Analysis of acceptance testing results of 60 extraoral dental X-ray equipment in Beijing, China
10.13491/j.issn.1004-714X.2023.04.011
- VernacularTitle:北京市60台牙科口外X射线设备验收检测结果分析
- Author:
Yueming LI
1
;
Shicheng TANG
2
;
Zhujun CHEN
2
;
Shizhou CAO
2
;
Mingxia SUN
2
Author Information
1. Stomatology Center for China-Japan Friendship Hospital, Beijing 100029 China.
2. Kaijie Fangda Testing Technology Hebei Company, Shijiazhuang 050011 China.
- Publication Type:OriginalArticles
- Keywords:
Quality control;
Dental X-ray equipment;
Acceptance testing
- From:
Chinese Journal of Radiological Health
2023;32(4):422-426
- CountryChina
- Language:Chinese
-
Abstract:
Objective To analyze the results of acceptance testing of 60 extraoral dental X-ray equipment in Beijing, China from 2021 to 2022, and understand the main types and performance parameters of newly installed extraoral dental X-ray machines in the clinical market of Beijing, as well as the level of installation and trial run of the whole machine by various manufacturers, and to summarize the problems found in acceptance testing for improving equipment testing. Methods Field acceptance testing and evaluation were carried out according to the Specification for Testing of Quality Control in Medical X-Ray Diagnostic Equipment (WS 76—2020). Results The overall qualified rate of 60 extraoral dental X-ray equipment was 98.33%. Under the same condition of the same tube voltage for one dental equipment, the maximum deviation of the tube voltage indicated by the two modes (panorama and skull) is 5.5%, and the maximum difference of the half-value layer of the useful beam is 1.22 mm Al. There is also a certain difference between the exposure time indicating deviation from the panorama and the skull, with a maximum difference of 75.51%. Conclusion Strengthening ex-factory quality control, installing, and debugging of equipment can basically guarantee the performance of newly installed equipment. In the testing process, it is critical to ensure the effective point of measurement of the dose detector located on the central axis of the primary beam.
