DENTAL CARIES
DENTAL CARIES
INTRODUCTION:
Dental caries and periodontal diseases are probably
the most common chronic diseases in the
world. Although caries has affected humans since prehistorical times, the
prevalence of this disease has greatly increased in modern times. There is now evidence this trend peaked and began to decline in the last
decade. This is attributed to the wide range of caries preventive measures like
increased use of florides, increased oral hygiene awareness, increased parental
care and improvement in preventive dentistry.
The
cost of caries to society is enormous. The total indirect costs like loss of
time from work and training dentists outweigh the direct costs. In addition
caries results in other significant although intangible costs in the form of
pain, suffering and cosmetic defects.
Considering
the magnitude and almost universal impact of caries, it is remarkable that a
public supported program for the
eradication of the disease never developed as did programs against polio and
cancer. Inspite of the tremendous benefits of fluoridation of public water
supplies, the time is appropriate for such a comprehensive program, since it
now appears that eradication of caries of caries is an achievable goal.
Caries
research is by no means complete but the etiology and pathogenesis are
sufficiently well understood that caries can be totally prevented in motivated
persons.
DEFINITIONS OF DENTAL CARIES
The
word caries is derived from Latin, meaning ‘rot’ or ‘decay’. It is similar to
Greek word ‘ker’ meaning death.
- Dental caries is an infectious microbiological disease
that results in localized dissolution and destruction of the calcified
tissues of the teeth. (Purkit).
- Dental caries can be defined as a localized post
eruptive pathologic process of external origin involving the destruction of
hard tooth tissue, which if continued results in the formation of a
cavity. (Norman H. Harris)
- Dental caries is a multifactorial disease requiring the
presence of a susceptible host,
cariogenic microflora and a diet conducive to enamel demineralization.
(Soben Peter)
- Dental caries is defined as a progressive,
irreversible, microbial disease affecting the hard parts of the tooth
exposed to the oral environment, resulting in dimeneralization of the
inorganic constituents, dissolution of the organic constituents, thereby
leading to a cavity formation. (Soben Peter)
CLASSIFICATION OF DENTAL CARIES
A. Black’s Claffication
Class
1 :
- Cavities on the occlusal surfaces of premolars and
molars
- Cavities on the occlusal 2/3rds of the facial and
lingual surfaces of molars
- Cavities on the lingual surfaces of maxillary incisors
Class
11:
- Cavities on the proximal surfaces of posterior teeth
Class
111:
- Cavities on the proximal surfaces of anterior teeth
that do not involve the incisal angle.
Class
IV:
- Cavities on the proximal surfaces of anterior teeth
that do involve the incisal edge.
Class
V:
- Cavities on the gingival third of the facial or lingual
surface of all teeth.
Class
VI:
- Cavities on the incisal edge of the anterior teeth or
occlusal cusp heights of posterior teeth.
B[1]:
According
to location on individual teeth
- Pit and fissure caries
- Smooth surface caries
B[2]:
According
to the rapidity of the process
- Acute dental caries
- Chronic dental caries
B[3]:
Depending
on the origin
- Primary caries
- Secondary Caries
- Residual caries
B[4]:
Depending
on extent of lesion
- Incipient (reversible) caries
- Cavitated caries
B[5]:
Depending
on the tissue involved
- Enamel caries
- Dentine caries
- Cemental caries (root caries)
B[6]:
Depending
on the patient’s age
- Nursing bottle caries
- Senile caries
HISTORICAL ASPECT
Dental
caries may be considered a disease of modern civilization, since prehistoric man
rarely suffered from this form of tooth destruction. Anthropologic studies of
VON LENHOSSEK revealed that the dolicocephalic skulls of men from preneolithic periods
(12,000 BC) did not exhibit dental caries, but skulls from Brachycephlic man of
the Neolithic periods (12,000 – 3000 BC) contained carious teeth. The cervical
areas of teeth in older persons were
frequently affected.
EARLY THEORIES OF CARIES
FORMATION
1.
The legend of the worm
2.
Endogenous theories
a.
Humoral theory
b.
Vital theory
3.
Exogenous theories
a.
Chemical (Acid) theory
b.
Parasitic (Septic) theory
4.
Miller’s chemicoparasitic theory (acidogenic theory)
5.
Proteolysis theory
6.
Proteolysis chelation theory
PRESENT SCENARIO
Etiologic factors in Dental
Caries
1.
Host Factors
A.
Tooth
Not
all teeth or tooth surfaces are equally susceptible to caries, nor is the rate
of progression of all carious lesions are constant. Factors influencing the
site of attack and the rate of caries in relation to a tooth depend upon the
following factors:
Composition
of Tooth:
- If the solubility of the surface enamel is higher the
chance of caries formation is more.
- Increased permeability of the enamel surface increases
the possibility of caries development and it can be seen in case of a
tooth having hypoplastic enamel.
Morphology:
Presence
of deep, narrow and retentive pits and fissures on the tooth surface may
contribute to a higher caries incidence, as they tend to trap food, bacteria
and debris.
Position:
The
malaligned, rotated or out of position teeth in the dental arch are attacked by
caries more frequently as there is more possibility of plaque accumulation in
these regions and more over these teeth are difficult to keep clean.
B.
Saliva:
The
saliva factor play a very important role in the prevention of dental caries.
Flow
Rate à when the
salivary flow rate is decreased, the caries incidence becomes higher as saliva
causes cleaning of the bacteria from the tooth surface by its flushing action.
Viscocity:
When
viscocity of saliva is increased, there will be more and more deposition of
plaque on the tooth surface since the thick saliva fails to produce adequate
cleaning action.
Buffering
Capacity:
High
concentrations of salivary bicarbonate ions cause neutralization of acids produced by
the cariogenic bacteria by their buffering action and this results in a
decrease in rate of tooth decay.
C.
Sex :
Most
of the studies have shown that dental caries is more common in females.
D.
Race:
Dental
caries is more in whites compared to blacks.
E.
Age:
It
is more commonly seen in childhood. Over 60 years of age root caries is seen
which is mainly due to gingival recession.
F.
Familiar Heredity:
Inheritance
of a characteristics tooth structure has lesser influence than environmental
factors.
G.
Developmental Disturbances:
The
presence of deep pits and fissures, enamel hypoplasia and enamel defects make
the tooth more prone to dental caries.
H.
Economic Status:
In
young primary school children dental cares decreases with increase in income.
Among adults as income decreases there is a decrease in dental caries.
I.
Oral Hygiene Habits:
Dental
caries is found to be less among those who maintain good oral hygiene.
II.
Agent Factors (Microflora)
Consists
of dental plaque forming streptococci role of micro organism in caries:
- Microorganisms are
prerequisite for caries initiation
- The ability to produce acid is a pre requisite for
caries induction, but not all acidogenic organisms are cariogenic
- Streptococcus strains that are capable of inducing
caries are also able to synthesize extra cellular dextrans or levans.
Properties of Cariogenic Plaque:
- The rate of sucrose consumption was higher
- Synthesize more intra cellular polysaccharides
- Higher levels of streptococcus mutans
- More lactic acid is produced
III. Environmental Factor
Diet
Factor
Physical
nature of diet: If the diet contains sufficient amounts of fibrous foods that help to keep the teeth clean as well as
simulates the salivary flow, then the chances of caries formation will be less,
whereas more and more intake of soft and sticky foods increase the possibility
of caries development.
Composition
of Diet:
- Presence of phosphates and fats can reduce the
incidence of caries
- Traces of molybdenum and vanadium in the diet may
reduce caries
Role
of Acids:
- Following the ingestion of fermentable carbohydrates a
variety of acids are produced namely the lactic acid, butyric acid, acetic
acid, aspartic acid
- Metabolism of carbohydrates by streptococcus mutans
produce organic acids, which results in a highly localized drop in PH at
‘plaque tooth interface’
- A drop in local PH below 5.5 causes demineralization of
tooth surfaces
Geographic
Variations:
DMFT
is found to be decreasing in developed countries, and increasing in developing
countries. The use of fluorides, oral
hygiene practice and diet play a major role as a cause for this difference.
Soil:
Selenium
is found to increase dental caries whereas molybdenum and vanadium are said to
decrease dental caries.
Urbanization:
Dental
caries is said to increase with urbanization.
Climate:
Sunlight
is said to decrease caries whereas rainfall is said to increase dental caries.
The Carious Process
Enamel
Caries: It
consist of 4 zones
Zone 1: Translucent zone
Zone 2: Dark zone
Zone 3: Body of the lesion.
Zone 4: Surface zone
Dental
Caries: It
consists of 5 zones
Zone 1:
Zone 2: Subtransparent Dentin
Zone 3: Transparent Dentin
Zone 4: Turbid Dentin
Zone 5: Infected Dentin
Root
Caries:
These
are the carious lesions, which involve the cemental wall of the exposed root
surfaces of teeth.
Clinical
types of Caries:
1.
Pit and
fissure caries : This type of caries occurs in the developmental pits and
fissures of the teeth which include occlusal surfaces of molars and premolars,
buccd and lingual surfaces of molars and lingual surfaces of maxillary
incisors.
2.
Smooth
surface caries: This type of carious lesion occurs in relation to the
smooth surfaces of teeth. They occur mostly in the proximal surfaces of the
teeth just below the contact point.
3.
Rampant
Caries: This
is an acute fulminating type of carious process, which is characterized by
simultaneous involvement of multiple number of teeth in multiple surfaces.
4.
Nursing
Bottle Caries: This is another type of acute carious lesion which occurs
among those children who take milk or fruit juices by the nursing bottle, for a
considering longer duration of time, preferably during sleep.
5.
Arrested Caries
6.
Recurrent Caries
7.
Forward Caries
8.
Radiation Carries
Caries
Activity Tests:
A
number of caries activity tests have been evolved to help detect the presence
of oral conditions associated with
increased risk of caries.
Synder
Test:
Synder
test measure the ability of salivary microorganisms to produce organic acids
from a carbohydrate medium. Glucose – agar media containing an indicator dye is
used for this test. The indicator dye changes from green to yellow in the range
of PH between 5.4 to 3.8 paraffin
stimulated saliva (0.2ml) is added into the medium, change of the medium from
green to yellow is indicative of the degrees of caries activity.
Salivary
Reductase Test:
It
measures the activity of the reductase enzymes present in salivary bacteria.
Salivary
Buffering Capacity Test:
It
is a chair side test to measure the buffering capacity of the saliva.
Microbiological
Test:
It
helps to measure the number of streptococcus mutans and lactobacillus
acidophilus per microliter of saliva.
Levels of Prevention
Primary
Prevention:
1.
Diet planning
2.
Periodic visits to dentists
3.
Appropriate use of fluoride, ingestion of fluoridated water,
use of fluoride dentrifices
4.
Oral hygiene practices
Community
Level:
- Dental teeth education programs
- Community or school water fluoridation
- Flouride mouth rinse, tablet and sedant programs
Professional
Level:
- Patient education
- Diet counseling
- Topical application of flourides
- Flouride supplements and rinses
- Pit and fissure sealants
Secondary
Prevention
Individual
Level:
- Self examination & referral
- Use of dental services
Community
Level:
- Periodic screening and referral
- Provision of dental services
Professional
Level:
- Complete examination
- Prompt treatment of incipient lesions
- Preventive resin restoration
- Simple restorative dentistry
- Pulp capping
Tertiery Prevention
Disability
Limitation:
- Complex restorative dentistry
- Pulpotomy
- Root canal therapy
- Extractions
Rehabilitation:
- Removable and fixed prosthodontics
- Minor tooth
movements
- Implants
Future
Trends in Dental Caries
New
knowledge is molecular and cellular biology, genetics, pharmacology, radiation biology, radiation
physics and technology, including tomography,
dental materials based on polymer chemistry and ion exchange, microbiology, immunology and behavioural science are all relevant to the understanding
and clinical management of dental problems.
De
paola further states, “In terms of future scientific achievement, it is not
difficult to predict starting new advances due to the application of recombinant DNA technology, the applicant
of space age technology, and the general advancement of scientific methodology.
Advances in these area scan have direct
impact on dental practice through the
development of new treatments and preventive modes, new biomaterials applicable
to dental practice, and more sophisticated techniques to measure the health
status of individuals.
The
use of lasers may become a mechanisms for welding dental alloys and may even be
used in the future in cavity preparation.
In
the near future a method to adhesively bond composite materials to dentin is
expected. Such a development could have dramatic effects resulting in minimal tooth
preparation.
The
remineralization of a tooth surface affected by a beginning carious lesion may not only decrease the need for restorative
care but also result in a tooth surface that will be more resistant to
subsequent attacks. The development of
appropriate fluoride applications and techniques to produce this
remineralization appears to be a reality in the near future.
Efforts
are also being made to develop an anti caries vaccine which is still in the
experimental stages.
Caries Vaccine:
There
exists the possibility of preventing dental caries by stimulating the defense
mechanisms of the mouth. Once it was established that caries was an infectious
disease, it was realized that caries might be controlled by use of a vaccine.
The
currently favoured targets for such a vaccine are :
- Glucosyl Transferase enzyme (GTF) from S. Mutans or
- A yet to be selected wall fraction of S. Mutans
Protection
against dental caries by immunization could be achieved by immune components from
serum by IgA antibodies in salivary secretions or by a combined effect of serum
and salivary components.
Parenteral
immunization directed to S. Mutans could
favour the early establishment of a non-cariogenic microflora on the teeth
which in turn could prevent or delay the colonization of pathogenic S. mutans
and thereby reduction in dental caries.
CONCLUSION
Prevention
and control of dental caries must be the foremost objectives of dentistry.
Preventive measures for caries should not be applied to all patients. Only
caries active patients and those at high risk who will most likely benefit from
preventive measures should be treated.
Caries
activity should be viewed as a problem of oral ecology in which there is an
abnormal abundance of cariogenic organisms. Preventive treatment is based on
reducing the pathogen population size and increasing the resistance of the
tooth to cariogenic attack.
Research
efforts in understanding of the carious process, maximizing the benefits of
fluoride use, and developing anticaries, vaccines must be continued. Patient
education and motivation in the prevention
of dental caries must be stressed.
Finally, the clinical expeditiously and judiciously.
SUMMARY
Caries
in an infectious disease of microbial origin. Numerous cross sectional and
longitudinal surveys have found a strong association between dental caries and
the levels of mutans streptococci in dental plaque. This association is
stronger for pit and fissure caries.
The
properties of cariogenic bacteria that appear to correlate with their
pathogenicity are their ability to rapidly metabolize dietary carbohydrates to
acid over a range of environmental conditions, but especially at low PH, and to
be able to survive and grow under acidic conditions so generated.
Strategies
to control or prevent dental caries are based on
- Reducing levels of plaque
- Using fluoride to strengthen the resistance of enamel
to acid attack and
- Inhibiting acid production by avoiding the frequent
intake of fermentable carbohydrates.
In
practice, the early identification and expeditious treatment of caries greatly
minimizes the loss of teeth. When such routine diagnostic and treatment
services are linked with a dynamic preventive dentistry program, there is a
realistic expectation that the loss of teeth can be reduced to zero or near
zero.
REFERENCES
- Soben Peter -
Essential of Preventive and Community Dentistry
- Shaffers and Purkit – Textbook of Oral Pathology
- Philip Marsh – Textbook of Oral Microbiology
- Norman Harris – Primary Preventive Dentistry
- Sturdevant – Textbook of Operative Dentistry
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