Recognition of root canal orifices at a distance – a preliminary study of teledentistry

The remote recognition of root canal orifices was tested on 50 images of endodontically accessed teeth acquired with an intra-oral camera. The images were stored on a laptop computer and were presented to 20 observers who marked the visible canal orifices using software which stored the canal locations in standard files. The marked positions were verified on histological slices. In 87% of the cases, the canal locations were marked correctly. Inter-observer reliability depended on the location of the reviewed root canal (kappa = 0.44–0.77). The detection rate was related to the professional experience of the observers. The maximum proportion of accurate detections was found for the observers with more than 10 years of professional experience. The minimum proportion of accurate detections, 79%, was by the observer with one year of experience. The results of the study suggest that remote recognition of root canals by experienced dentists can help younger colleagues in the detection of root canal orifices.

[1]  E. Başpınar,et al.  The assessment of unaided visual examination, intraoral camera and operating microscope for the detection of occlusal caries lesions. , 2005, Operative dentistry.

[2]  N. Obuchowski How many observers are needed in clinical studies of medical imaging? , 2004, AJR. American journal of roentgenology.

[3]  H. S. Selden The dental-operating microscope and its slow acceptance. , 2002, Journal of endodontics.

[4]  D. Kopycka-Kedzierawski,et al.  Prevalence of dental caries in Early Head Start children as diagnosed using teledentistry. , 2008, Pediatric dentistry.

[5]  A. Chandra Discuss the factors that affect the outcome of endodontic treatment. , 2009, Australian endodontic journal : the journal of the Australian Society of Endodontology Inc.

[6]  P. Mines,et al.  Use of the microscope in endodontics: results of a questionnaire. , 2008, Journal of endodontics.

[7]  S. Friedman,et al.  Operating microscope improves negotiation of second mesiobuccal canals in maxillary molars. , 2001, Journal of endodontics.

[8]  L. Gholston,et al.  Reliability of an intraoral camera: utility for clinical dentistry and research. , 1984, American journal of orthodontics.

[9]  E. Begole,et al.  Effect of magnification on locating the MB2 canal in maxillary molars. , 2002, Journal of endodontics.

[10]  Zühre Zafersoy Akarslan,et al.  Restorative treatment decision making with unaided visual examination, intraoral camera and operating microscope. , 2006, Operative dentistry.

[11]  R. Walton,et al.  Molar access: shape and outline according to orifice locations. , 1989, Journal of endodontics.

[12]  K. Donath,et al.  A method for the study of undecalcified bones and teeth with attached soft tissues. The Säge-Schliff (sawing and grinding) technique. , 1982, Journal of oral pathology.

[13]  H. Dh,et al.  Quality guidelines for endodontic treatment: consensus report of the European Society of Endodontology. , 2006, International endodontic journal.

[14]  Chanda Lh The Orthoscan camera. , 1973 .

[15]  M. Zuolo,et al.  Orifice locating with a microscope. , 2000, Journal of endodontics.

[16]  K. Donath,et al.  The diagnostic value of the new method for the study of undecalcified bones and teeth with attached soft tissue (Säge-Schliff (sawing and grinding) technique). , 1985, Pathology, research and practice.

[17]  Kenneth M McConnochie,et al.  Dental screening of preschool children using teledentistry: a feasibility study. , 2007, Pediatric dentistry.