Artículos de revistas
Evaluation Of Three Radiographic Methods For Detecting Occlusal Caries Lesions
Registro en:
Brazilian Journal Of Oral Sciences. , v. 8, n. 2, p. 67 - 70, 2009.
16773217
2-s2.0-77954513336
Autor
Pereira A.C.
Eggertsson H.
Moustafa A.
Zero D.T.
Eckert G.J.
Mialhe F.L.
Institución
Resumen
Aim: To compare, in vitro, the performance of three radiographic methods for the detection of occlusal caries in permanent teeth. Methods: A total of 96 extracted molars with no apparent occlusal cavitation were selected, they were photographed and radiographed under standardized conditions using conventional E-plus films and two digital systems, CDR and Sidexis. Two examiners analyzed all films and images, recording the presence and lesion depth. One quarter of the teeth were re-examined for intra-and interexaminer agreements. The teeth were subsequently bisected and examined under a stereomicroscope. The intra and interexaminer agreements and the diagnostic performance (sensitivity, specificity, accuracy and the area under receiver operating characteristic, ROC curve) of each method were evaluated. Results: Out of 96 occlusal surfaces, 41 were sound, 31 had lesions in enamel, and 24 had dentin lesions. Weighted Kappa values for intraexaminer agreement varied widely, depending on both the observer and method. The interexaminer agreement was higher for the digital images than for the conventional films. The area under the ROC curve for enamel and dentin caries (at D1 diagnostic threshold) was 0.55 for films, 0.60 for Schick and 0.54 for Sirona, which were not significantly different from each other. Conclusions: Digital images presented better results of interexaminer agreement; however, no additional effect in the diagnostic performance could be observed in comparison to conventional films. 8 2 67 70 Analoui, M., Digital diagnostic imaging: today and tomorrow (1999) Dentomaxillofac Radiol, 28, pp. 56-58 Attaelmanan, A.G., Borg, E., Gröndahl, H.G., Assessments of the physical performance of 2 generations of 2 direct digital intraoral sensors (1999) Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 88, pp. 517-523 Haiter-Neto, F., dos Anjos Pontual, A., Frydenberg, M., Wenzel, A., A comparison of older and newer versions of intraoral digital radiography systems: diagnosing noncavitated proximal carious lesions (2007) J Am Dent Assoc, 138, pp. 1353-1359 Hintze, H., Wenzel, A., Influence of the validation method on diagnostic accuracy for caries. A comparison of six digital and two conventional radiographic systems (2002) Dentomaxillofac Radiol, 31, pp. 44-49 Wenzel, A., Borg, E., Hintze, H., Gröndahl, H.G., Accuracy of caries diagnosis in digital images from charge-coupled device and storage phosphor systems: an in vitro study (1995) Dentomaxillofac Radiol, 24, pp. 250-254 Ashley, P.F., Blinkhorn, A.S., Davies, R.M., Occlusal caries diagnosis: an in vitro histological validation of the Electronic Caries Monitor (ECM) and other methods (1998) J Dent, 26, pp. 83-88 Hintze, H., Diagnostic accuracy of two software modalities for detection of caries lesions in digital radiographs from four dental systems (2006) Dentomaxillofac Radiol, 35, pp. 78-82 Tyndall, D.A., Ludlow, J.B., Platin, E., Nair, M., A comparison of Kodak Ektaspeed Plus film and the Siemens Sidexis digital imaging system for caries detection using receiver operating characteristic analysis (1998) Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 85, pp. 113-118 Landis, J.R., Koch, G.G., The measurement of observer agreement for categorical data (1977) Biometrics, 33, pp. 159-174 Galcerá Civera, V., Almerich Silla, J.M., Montiel Company, J.M., Forner Navarro, L., Clinical and radiographic diagnosis of approximal and occlusal dental caries in a low risk population (2007) Med Oral Patol Oral Cir Bucal, 12, pp. E252-E257 Chong, M.J., Seow, W.K., Purdie, D.M., Cheng, E., Wan, V., Visual-tactile examination compared with conventional radiography, digital radiography and Diagnodent in the diagnosis of occlusal occult caries in extracted premolars (2003) Pediatr Dent, 25, pp. 341-349 Hintze, H., Wenzel, A., Frydenberg, M., Accuracy of caries detection with four storage phosphor systems and E-speed radiographs (2002) Dentomaxillofac Radiol, 31, pp. 170-175 Syriopoulos, K., Sanderink, G.C., Velders, X.L., van der Stelt, P.F., Radiographic detection of approximal caries: a comparison of dental films and digital imaging systems (2000) Dentomaxillofac Radiol, 29, pp. 312-318 Jacobsen, J.H., Hansen, B., Wenzel, A., Hintze, H., Relationship between histological and radiographic caries lesion depth measured in images from four digital radiography systems (2004) Caries Res, 38, pp. 34-38 Pfeiffer, P., Schmage, P., Nergiz, I., Platzer, U., Effects of different exposure values on diagnostic accuracy of digital images (2000) Quintessence Int., 31, pp. 257-260 Ekstrand, K.R., Ricketts, D.N.J., Kidd, E.A., Reproducibility and accuracy of three methods for assessment of demineralization depth on the occlusal surface: an in vitro examination (1997) Caries Res, 31, pp. 224-231 Hintze, H., Wenze, A., Clinical and laboratory radiographic caries diagnosis. A study of the same teeth (1995) Dentomaxillofac Radiol, 25, pp. 115-118 Hugoson, A., Koch, G., Hallonsten, A.L., Norderyd, J., Aberg, A., Caries prevalence and distribution in 3-20-year-olds in Jönköping, Sweden, in 1973, 1978, 1983, and 1993 (2000) Community Dent Oral Epidemiol, 28, pp. 83-89 Huysmans, M.C., Longbottom, C., Pitts, N., Electrical methods in occlusal caries diagnosis: An in vitro comparison with visual inspection and bite-wing radiography (1998) Caries Res, 32, pp. 324-329 Machiulskiene, V., Nyvad, B., Baelum, V., A comparison of clinical and radiographic caries diagnosis in posterior teeth of 12-year-old Lithuanian children (1999) Caries Res, 33, pp. 340-348 Mejàre, I., Källestal, C., Stenlund, H., Johansson, H., Caries development from 11 to 22 years of age: a prospective radiographic study. Prevalence and distribution (1998) Caries Res, 32, pp. 10-16 Richardson, P.S., McIntyre, I.G., The difference between clinical and bitewing detection of approximal and occlusal caries in Royal Air Force recruits (1996) Community Dent Health, 13, pp. 65-69 Weerheijm, K.L., Groen, H.J., Poorterman, J.H.G., Clinically undetected oclusal dentin caries in 1987 and 1993 in 17 years old Dutch adolescents. Abstract (1999) Caries Res, 33, p. 288 Ricketts, D.N., Kidd, E.A., Smith, B.G., Wilson, R.F., Clinical and radiographic diagnosis of occlusal caries: a study in vitro (1995) J Oral Rehabil, 22, pp. 15-20 van Amerongen, J.P., Penning, C., Kidd, E.A., ten Cate, J.M., An in vitro assessment of the extent of caries under small occlusal cavities (1992) Caries Res, 26, pp. 89-93 Wenzel, A., A review of dentists' use of digital radiography and caries diagnosis with digital systems (2006) Dentomaxillofac Radiol, 35, pp. 307-314 Pereira, A.C., Eggertsson, H., Martinez-Mier, E.A., Mialhe, F.L., Eckert, G.J., Zero, D.T., Validity of caries detection on occlusal surfaces and treatment decisions based on results from multiple caries-detection methods (2009) Eur J Oral Sci., 117, pp. 51-57 Swenson, E., Hennessy, B., Detection of occlusal carious lesions: an in vitro comparison of clinicians' diagnostic abilities at varying levels of experience (2009) Gen Dent, 57, pp. 60-66 Novaes, T.F., Matos, R., Braga, M.M., Imparato, J.C., Raggio, D.P., Mendes, F.M., Performance of a pen-type laser fluorescence device and conventional methods in detecting approximal caries lesions in primary teeth - in vivo study (2009) Caries Res, 43, pp. 36-42 Jablonski-Momeni, A., Ricketts, D.N.J., Stachniss, V., Maschka, R., Heinzel-Gutenbrunner, M., Pieper, K., Occlusal caries: Evaluation of direct microscopy versus digital imaging used for two histological classification systems (2009) J Dent, 37, pp. 204-211