Introduction to Operative Dentistry Cavity Classification and Nomenclature PDF

Summary

This document provides an introduction to operative dentistry, focusing on cavity classification methods, including anatomical, Black's, numerical, and Mount and Hume's classifications. Diagrams and illustrations are included to enhance understanding.

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Introduction to Operative Dentistry
Cavity Classification
and Nomenclature
BY: Asmaa khater
Introduction to Operative Dentistry

Definition:
“Operative dentistry is defined as science and art of dentistry which deals
with diagnosis, treatment and prognosis of defects of the teeth which do not
require full coverage restorations for correction.”
Such corrections and restorations result in the restoration of proper tooth
form, function and esthetics while maintaining the physiological integrity of
the teeth in harmonious relationship with the adjacent hard and soft tissues.
Such restorations enhance the dental and general health of the patient
Objectives of operative dentistry:
The objectives of operative dentistry are now broadened to include both
preservation and prevention.
1. Operative dentistry aims at the prevention of dental disease and is
concerned with the preservation of the natural teeth and their supporting
structures in an optimal state of health to avoid their future loss or extraction.
Proper diagnosis of lesions, including their locations and extent, is vital for
planning the treatment
2- the application of all procedures for prevention before the appearance of
any sign and symptom of disease. also
3- interception; in order to prevent the disease from developing into a more
serious or full extent, It provides the capability of restoring teeth to their
natural form, function, strength and esthetic state
4- Preservation of optimum health of
teeth and soft tissue of oral cavity is
obtained by preventive and interceptive
procedures

5- Restoration;
 These restorative procedures have both
scientific and artistic foundation.
 It is important to understand anatomy
of teeth because of following reasons:
For maintenance of supporting tissues in
the healthy state.
For restoration of damaged tooth to its
original form and ethetic.
For optimal functions of teeth.

6. Maintenance; After restoration is done,
it must be maintained for longer useful
service.
 Cavity Classification and Nomenclature

A cavity is:
 a defect in the hard tooth structure
resulting from dental caries.
 The cavity is surgically opened to
expose the carious lesion.
 the carious material is removed and the
cavity is given a form that will assure;
1- proper retention for the restorative
materials,
2-adequate resistance to fracture during
function,
3- immunity from the recurrence of caries
at the margins of the restorations and
protection for the vital pulp.
 Caries is more liable to occur in certain
areas in teeth than others, these areas
favor accumulation of food debris and
are rather difficult to keep clean by the
patient.

Areas of liability to caries: (danger areas)
Stagnation areas in which food collects
and undergoes fermentation by bacteria
present in the mouth in huge amounts.
This fermentation will lead to acid
production which is responsible for
decalcification of enamel and caries
process will start and as a result a cavity
will be established.
 1. Pits and fissures:

 These are enamel defects or faults
which result from incomplete union of
enamel lobes during formation of
enamel.
 A pit results from incomplete union of
three enamel lobes, while a fissure
results from incomplete union of two
lobes of enamel during the formative
period of enamel. If a complete union
occurs between two enamel lobes the
results will be a groove, while complete
union between three enamel lobes will
lead to the formation of a fossa
2. Areas in the proximal surface below the contact point( subcontact area):
 The proximal surfaces of the teeth are
smooth surfaces because there are no
pits or fissures present.

 Areas between two adjoining teeth
are a place where food debris can
stagnate and ferment, hence each
tooth has a danger area just below its
contact point where interproximal
cavities occur.
 Since the shape and the relative
position of each tooth in relation to
the adjoining teeth in normal
dentition reduce the liability to caries
to a great extent, it is essential to
restore the proximal surface of any
tooth to its normal contour very
accurately.
3. Areas below the greatest diameter of the tooth (Buccal deflection
ridge), (In the cervical third of the buccal and lingual surfaces of the
teeth).
These areas provide a shelf for food debris.
These areas are smooth surfaces, as no pits or fissures are found.
Classification of cavities
It can be classified into groups considering

A) Anatomical classification: According to location

B) Black’s classification: according to the site

C). Numerical classification: Classified according to the
number of surface affected by caries

D) Mount and Hume’s classification: based on the site
and the size (stage) of the lesion
1. (Anatomical classification)
Pit and fissure caries: Pit and fissure caries
occur on occlusal surface of posterior teeth
and buccal and lingual surfaces of molars and
on lingual surface of maxillary incisors.

Smooth surface caries: Smooth surface
caries occurs on gingival third of buccal and
lingual surfaces and on proximal surfaces.

Root caries: When the lesion starts at the
exposed root cementum and dentin, it is
termed as root caries.
B) Black’s classification
Class I: Pit and fissure caries occur in the occlusal surfaces of
premolars and molars, the occlusal two third of buccal and lingual
surface of molars, palatal surface of upper incisors.

Class II: smooth surface Caries occur in the proximal surface of
posterior teeth (premolars and molars).

Class III: smooth surface Caries occur in the proximal surface of
anterior teeth (incisorsmand canine) teeth and not involving the incisal
angles.

Class IV: smooth surface Caries occur in the proximal surface of
anterior teeth also involving the incisal angle.

Class V: smooth surface Caries occur in the gingival third of facial and
lingual or palatal surfaces of all teeth.

Class VI: Caries on incisal edges of anterior and cusp tips of posterior
teeth without involving any other surface
C) Numerical classification(Sturdevants
classification):
 Simple caries: Caries involving only one
tooth surface

 Compound caries: If two surfaces are
involved.

 Complex caries: If more than two
surfaces are involved it is called as
complex caries.
D) Mount and Hume's classification:
Black's classification has been challenged as being not specifying the size of
the lesion.
Mount and Hume in 1998 have introduced a new classification (digital
classification) that is based on the site and the size of the lesion and called Si /
Sta classification referring to the site and stage of the lesion.
The three sites are:
Site 1: for pits and fissures and enamel defects.
Site 2: involve approximal enamel surfaces.
Site 3: it includes the cervical one third of the crown or, following
gingival recession, the exposed root.

The four sizes are:
Size 1 : indicates minimal dentin involvement.
Size 2: indicates moderate dentin involvement.
Size 3: indicates enlarged involvement beyond moderate.
Size 4: indicates an extensive involvement of caries and bulk loss of
tooth structure.
Components of prepared cavities:
‫إعداد‬
 Preparation of cavities results in the formation of various walls, lines and
angles.
 The following terms are used to describe a prepared cavity and its various
components.
A wall is an enclosing side of a prepared cavity. It takes the name of the
surface of the tooth toward which is placed.
the axial wall: In an axial plane (long axis of the tooth) the internal wall
(parallel to the long axis of the tooth) and approximating the pulp
pulpal wall: That wall of the prepared cavity which is to the occlusal surface
of the pulp and in a plane at right angles to the long axis of the tooth
(horizontal plane)
A line angle: is formed where two walls meet.
At the place where three walls meet, a point angle is formed

The cavosurface angle: is the angle in a prepared cavity formed by the
junction of the wall of the cavity with the uncut surface of the tooth.
The cavo-surface angle of a cavity will be composed of enamel, but in cavities
present in the root of teeth which are exposed due to gingival recession the
cavo-surface angle will be of cementum. The enamel margin includes the
whole outline of the prepared cavity

The term margin is used to describe the cavosurface angle of a prepared cavity
and / or to designate the line of junction of the tooth surface and the
restoration after the restorative material is placed.
The dentino-enamel junction: is
the junction of the dentin and
enamel as it appears in the walls
of the prepared cavity.

The enamel wall: is that portion
of the wall that consists of
enamel. It extends from the
cavosurface margin or angle to
the dentino enamel junction.

The dentin wall: is that portion of
a wall that consists of dentin.
The peripheral extent of the
cavosurface angle of the prepared
cavity is termed the
outline form of the cavity