Ramamurthy Ramya, Scheetz James P, Clark Stephen J, Farman Allan G
University of California San Francisco School of Dentistry, San Francisco, CA, USA.
Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2006 Dec;102(6):796-802. doi: 10.1016/j.tripleo.2006.02.009. Epub 2006 Aug 10.
The objectives of this study were to determine observer ability to detect the second mesio-buccal canal (MB2) in maxillary molars using analog film, CMOS, and photostimulable phosphor x-ray detectors across a wide range of radiation exposures and to determine the optimal exposures for these modalities accurately detecting presence of the MB2.
Using 6 experimental models with 2 maxillary molars in each, images were generated with the 3 detector modalities at nominal x-ray beam angulations of 0 degrees and 10 degrees across a range of radiation exposures. Observers independently assessed presence of the MB2 in images presented in random order. Horizontal root sections were then evaluated to determine true MB2 presence.
For single images at optimal exposures, the correct number of mesiobuccal canals could be identified 55% of the time for CMOS (RVG 6000), 44% of the time for analog x-ray film (InSight), and 39% of the time for photostimulable phosphor (DenOptix). Statistically significant differences were observed between the imaging modalities (chi2 = 23.4, crucial value = 5.99, P < or = .05). RVG 6000 CMOS outperformed both DenOptix photostimulable phosphor (z score = -5.5) and InSight analog direct exposure x-ray film (z score = 4). Exposure affected the rate of accuracy for MB2 detection across the exposure range tested for RVG 6000 and for film, but not to any appreciable degree for DenOptix.
The CMOS detector (RVG-6000) performed best for evaluating presence of the MB2. This was the only modality to exceed 50% reliability with optimal exposure when single images were considered.
本研究的目的是确定观察者使用模拟胶片、互补金属氧化物半导体(CMOS)和光激励荧光体X射线探测器在广泛的辐射曝光范围内检测上颌磨牙近中颊根第二根管(MB2)的能力,并确定这些方式准确检测MB2存在的最佳曝光量。
使用6个实验模型,每个模型有2颗上颌磨牙,在0度和10度的标称X射线束角度下,通过3种探测器方式在一系列辐射曝光下生成图像。观察者独立评估以随机顺序呈现的图像中MB2的存在情况。然后评估水平牙根切片以确定MB2的实际存在情况。
对于最佳曝光下的单张图像,互补金属氧化物半导体(RVG 6000)能在55%的时间内正确识别近中颊根管数量,模拟X射线胶片(InSight)为44%,光激励荧光体(DenOptix)为39%。在成像方式之间观察到统计学上的显著差异(卡方=23.4,临界值=5.99,P≤0.05)。RVG 6000互补金属氧化物半导体的表现优于DenOptix光激励荧光体(z分数=-5.5)和InSight模拟直接曝光X射线胶片(z分数=4)。曝光影响了RVG 6000和胶片在测试曝光范围内检测MB2的准确率,但对DenOptix没有明显影响。
互补金属氧化物半导体探测器(RVG-6000)在评估MB2的存在情况时表现最佳。当考虑单张图像时,这是唯一在最佳曝光下可靠性超过50%的方式。
