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KONSERVATİF DİŞ TEDAVİSİNDE DİAGNOSTİK YÖNTEMLER

DIAGNOSTIC SYSTEMS IN CONSERVATIVE DENTISTRY

Journal Name:

  • İstanbul Üniversitesi Diş Hekimliği Fakültesi Dergisi

Publication Year:

  • 2005

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
The minimal invasive approach is the conservation of the noncavitated carious lesion of enamel and dentin. For this reasons its 'important to detect the lesions, clinically at the early, noncavitated stage. Clinical caries diagnosis is caries detection, risk assessment and determination of preventive measures. The ideal method or tool for caries diagnosis of carious lesions would be noninvasive, simple, reliable, valid, sensitive, specific, robust measurements of lesion size and activity, and be based on biologic processes directly related on the carious process.
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Abstract (Original Language): 
Minimal invaziv yaklaşım günümüzde, çürük kavitesine sahip olmayan demineralİze mine ve dentin dokusunun maksimum düzeyde korunması ilkesi üzerine geliştirilmiştir. Bu amaçla çürük riski altındaki bireylerde demineralİze lezyonlar kontrol edilerek zaman içerisinde gereken önlemler alınmaktadır. Bu nedenle Iezyonların kavite oluşturmadan önce tanılarının konması söz konusudur. Klinik olarak çürük diagnozu; çürüğün belirlenmesi, riskin belirlenmesi, koruyucu stratejilerin belirlenmesi gibi kavramları içinde barındıran ve klinikte karar verebilmeyi kolaylaştıran önemli bir anahtardır. Geniş açıdan düşünüldüğünde Diagnoz bir tedavi planlamasıdır. Çürük diagnozunda ideal metodun, non-invaziv, basit, güvenilir, geçerli, sensitİv ve spesifik, lezyonun boyutunun ve aktivitesinin ölçümünde güçlü, ölçümdeki dayanak noktasının çürük gelişimiyle ilgili biyolojik proses olması gerektiğini bildirmiştir.
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REFERENCES

References: 

1. Rainey JT. Air abrasion: an emerging standard of care in conservative operative dentistry. Dent Clin North Am 2002; 46: 185-209, v.
2. Murdoch-Kinch CA. Minimal invasive dentistry. .TADA 2003;134:87-95.
3. Per Axelson Diagnosis and Risk Detection of Dental Caries. Quintessence Pub. Germany 2000, p 179-247.
4. World Health Organisation (WHO) system. http://www.whocollab.od.mah.se/index.html
48
Begüm GURAY EFES
5. Pitts N .Diagnostic tools and measurements impact on appropriate care .Comm. Dent Oral Epidemiol 1997; 25:24-35.
6. McComb D, Tam L. Diagnosis of occlusal caries: Patî I. Conventional methods. J Can Dent Assoc 2001; 67: 454-7.
7. Ekstrand KR, Ricketts DN, Kidd EA. Reproducibility and accuracy of three methods for assessment of demineralization depth of the occlusal surface: an in vitro examination. Caries Res 1997;31:224-31.
8. Lussi A. Comparison of different methods for the diagnosis of fissure caries without cavitation. Caries Res 1993; 27: 409-16.
9. van Dorp CS, Exterkate RA, ten Cate JM. The effect of dental probing on subsequent enamel demineralization. ASDC J Dent Child 1988; 55: 343-7.
10. Ekstrand K, Qvist V, Thylstrap A. Light microscope study of the effect of probing in occlusal surfaces. Caries Res 1987; 21: 368-74.
11. Neilson A., Pitts NB. Development and application of a quantitative method of monitoring macroscopic cavitations in smooth surface carious lesions in vivo. Caries Res. 1993; 27: 140-6.
12. Seddon R. The detection of cavitation in carious approximal surface in vivo by tooth seperation, impression and scaning electron microscopy.J Dent 1989; 17: 117-20.
13. Branjson S. Caries risk assessment in adolescents. Swed Dent 1996; 21: 41-8.
14. Danielsen B, Wenzel A, Hintze H, Nyvad B. Temporary tooth separation as on aid to diagnosis of cavitation in proximal surfaces. Caries Res 1996; 30: 271.
15. Mann J, Pettigrew JC, Revach A, Arwas JR, Kochavi D. Assessment of the DMF-S index with the use of bitewing radiographs. Oral Surg Oral Med Oral Pathol. 1989; 68: 661-5.
16. Creanor SL, Russell JI, Strang DM, Stephen KW, Burchell CK. The prevalence of clinically undetected occlusal dentine caries in Scottish adolescents.Br Dent J 1990 8; 169: 126-9.
17. de Vries HCB, Juiken HM, Koning KG, vant Hof MA. Radiographic versus clinical diagnosis
of approximal carious lesions. Caries Res 1990; 24: 364-70.
18. Kidd E AM, Naylor MN, Wilson RF. Prevalance of clinically undetected and untreated molar oclusal dentine caries in adolescents on the Isle of Wight. Caries Res 1992; 26: 397-401.
19. Weerheijm KL, Groen HJ, Bast AJ, Kieft JA, Eijkman MA, van Amerongen WE. Clinically undetected occlusal dentine caries: a radiographic comparison. Caries Res 1992; 26: 305-9.
20. Hintze H, Wenzel A. Clinically undetected dental caries assessed by bitewing screening in children with little caries experience. Dentomaxillofac Radiol 1994; 23: 19-23.
21. Ketley CE, Holt RD. Visual and radiographic diagnosis of occlusal caries in first permanent molars and in second primary molars. Br Dent J 1993 22; 174: 364-70.
22. Wenzel A. Digital radiography and caries diagnosis. Dentomaxillofac Radiol 1998; 27: 3¬11
23. Tam L, McComb D. Diagnosis of occlusal caries: Part II. Recent diagnostic technologies. J Can Dent Assoc 2001: 67:459-63.
24. Lussi A, Imwinkelried S, Pitts N, Longbottom C, Reich E. Performance and reproducibility of a laser fluorescence system fortion of occlusal caries in vitro. Caries Res 1999; 33 (4): 261-6.
25. van der Veen MH, de Josselin de Jong E. Application of quantitative light-induced fluorescence for assessing early caries lesions. Monogr Oral Sci 2000; 17: 144-62.
26. Pitts NB, Longbottom C, Huysmans MC, Los P, Bruce PG. Impedance spectroscopy of teeth with and without approximal caries lesions—an in vitro study. J Dent Res 1996; 75: 1871-8.
27. Longbottom C, Huysmans MC, Pitts NB, Los P, Bruce PG. Detection of dental decay and its extent using a.c. impedance spectroscopy. Nat Med 1996; 2: 235-7
28. al-Khateeb S, ten Cate JM, Angmar-Mânsson B, de Josselin de Jong E, Sundström, G., Exterkate RA, Oliveby A. Quantification of formation and remineralization of artificial enamel lesions with a new portable fluorescence device. Adv Dent Res 1997; 11: 502-6.
Koııservatif Diş Tedavisinde Diagnostik Yöntemler
49
29. Emarai A, al-Khateeb S, de Josselin de Jong E, Sundström F, Trollsâs K, Angmar-Mânsson B. Mineral loss in incipient caries lesions quantified with laser fluorescence and longitudinal microradiography. A methodologic study. Acta Odontol Scand 1996; 54: 8-13.
30. Hall AF, DeSchepper E, Ando M, Stookey GK. In vitro studies of laser fluorescence for detection and quantification of mineral loss from dental caries. Adv Dent Res 1997; 11: 507-14.
31. Lagerweij MD, van der Veen MH, Ando M, Lukantsova L, Stookey G. The validity and repeatability of three light-induced luorescence systems: an in vitro study. Caries Res 1999; 33: 220-6.
32. Angmar-Mansson B, ten Bosch JJ. Advances in methods for diagnosing coronal caries.-a review. Adv Dent Res 1993; 7: 70-9.
33. al-Khateeb S, ten Cate JM, Angmar-Mansson B, de Josselin de Jong E, Sundström G, Exterkate RA, Oliveby A. Quantification of formation and remhieralization of artificial enamel lesions with a new portable fluorescence device. Adv Dent Res 1997; 11: 502-6.
34. Carol Anne Murdoch Kinch. Oral medicine: advances in diagnostic procedures. J Calif Dent Assoc 1999; 27: 773-80.
35. Schneiderman A, Elbaum M, Shultz T, Keem S, Greenebaum M, Driller J. Assessment of dental caries with Digital Imaging Fiber-Optic Transillumination (DIFOTI): in vitro study. Caries Res 1997; 31: 103-10.
36. Levinkind M, Electrochemical impedence strategies for early caries detection. Procedings of the first Annual Indiana Conferance on the
Early Detection of Dental Caries. 1996, Indiana University Scool of Dentistry. Indianapolis, pp 67-80.
37. Nair MK, Tyndall DA, Ludlow JB, May K. Tuned aperture computed tomography and detection of recurrent caries. Caries Res 1998; 32: 23-30.
38. van Daatselaar AN, Tyndall DA, van der Stelt PF Detection of caries with local CT Dentomaxillofacial Radiology 2003; 32: 235-41
39. Abreu M Jr, Tyndall DA, Ludlow JB, Nortje CJ.Influence of the number of basis images and projection array on caries detection using tuned aperture computed tomography (TACT). Dentomaxillofac Radiol 2002; 31; 24-31.
40. Abreu M Jr, Tyndall DA, Ludlow JB, Nortje CJ.The effect of the number of iterative restorations on timed aperture computed tomography for approximal caries detection. Dentomaxillofac Radiol 2001; 30: 325-9.
41. Abreu M, Tyndall DA, Platin E, Ludlow JB, Phillips C. Two and three dimensional imaging modalities for the detection of caries. A comparison between film, digital radiography and tuned aperature computed tomography (TACT). Dentomaxillofac Radiol 1999; 28: 152-7.
42. van Daatselaar AN, Dunn SM, Spoelder HJ, Germans DM, Renambot L, Bal HE, van der Stelt PF. Feasibility of local CT of dental tissues. Dentomaxillofac Radiol 2003; 32: 173¬80.
43. Tsuda H, Arends J. Detection and quantification of calcium fluoride using micro-Raman spectroscopy. Caries Res 1993; 27: 249-57.

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