Diagnosis and Registration of Carious Lesions

29-03-2010

Introduction

The coronal carious lesion starts as a clinically undetectable subsurface

demineralization. With further progression, it will eventually become clinically

detectable, and can then be classified according to type, localization, size, depth, and

shape (see Table 15).

Apart from for the occult fissure lesion penetrating deeply into the dentin, dilemmas

in clinical detection and registration arise not with the advanced lesion, but primarily

with the early lesion (confined to the outer enamel), the noncavitated lesion of dentin,

recurrent caries (around the margins of restorations), and subgingival root caries. This

is further complicated by the fact that diagnostic methods and criteria may vary,

depending on the purpose of the examination. For the epidemiologist, measuring

caries prevalence or assessing treatment needs at the community level, or for the

dental researcher, measuring caries increments in relation to the efficacy of an

anticaries agent, decisions about the presence of a lesion are not complicated by the

obligation to consider treatment options for the individual patient. In general, the

epidemiologist surveying a population confines a positive diagnosis of caries to

unequivocal cavitation, to reduce variability. Most guidelines for surveys specifically

state that questionable lesions should be coded as sound.

On the other hand, for the clinician, detection of a lesion, whether confined to enamel

and therefore potentially reversible, or frank cavitation, raises the question of

appropriate treatment. In addition, different tooth surfaces present different problems

for correct diagnosis of the questionable lesion. In other words the diagnostic method

of choice depends on the purpose of the examination.

According to Pitts (1997), the ideal method or tool for diagnosis of carious lesions

would be noninvasive and provide simple, reliable, valid, sensitive, specific, and

robust measurements of lesion size and activity, and be based on biologic processes

directly related to the carious process. It should also be affordable, acceptable to

dentists and patients, and allow early implementation in both clinical practice and

research settings. Its use should promote informed and appropriate preventive

treatment decisions, enhancing long-term oral health. Unfortunately, there is at

present no single, all-embracing method that fulfills these requirements. While

awaiting further technologic development, dentists and researchers have to select the

combination of methods that is most appropriate to the particular diagnostic task at

hand.

Diagnostic tools

Some decades ago, visual diagnosis (light and mirror) and probing, supplemented by

bitewing radiographs, were the only tools available for clinical diagnosis of caries.

For epidemiologic surveys and for examination of most patients, these are still useful

tools. However, the last 10 years have seen a considerable increase in the assortment

of diagnostic tools based on new technology. The following methods are now

available:

1. The visual method used by many general practitioners

2. The visual-tactile method with light, mirror, and gentle probing

3. The conventional visual method used in European epidemiologic surveys

4. The meticulous clinical visual method

5. The visual method with temporary elective tooth separation

6. The visual method with temporary elective tooth separation and impression of the

approximal lesion

7. The conventional bitewing radiographic method

8. The digital radiographic method

9. The computer-aided radiographic method

10. The fiber-optic transillumination (FOTI) method

11. The electrical conductance (fixed frequency) method

12. The alternating current impedance spectroscopy technique (ACIST)

13. The endoscopic filtered fluorescence (EFF) method

14. The quantitative laser (light) fluorescence (QLF) method

The accuracy (sensitivity and specificity), usefulness, and cost effectiveness of these

methods vary considerably. Some are very quick and inexpensive, but subjective, and

are therefore useful for large-scale epidemiologic surveys (the visual-tactile and

European epidemiologic methods), while others are objective and offer quantitative

diagnosis but are time consuming and require costly equipment (ACIST, EFF, and

QLF). At present, the latter methods are restricted to research projects.

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