Statement of problem. Radiograph paralleling devices provide an excellent means of obtaining orthogonal radiographs for the evaluation of the fit of implant restorations. Unfortunately, the clinical applicability of such devices is a significant issue because access to the implant body must be obtained at each radiographic appointment. Purpose. The purpose of the study was to investigate whether the fit or microgap at the implant-abutment junction could be more accurately and confidently assessed with a novel radiograph paralleling device that did not require access to the implant body once a proper registration index was made. Material and methods. Microgaps of 0, SO, and 100 mu m were introduced at the implant-abutment junction of a provisional implant crown in a manikin-typodont assembly. Dental assistants made 54 radiographs (18 per microgap) of the crown with and without a radiograph paralleling device; 9 clinicians then evaluated the standardized radiographs for the presence of misfit. The Cochran-Mantel-Haenszel test and the corresponding odds ratios were used to evaluate the effectiveness of the paralleling device in helping clinicians better assess misfit from the radiographs made. Results. The use of the device led to a higher percentage of accuracy under all conditions (79.0% vs 70.4% at the 0-mu m gap, 77.8% vs 16.1% at the 50-mu m gap, and 100% vs 92.6% at the 100-mu m gap); the improvement was statistically significant at the 50-mu m gap (P<.001) and 100-mu m gap (P=.049) but not at the 0-mu m gap (P=.364). The odds ratio (95% confidence interval) of obtaining correct versus wrong answers with the device compared with without the device was 18.64 (7.94-43.77) at the 50-mu m gap and 5.40 (0.25-114.25) at the 100-mu m gap. Conclusions. The study indicated that the paralleling device helped the clinician more accurately assess the implant-abutment junction with the 50- and 100-mu m gaps.

• 出版日期2014-10