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在牙科学院环境中对光激励存储荧光板表面划痕的程度进行分级。

Rating the extent of surface scratches on photostimulable storage phosphor plates in a dental school environment.

机构信息

Oral Diagnosis and Patient Services, School of Dentistry, Medical College of Georgia, Augusta, Georgia 30912-1241, USA.

出版信息

Dentomaxillofac Radiol. 2010 Mar;39(3):179-83. doi: 10.1259/dmfr/28972644.

Abstract

OBJECTIVE

The aims of this study were (1) to subjectively quantify the degree of scratching and smudging that had taken place in the junior clinic in the 9 months following the implementation of digital radiology; (2) to compare the findings with a previously published report; and (3) to identify areas in the protocol and training that can be refined to minimize future scratching and smudging.

METHODS

Seven sets of blank clinical photostimulable storage phosphor (PSP) plates were scanned after exposing them at 65 kV and 7 mA for 0.80 s. Scanned plates were lightly wiped with a soft cloth and alcohol, repackaged in plastic sleeves, re-exposed and rescanned. The two sets of resulting images were subjectively rated independently by two investigators for artefacts and placed in five categories.

RESULTS

Of all the images, approximately 75% were rated in the top 3 categories (most readable), leaving 17% and 8% in the poor and unsatisfactory categories, respectively. Mean rated values of the two image sets (before and after wiping) were not statistically different, but ratings slightly improved after cleaning the plates.

CONCLUSIONS

Wiping all plates to remove surface contamination may not always be necessary or desirable. Systems that are designed to minimize handling of the plates may help minimize scratching of them.

摘要

目的

本研究的目的是:(1)主观量化在实施数字放射学后的 9 个月内初级临床中发生的划痕和污迹程度;(2)将结果与之前发表的报告进行比较;(3)确定协议和培训中可以改进的领域,以最大程度地减少未来的划痕和污迹。

方法

在以 65 kV 和 7 mA 曝光 0.80 s 后,对七组空白临床光激励存储荧光板(PSP)进行扫描。用软布和酒精轻轻擦拭扫描后的平板,重新包装在塑料套管中,重新曝光并重新扫描。由两名研究人员独立对两组结果图像进行主观评估,将其分为五个类别。

结果

在所有图像中,大约 75%的图像被评为前三个类别(最可读),剩下的 17%和 8%分别被评为较差和不满意类别。两组图像的平均评分值在统计学上没有差异,但在清洁平板后评分略有提高。

结论

擦拭所有平板以去除表面污染可能并不总是必要或理想的。设计为最小化平板处理的系统可能有助于最大限度地减少划痕。

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