Carrillo SC

Language: Spanish
References: 18
Page: 334-339
PDF size: 223.28 Kb.

ABSTRACT

One of the great problems in Dentistry and especially in those associated with the management of dental caries is the detection and the precise or accurate diagnosis of the caries lesions, particularly of the most incipient lesions. Actually, to our date, it has been shown a better comprehension and understanding on the development of the dental caries lesions that has generated also, the possibilities to perform a better management of these lesions individually, and in general, to decrease the caries risk in each patient in a particular form. All this has created what can be considered as: a new paradigm based in the current resources not only on the diagnosis of the caries lesions, but specially, on the management of dental caries as a disease.

REFERENCES

1. Zero DT. Dental caries process. Dent Clin of North Am. 1999; 43: 635-664.

2. Pitts NB. Modern concepts of caries management. J Dent Res. 2004; 83 (Spec. Iss. C) C43-C47.

3. Zero DT, Zandona AF, Vail MM, Spolnik KJ. Dental caries and pulpal disease. Dent Clin North Am. 2011; 55 (1): 29-46.

4. Nyvad B. Diagnosis versus detection of caries. Caries Res. 2004; 38: 192-198.

5. Ferreira-Zandona A, Zero D. Diagnostic tools for early caries detection. J Am Dent Assoc. 2006; 137: 1675-1684.

6. Pretty I. Caries detection and diagnosis: novel technologies. J Dent. 2006; 34: 727-739.

7. Dove B. Radiographic diagnosis of dental caries. J Dent Educ. 2001; 65: 985-990.

8. Ekstrand K, Martignon S, Ricketts D, Qvist V. Detection and activity assessment of primary coronal caries lesions: a methodologic study. Oper Dent. 2007; 32: 225-235.

9. Elderton R. Clinical studies concerning restoration of tooth. Adv Dent Res. 1990; 4: 4-9.

10. Amaechi B. Emerging technologies for diagnosis of dental caries: The road so far. J Appl Phys. 2009; 105: 102047.

11. Ferreira ZA, Analoui M, Beiswanger BB, Isaacs RL, Kafrawy AH, Eckert GJ et al. An in vitro comparison between laser fluorescence and visual examination for detection of demineralization in occlusal pits and fissures. Caries Res. 1998; 32 (3): 210-218.

12. Ferreira-Zandoná A et al. Clinical validation study of QLF at Indiana: In: Stookey, K. George (Editor): Early detection of dental caries III. Proceedings of the 6th Indiana Conference. Indiana University School of Dentistry. 2003, pp. 237-252.

13. Eggertsson, Hafsteinn et al. Reproducibility of in vitro and clinical examinations with QLF (Quantitative Light-induced Fluorescence). Developing a Guidelines for Imaging and analyzing QLF image, and a process for training examiners. In: Stookey, K. George (Editor): Early detection of dental caries III. Proceedings of the 6th Indiana Conference. Indiana University School of Dentistry. 2003; pp. 213-236.

14. Axelsson, Per: Development and Diagnosis of Carious Lesions.: In Diagnosis and Risk prediction of Dental Caries. Chapter 5, Quintessence Publishing Co, Inc., Carol Stream, IL, 2000, pp. 179-248.

15. Longbottom C et al. Caries detection by optimal clinical visual, radiographic, laser fluorescence and a/c impedance spectroscopy techniques. Caries Res. 2007; 41: 297.

16. Ferreira ZA, Santiago E, Eckert G, Fontana M, Ando M, Zero DT. The Use of ICDAS combined with QLF as a caries detection method. Caries Res. 2010; 44: 317-322.

17. Braga M, Mendes F, Ekstrand K. Detection activity assessment and diagnosis of dental caries lesion. In: Young D, Fontana M, Wolff M. Current concepts in cariology. Dent Clin North Amer. 2010; 54 (3): 478-493.

18. Gomez-Bulla, Juliana: Detection, diagnosis and management of the early carious lesion. PhD Thesis. The University of Manchester School of Dentistry. Manchester, UK, 2013.