugs and chemicals present in a variety of
dental restorative materials can also diffuse
through the dentin and create pulpal injury.
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Dentin is a permeable hard tissue with its
tubules extending from the dentino-enamel
junction to the pulp. Therefore, in cavity
preparation, sealing of dentinal tubules is a
mandatory for effective restorative dentistry.

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Dentin bonding system:
Difficulties that faces dentin bonding are:
Dentin contains water.
Presence of smear layer after dentin exposure, that
is formed of a superficial layer that covers the canal
wall and is loosely attached and a deeper layer that
occludes the dentinal tubules and strongly adheres to
the canal wall and hinder proper attachment of the
restoration.

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kindly figure out what’s meant by hybrid
layer.

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Inter-tubular dentin (hybrid layer) vs peritubular
dentin (resin tags) regarding dentin bonding
system:
Resin tags were the main source of bond between
resin-based restorations and dentin.
However, stresses induced at their depth weaken
the bond and affect the durability of the
restoration in return.
On the other hand, Inter-tubular dentin performs
wider surface areas than the dentinal tubules thus
dentin bond relies more on this dentin forming a
hybrid layer.
 Thus Hybrid layer is formed of a hybrid of
demineralized inter-tubular dentin intermingled
with the resin meaning that it is neither resin nor
tooth, but a hybrid of the two.

However, the high collagen content in the inter-
tubular dentin could be degraded by active MMPs
(activated by the applied acid etch) that causes
weakness in the hybrid layer and decreasing the
durability of the restoration.

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 Acid etch application is thus a double-
edged weapon because it Demineralizes the
dentin exposing the collagen fibers of the
intertubular dentin (hybrid layer) allowing
proper bond between the resin-based
restoration and dentin.

The acidity, on the other hand, activates
the MMPs that degrade the collagen fibers of
the hybrid layer which could weaken the bond
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 To overcome the downside of high collagen
content and activated MMPs, the dentin bond should
contains enzymatic inhibitors to inhibit activation of
MMPs.

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 2- Incremental Lines Of Dentin
Incremental lines

Neonatal
line
of von Ebner

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 2- Incremental Lines Of Dentin

1- Incremental lines of von Ebner
They reflect variation in structure and mineralization
during dentin formation. They are hypocalcified
bands. They represent 5 days formation (20 microns
increments)

2-Neonatal line
One of the incremental lines which separates the
prenatal from the postnatal dentin. It is found in
deciduous teeth and first permanent molars.
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 3-Interglobular Dentin
Calcification of dentin in some
areas occurs in a form of
globular pattern.

These globules fuses together to
form homogenous substance.

Sometimes globules in some
areas failed to fuse. Area of
organic matrix between the
globules remain uncalcified or
partially mineralized. These
areas bonded by the curved
outlines of the adjacent
globules.
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 4-Tomes’ Granular Layer

Tomes’ granular
layer

Cementum
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The Tome’s granular layer results from looping
of the terminal portion of the dentinal tubules
thus the odontoblastic processes don’t extend to
the cemento-dentinal junction differing from
that may occur at the dentino-enamel junction
(enamel spindle).

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The significance of Tome’s granular layer:
It may protect the pulpal tissues from any insult
arising from the PDL as the covering cementum
is thin and highly permeable.

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 E
C

Interglobular dentin Tomes’ granular layer
(Size) Large
(Size) Small granular in
appearance
(Cause) Areas of
unmineralized or (Cause) it results from
hypomineralized looping of the terminal
dentin (sometimes portions of DT (always
present).
present).
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 E
C

(Site) Appear in the crown (Site) Appear in the root
just below mantle dentin. adjacent to the cementum.
(D T) Dentinal tubules cross (DT) Dentinal tubules do not
the IGD without the cross this layer
peritubular dentin

(IL) Follow incremental line (IL) Does not follow any
pattern incremental pattern.
In badly formed tooth it
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 Functional adaptation of the dentinal tubules:
In the crown;
The coronal dentin is well protected by enamel
thus the dentinal tubules reach to the dento-
enamel junction. However, their diameters are
narrow at the DEJ as a sort of protection to the
pulpal tissues.
Narrower diameter

Wider diameter

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In the root;
The radicular dentin is covered with thin
permeable cementum thus the dentinal
tubules don’t reach the surface and loop
forming Tomes’ granular layer.

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Innervations Of Dentin
Plexus of Raschkow (sub-
odontoblastic layer)

The nerves will loose their
schwann coating then
pass between the
odontoblasts bodies and
enter the dentinal tubules
(they are higher in the
crown than in the root )

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Dentin sensitivity:

High at D E J

Less sensitive
area

High near the
pulpal surface

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Theories Of Pain Transmission Through
Dentin.

Fluid or
Direct neural Odontoblastic hydrodynamic
stimulation transduction theory
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Theories Of Pain Transmission Through Dentin.

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 A- Direct neural stimulation:
This theory depends on the fact that dentin contains
nerve endings, which respond when dentin is
stimulated. Recent studies confirm the presence of
these nerve endings.

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 B- Odontoblastic transduction theory:
This theory is explained as follows; since odontoblasts
are of neural crest origin, they retain the ability to
transduce and propagate an impulse. However, this is
not true because there is no synapse between the cells
and the nerve fibers.

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C- Fluid or hydrodynamic theory:
This theory involves fluid movement through the
dentinal tubules which affects the nerve endings
in the plexus of Raschkow.

Both theories A and C are the most accepted
Fluid or hydrodynamic theory explains the pulp
response in case of exposed dentin accompanied
with reversal pulpitis:

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Hot drinks produce Cold drinks produce
a weaker response a stronger response
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 Explanation

Cold stimulus; Contracts
the dentinal fluids leading
Hot stimulus; expands the to outward movement of
dentinal fluids leading to the fluid as well as the
inward movement thus odontoblasts. This will
pushing the odontoblasts into cause pressure on the nerve
the pulp, releasing the pressure endings in the tubules.
on the nerves.
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