Dentin Hypersensitivity PDF

Summary

This document provides information about dentin hypersensitivity, encompassing definitions, prevalence, etiologies, and management strategies. It details the various theories behind the pain mechanisms and potential causes. The material also offers a patient-focused perspective on coping with the problem, and suggestions regarding suitable professional approaches. Includes symptoms, diagnosis, and a step-wise approach to treatment.

Full Transcript

CONTENTS
➤ Definition

➤ Prevalence
➤ Etiology
➤ Theories

➤ Vicious cycle of hypersensitivity

➤ Symptoms

➤ Diagnosis
➤ Management of hypersensitivity
➤Dentin Hypersensitivity is "characterized by short, sharp pain arising from
exposed dentin in response to stimuli typically thermal, evaporative, tactile,
osmotic or chemical stimuli and which cannot be ascribed to any other form of
dental defect or pathology"
➤The international Workshop on Dentin Hypersensitivity(1983)

➤Manifests as a pain induced by cold or hot food, citrus fruits, sweets, dental
instruments contact with brush
**Tooth hypersensitivity differs from dentinal or pulpal pain:-
In case of dentine hypersensitivity
patient's ability to locate the source of pain is very good
In case of dentinal pain
patient's ability to locate the source of pain is poor
In pulpal pain
patient's ability to locate the source of pain is very poor
 PREVALANCE
➤14.3% of all dental patients.

➤Periodontal patients up to 72-98%
➤Adults in age group of 20-50 yrs (Peaks in 30-40 years)
➤More common in cervical area of facial surface of permanent teeth (Canines and
Premolars commonly involved)
ETIOLOGY
Scaling and root planing in periodontal therapy
Dietary factors: fruit, juice, yoghurt & wines.
Acid in dental plaque, gastric reflux
Agents in toothpaste like abrasive and surfactant
Psychological disorder (bruxism, abnormal clenching habits)
Pathological conditions that cause dentinal hypersensitivity
➤Cracked teeth / chipped tooth

➤Leaky restoration margin
➤Gingival recession and Periodontal disease
➤Deep Dentinal Carnes
➤- Root caries

➤Trauma from occlusion

➤pulpitis
Mechanism of pain transmission - theories of dentin hypersensitivity
Direct neural stimulation theory
Fluid/hydrodynamic theory (most accepted)
Transduction theory
 Direct innervation theory
According to this theory, nerve fibers present within the dentinal tubules initiates
impulses when they are injured and this causes dentinal hypersensitivity
Transduction theory
This theory suggests that the odontoblasts or their processes are damaged when
external stimuli are applied to exposed dentin. As a result of this they conduct
impulses to the nerves in the predentin and underlying pulp from where they
proceed to the CNS.
Hydrodynamic Theory
➤Proposed by Brannstrom M

➤Most accepted theory

➤Dentin has over 30.000 dentinal tubules/mm2
➤These are filled with dentinal fluid which is the intracellular fluid of the pulpal
connective tissue.
➤Whenever exposed dentin is stimulated by tactile chemical, thermal or osmotic
stimuli there is rapid movement of the dentinal fluid. either towards the pulp or
outward.
This can cause:
Direct stimulation of the low threshold A-delta nerve fibers in the pulp.
Indirect stimulation of A delta nerve fibers in the pulp by displacing the
odontoblastic cell bodies.
Such rapid displacement of the dentinal fluid in thousands of dentinal tubules at the
same time produces a cumulative effect and this causes hypersensitivity.
 Vicious cycle of hypersensitivity

Patient refuse
hypersensitivity prophylactic
measures

Increased plaque
deposition

Symptoms
➤Initial: sharp pain of rapid onset and disappears once the stimulus is removed

➤Severe: long standing shorter or longer periods of lingering, dull aching pain
may be provoked
Even a minimal contact with the toothbrush may elicit intense pain
Diagnosis
➤History of nature, intensity, duration and frequency of pain
➤History- periodontal treatment, dietary habits.

➤History of pain during brushing, h/o of trauma, diurnal variation of pain
➤physical findings of tooth/teeth are essential to rule out caries, cracked tooth,
pulpitis, non vital tooth
➤Rule out any other cause of sharp pain.
 Clinical examination.
➤Patient often directs the operator toward the hypersensitive area may be located
by gentle exploration with probe or cold air (due to root surface exposure)
➤Tender on percussion
➤Clinical findings like attrition, fractured cusp

➤Gingival recession/loss of attachment

➤ Thermal test

➤ Electrical test

➤ Radiography
Methods of measuring dental hypersensitivity
Subjective Assessment
1. Verbal rating scale is a simple descriptive pain scale which includes the
following:
Gillam and new Man (1993)
0-No discomfort
1-Mild discomfort
2-Marked discomfort
3-Marked discomfort that lasted for more than
10 seconds
Objective Assessment
Mechanical/Tactile stimuli
1. Explorer probe
2. Mechanical pressure stimulation
3. Yeaple Probe
 MANAGEMENT
Stepwise approach:
1. First Step: confirmation of diagnosis.
2. Second Step: consider etiology and behavior
3. Third Step: management strategies.
Two major groups of products are used to treat dentinal hypersensitivity:
1)those that block and occlude dentinal tubules
2)those that interfere with the transmission of neural impulses.
Treatment strategies for dentinal hypersensitivity
1. Nerve desensitization
Potassium nitrate
2. Anti-inflammatory agents
Corticosteroids
3. Cover or plugging dentinal tubules
a. Plugging (sclerosing) dentinal tubules
b. Dentine sealers
c. Periodontal soft tissue grafting
d. Crown placement/restorative material
e. Lasers
 a. Plugging (sclerosing) dentinal tubules

Ions/salts Strontium chloride
Calcium hydroxide Protein precipitants
Ferrous oxide Formaldehyde
Potassium oxalate Glutaraldehyde
Sodium monofluorophosphate Silver nitrate
Sodium fluoride Strontium chloride hexahy drate
stannous fluoride Casein phosphopeptides
Sodium fluoride stannous Burnishing
Fluoride iontophoresis

b. Dentine sealers
Glass ionomer cements
Composites
Resins
Varnishes
Sealants
Methyl methacrylate
➤Dietary advice: citrus fruits, apple or any other food or drink that acidic in nature
should be avoided.
➤Plaque control

➤ Severe symptoms: use those agents which block the tubular opening.

➤In very severe case, remedy is achieved by pulpectomy or root canal filling.
 Information to patient
Possibility of root hypersensitivity before treatment is undertaken
How to cope with the problem:
1. Hypersensitivity is inevitable if calculus and plaque buried in the root is to be
removed.
2. Disappears slowly over a few weeks.
3. Plaque control is important for its reduction.
4. Desensitizing agent should be used continuously for at least 2 weeks..
Desensitizing agent
Can be applied:
1.By the patient at home.
2.By the dentist or hygienist in the dental office
Clinical evaluation of different agent is difficult because
➤Measuring and comparing pain between different persons is difficult.

➤Hypersensitivity disappears by itself after a time and,
➤Desensitizing agents usually take a few weeks to act
Agent used at home
Desensitizing toothpastes/dentifrices:
The following dentifrices have been approved by the American Dental Association
for desensitizing purposes:
I) Sensodyne
II) Thermodent
➤which contain strontium chloride.
Denquel, and Promise, which contain potassium nitrate.
Protect which contains sodium citrate
 ACTIONS
➤Potassium nitrate 5%-Blocks sensory nerve activity at pulpal end of tubules by
altering the excitability of nerves
➤Strontium chloride 0.4%-combines with phosphate in dentinal fluid, strontium
phosphate crystals then binds to tubular matrix thus leading gradual reduction of
tubular radius and finally leads to closure
➤sodium citrate: Act by precipitation of crystalline salt on dentinal surface - block
the dentinal tubule
Agents used at dental office
1)Topically applied desensitizing agents:-
Fluoride(sod.fluoride, stannous fluoride): possibly by precipitation of insoluble
calcium fluoride within the tubules. Which blocks fluid movement within the
dentin
Potassium nitrate: potassium ions do reduce nerve excitability
Oxalate: Oxalate products reduce dentin permeability and occlude tubules more
consistently
Currently potassium and ferric oxalate solutions are the preferred agents. They
form insoluble calcium oxalate crystals that occlude the dentinal tubules and
prevent fluid movement. ferric oxalate under the name Sensodyne Sealant
Calcium phosphates: Calcium phosphates occlude dentinal tubules in vitro and
decrease in vitro dentin permeability by 85%
2)Placement of restorations:
Glass ionomer or a composite resin restoration may be placed to replace the lost
tooth structure and seal the exposed dentin.
 3) lonto-phoresis
This procedure uses electricity to enhance diffusion of ions into the tissues.
Dental iontophoresis is used most often in conjunction with fluoride pastes or
solutions. (2% sodium fluoride)

A 2% sodium fluoride is applied on the exposed dentin and this is transferred deep
into the dentin on activation of the unit.
4) Lasers
➤Recently, attempts have been made to improve the success and longevity of
these treatment using lasers.
➤Low level laser 'melting" of the dentin surface appears to seal dentinal tubules
without damage to the pulp.
➤Finally, in a combined treatment modality, the Nd:YAG laser has been used to
congeal fluoride varnish on root surfaces.
➤This in vitro study demonstrated that the laser treated fluoride varnish resisted
removal by electric tooth-brushing
➤with 90% of tubules remaining blocked while in the controls (no laser treatment)
the fluoride varnish was almost completely brushed away
➤Further research is still on progression.
Suggestions for patients:
Avoid using large amounts of dentifrice or reapplying it during brushing.
Avoid medium- or hard-bristle toothbrushes.
Avoid brushing teeth immediately after ingesting acidic foods.
Avoid over brushing with excessive pressure or for an extended period of time.
Avoid excessive flossing or improper use of other interproximal cleaning devices.
Avoid "picking" or scratching at the gumline or using toothpicks inappropriately.
 Suggestions for professionals:
Avoid over instrumenting the root surfaces during scaling and root planing,
particularly in the cervical area of the tooth.
Avoid over polishing exposed dentin during stain removal
Avoid violating the biologic width when placing crown margins causing
sübsequent recession
Avoid burning the gingival tissues during in-office tooth whitening or bleaching
procedures
Suggestions for patients: Suggestions for professionals:
Avoid using large amounts of dentifrice or Avoid over instrumenting the root surfaces
reapplying it during brushing. during scaling and root planing, particularly in
Avoid medium- or hard-bristle toothbrushes. the cervical area of the tooth.
Avoid brushing teeth immediately after Avoid over polishing exposed dentin during
ingesting acidic foods. stain removal
Avoid over brushing with excessive pressure Avoid violating the biologic width when
or for an extended period of time. placing crown margins causing sübsequent
Avoid excessive flossing or improper use of recession
other interproximal cleaning devices. Avoid burning the gingival tissues during in-
Avoid "picking" or scratching at the gumline office tooth whitening or bleaching procedures
or using toothpicks inappropriately.