Dental Pulp - Dr. Dina M. Makawi PDF

Summary

These notes cover the definition, morphology, histological structure, function, and age-related changes of the dental pulp.  The document describes the cells, fibers, and intercellular substances that make up the dental pulp, and how their structure and function change with age.

Full Transcript

DENTAL
PULP

Dr. Dina M. Makawi
Msc, PhD
Lecturer of Oral Biology
Room#S33
 INTRODUCTION

Definition

Outline
Morphology

Histological Structure

Function and Age
changes
 Definition

◦ The dental pulp is a specialized
loose delicate connective
tissue occupying the cavity in
the center of each tooth.
MORPHOLOGY
 Morphology

ØThe coronal pulp: it is present in the pulp
chamber.
ØIt is composed of wide part called pulp
chamber, showing extensions towards the
incisal edge or cusps tip called pulp horns.

ØThe radicular pulp: It is the extension of
the pulp into the root which tapers gradually
to end at the apical foramen.
 Morphology

ØThe apical foramen: The pulp
tissue are continuous with the
periapical tissue through the
apical foramen
 Morphology

ØDuring the root formation, the
apical foramen is wide.
ØBy age the root canal and the
apical foramen decrease in size
due to cementum and dentin
deposition.
 Morphology

ØThe apical foramen:

Maxillary teeth Mandibular teeth
0.4mm 0.5 mm
 Morphology
ØAccessory Canals:
◦ They are commonly seen to extend from radicular pulp
laterally through the root dentin to the periodontal ligament.
◦ They are numerous in the apical third of the root.
 Morphology
ØAccessory Canals (Mechanism Of
formation):

1- It occurs in areas, where the developing root
encounters a large blood vessel, where dentin will be
formed around it.

2- Early degeneration of the epithelial root sheath of
Hertwig before the differentiation of the odontoblasts.

3-Lack of complete union of the Tongue- like processes
at the floor of the pulp chamber.
HISTOLOGY OF THE
PULP
Histology of the pulp
The dental pulp is formed of specialized loose
connective tissue:
1. Cells
2. Fibers
3. Intercellular Substances
4. Blood vessels and Nerves

The pulp cavity exhibits four zones as you
progress from the dentin-pulp junction
toward the center of the pulp cavity
Pulp Zones

1- Odontogenic
zone:
Odontoblastic zone
1
Cell free zone
Cell rich zone 2

2- Pulp core
1-Odontogenic zone:

A- Odontoblastic zone:
Adjacent to the pre-dentin with the cell
bodies in the pulp and the cell processes
in the dentinal tubules.
B- cell free zone :
- It is present beneath the odontoblastic layer and known as zone of Weil.
- It contains the sub-odontoblastic plexus of nerves and capillaries.
- It is suggested to be the area of mobilization and replacement of odontoblasts.
- More prominent in coronal pulp than in radicular pulp.
 C- cell rich zone:
It is present beneath the cell free zone.
It is composed of fibroblasts and undifferentiated mesenchymal cells.
C- cell rich zone:
 Cells of the pulp
1- Synthetic cells (formative cells):
Odontoblasts and Fibroblasts.
2- Defensive cells:
Macrophages, lymphocytes, eosinophils, mast
cells and plasma cells.
3- Progenitor cells:
Undifferentiated mesenchymal cells.
1- Synthetic cells:
a- Odontoblasts
◦ Found as single layer at the pulp periphery, sending
their cell processes (odontoblastic process) in
dentinal tubules.

◦ They are attached to each other by desmosomes.
Odontoblasts are :

columnar in the crown

cuboidal in root,

flat at the root apex
 b- Fibroblasts
◦ These are the most numerous type of pulp cells.

◦ They are spindle in shape.

◦ They have elongated processes which connect
with those of other pulpal fibroblasts (stellate
appearance).
b- Fibroblasts

◦ These cells have a dual function: synthesis
and degradation of fibers and ground
substances by the same cell.
b- Fibroblasts

◦ In young pulp, they are :
◦ Large cells.
◦ with large multiple processes
◦ centrally located oval nucleus,
◦ numerous mitochondria,
◦ well developed Golgi bodies
◦ well developed RER
b- Fibroblasts

In periods of less activity and aging they
appear smaller and round or spindle-shaped
with few organelles, then they are termed
fibrocytes.
2- Defensive cells:
A- Histiocyte (macrophage):
◦ They appear irregular in shape with short blunt
processes.
◦ The nucleus is small, more rounded & darker in
staining than fibroblast.
◦ Play role in defense mechanism & can engulf
foreign bodies and bacteria.
b- Plasma cells:
◦ These cells are seen during inflammation.
◦ The nucleus of this cell is small an appears
eccentric in the cytoplasm.
◦ The arrangement of chromatin in the nucleus
gives the cell a cart-wheel appearance,
◦ The plasma cells are known to produce antibodies.
 c- Lymphocytes:
◦ They show great variation in size and shape.
◦ In normal pulps, T lymphocyte is found but B
lymphocytes are few.
◦ The smaller one has darkly stained rounded nucleus
with little cytoplasm. While the large cells have an
eccentric kidney shaped nucleus.
 D- Eosinophils:
◦They are found in normal pulp and they increase
during inflammation.
E- Mast cells:
*They have a round nucleus and their
cytoplasm contains many granules.
*They produce histamine& heparin.
3- Progenitor cells:
(UMC):
◦ They are smaller than fibroblasts but have a
similar appearance.
◦ They are usually found along the walls of
blood vessels.
◦ These cells have the potentiality of forming
other types of formative or defensive cells.
The ground substances of the pulp
*The ground substances consists of acid mucopolysaccharides
and neutral glycoprotein.

*These substances are the environment that promotes life of
the cells.
NERVES OF THE
PULP
Nerves Of The Pulp
◦ The pulp is richly innervated. Nerves enter the pulp
through the apical foramen, along with afferent
blood vessels, and together form the neurovascular
bundle.
 Nerves Of The Pulp
◦ Two types of nerve supply:

1- Autonomic sympathetic nerve fibers They act to regulate the
blood flow in the capillary network of the large blood vessels and
control their contraction and dilatation.

2- Sensory Nerve Fibers:
- They are afferent sensory fibers, originate from the maxillary and
mandibular branches of the trigeminal nerve.
- Involved in the perception of pain (the only identified sensation, as
those nerves cannot differentiate between heat, touch, pressure, or
chemicals, they translate all those different sensations as Pain)
 Nerves Of The Pulp
◦ Sensory nerves branches contribute to an extensive plexus of
nerves in the cell-free zone of the pulp just below the cell bodies of
the odontoblasts in the crown.

◦ This plexus of nerves is called the sub-odontoblastic plexus of
Raschkow or the parietal layer of nerves.

o The plexus of rashckow: LARGE MYELINATED A-FIBERS,SMALL
UNMYELINATED C-FIBERS
Dental Pain (Pulpitis)
◦ Pulpitis is an inflammation of the dental
pulp that is usually caused by bacterial
infections.
◦ It has two forms (reversible) pulpitis and
(irreversible) pulpitis
TYPES OF DENTAL
PAIN
1-Sharp, stabbing localized pain
(Occurs in cases of Reversible
pulpitis)

§ Conducted by the A-delta fibers of the pulp;
- As the A-fibers are myelinated axons and have a fast
conduction speed , they transmit pain directly to the
brain, and generate a sharp stabbing pain that is easily
localized.
- A-Fibers are activated by hydrodynamic stimuli, such as
drilling, sweet foods, cold air.
 2-Slow, diffuse, and referred pain
(Occurs in cases of Irreversible pulpitis)

§ Conducted by the C- fibers of the pulp;
- C fibers are unmyelinated and have a low conduction
velocity.
- located deeper than the myelinated fibers and cause slow,
diffuse pain. The location of the C fibers in the core or
central region of the pulp may explain the diffuse
referred pain.
- Clinical description of this type of pain is that it is it is a
dull, vaguely located, aching pain that increases
several seconds after a hot drink.
 Sensory response in the pulp
cannot differentiate between
◦ Heat,
◦ Touch,
◦
◦
Pressure,
Chemicals
Pain

This is because the pulp organs lack
those types of receptors.
 Type of nerve C-fibers A. fibers
Myelination Unmyelinated axons Myelinated axons

Conducting Low conduction Fast conduction
speed speed speed
Diameter Smaller diameter Larger diameter
THE PLEXUS OF RASHCKOW: Pain Slow, diffuse, and Sharp, stabbing
- LARGE MYELINATED A-FIBERS referred pain pain that is
localized
- SMALL UNMYELINATED C-FIBERS
Stimulus Heat stimulus Hydrodynamic
stimuli;
drilling, sweets,
cold air.
Pulpitis Pulpitis* (irreversible) *Pulpitis
(reversible)
Location Center of the pulp Periphery of the
pulp
FUNCTION OF THE
PULP
Function of the pulp
1- Inductive
2- Formative
3-Nutritive
4-Protective
5- Defensive or reparative
1- Inductive:
◦ Dental papilla induces the enamel organ formation and also determines the
morphology of the tooth.
2- Formative :
Pulp organ produces dentin. Odontoblasts develop the
organic matrix and function in its calcification.
3- Nutritive :

ØThe pulp nourishes the dentin.
ØNutrition is mediated through the odontoblasts
and their processes.
4- Protective :

◦ The sensory nerves in the tooth respond with
pain to all stimuli.
◦ Pain sensation is a useful alarm system of the
pulp.
5- Defensive or reparative:

1. The pulp responds to irritation by producing
reparative dentin.
2. These reparative reactions are an attempt to
wall off the pulp from the source of irritation. a t ive
r
pa tin
3. The presence of macrophages, lymphocytes e
R en
D
and leucocytes also aid in the process of repair
of the pulp.
AGE CHANGES OF
THE PULP
 The size of the pulp

The cellular elements
Age changes
in the pulp The bl. vessels & n.

Vitality
1- Size of the Pulp
Continuous deposition of secondary
dentin on pulp chamber especially floor
of chamber leading to gradual reduction
in size and obliteration of pulp chamber.
(Pulp recession)

So, the risk of pulp exposure during
dental treatment is reduced by age.

Apical foramen narrows by cementum
deposition
 ◦ By age, the cells of the pulp decrease:
a) In number (especially UMC).
b) In size.
2- Cellular c) In number of cytoplasmic organelles.

Elements ◦ So, the reduction of pulp cell especially
UMC reduces the regenerative and the
reparative power of the pulp.
3-Vascular By age blood vessels show:
1. Decrease in number
Change 2. Greater diameter of the vessel wall
3. Calcification around the bl.v walls
 4-Neural Loss & degeneration of
Change and nerve axon occurs by age,
leading to reduction of pulp
Vitality sensitivity.
 Fibrosis
Age changes
in the pulp
Pulp Calcification
 ◦Increase in collagen fiber
bundles which:

5- Fibrosis 1.Become arranged
longitudinally in the
radicular pulp.
2. And show random diffuse
arrangement in coronal
pulp.
6-Pulp Calcification
According to structure:

1- Localized calcification: 2- Diifuse Calcification
◦ True Denticles
◦ False denticles
1-Localized
Calcification
◦ True Denticles:
◦ True denticles are rare & small in size&
found near the apical foramen.
◦ They consist of irregular dentin containing
traces of dentinal tubules and few
odontoblasts.
◦ Remnants of the epithelial root sheath
invade the pulp tissues causing UMC of the
pulp to form this irregular type of dentin.
1-Localized
Calcification
◦ False Denticles:
They are evidence of dystrophic calcification
of the pulp tissue.
They contain no dentinal tubules.
They are formed of degenerated cells or
areas of hemorrhage which act as a central
nidus for calcification.
Overdoses of vit. D, may favor the formation
of numerous denticles.
1-Localized Attached
Calcification
◦ False Denticles:
◦ Pulp stones are classified according to their
location in relation to the walls of the pulp
cavity into:
1. Free: in the pulp only.
2. Attached: Part in the pulp and part in
dentin. Free
3. Interstitial or embedded: All in dentin,
caused by the formation of secondary dentin
around the attached denticle.
◦ They continue to increase in size and in
certain cases they fill up the pulp chamber
completely.
1-Localized Attached
Calcification
◦ False Denticles:
◦ They are usually asymptomatic but:
vIf pulp stones come close enough to a
nerve bundle pain may be elicited.
vThe close proximity of pulp stones to Free
blood vessels may cause atrophy of it.
2-Diffuse Pulp Calcification

◦ Commonly occurs on top of hyaline degeneration in
the root canal and not common in the pulp chamber.
◦ They are irregular calcific deposition in the pulp
tissue following the course of blood vessels or
collagenous bundle.
◦ Advancing age favors their development.
Age Changes of the Pulp
Size
Cellularity
Vascular changes
Fibrosis
Pulp stones (denticles)
False Denticles

True Denticles

Diffuse Calcification
THANK YOU