辐射防护通讯 ›› 2026, Vol. 46 ›› Issue (3): 21-26.

• 研究通报 • 上一篇    下一篇

江西中医医疗机构放射诊疗设备配置及放射防护现状分析

曹发明1, 曹秀桂2, 黄喆1, 邓磊1   

  1. 1.江西省职业病防治研究院,南昌 330006;
    2.九江学院第二附属医院,江西 九江 332000
  • 收稿日期:2025-12-12 出版日期:2026-06-20 发布日期:2026-07-01
  • 通讯作者: 曹秀桂。E-mail:80836325@qq.com
  • 作者简介:曹发明(1989—),男,2011年本科毕业于东华理工大学辐射防护与环境工程专业,2014年毕业于成都理工大学核技术及应用专业,获硕士学位,工程师。E-mail:582381666@qq.com
  • 基金资助:
    江西中医药管理局科技计划项目(2025023007)。

Analysis of radiological equipment allocation and radiation protection in traditional Chinese medicine institutions in Jiangxi Province

CAO Faming1, CAO Xiugui2, HUANG Zhe1, DENG Lei1   

  1. 1. Institute of Occupational Medicine of Jiangxi, Nanchang 330006;
    2. The Second Affiliated Hospital of Jiujiang University, Jiangxi Jiujiang 330000
  • Received:2025-12-12 Online:2026-06-20 Published:2026-07-01

摘要: 分析了江西省中医医疗机构放射诊疗设备配置及防护现状,为优化资源与安全管理提供依据。采用问卷调查法收集全省118家中医医疗机构的放射诊疗设备与防护资源,并对23家机构的69台放射诊疗设备进行防护水平抽检。结果发现,全省476台设备中95.8%为放射诊断设备,放射治疗(0.4%)和介入放射学设备(3.8%)短缺。三级医院设备拥有量(9.60台/家)显著高于二级(3.71台/家)和基层(1.33台/家)(F=41.51, P<0.01);区域基尼系数为0.182,鹰潭市人均放射诊疗设备率(0.183台/万人)是赣州市(0.066台/万人)的2.8倍。服务结构单一,99.9%的服务量为放射诊断,介入诊疗(0.1%)和放射治疗(0.003%)占比极低;三级医院服务量达基层的28.6倍(F=18.72, P<0.01)。防护短板突出,放射工作人员配置向三级医院倾斜(32.80人/家 vs 基层1.86人/家,F=42.80, P<0.01);工作场所辐射防护监测总体合格率为89.9%,但全景牙科机房合格率仅为20%,CT机房合格率为85.7%。江西省中医医疗机构放射诊疗以基础诊断为主,高端服务供给不足,资源在层级与区域分布上失衡明显;防护水平低于综合医院,牙科及CT机房存在安全隐患。建议立足分级诊疗,强化中医机构基础影像服务功能,与综合医院高端技术形成互补,同时重点加强牙科、CT设备的防护监管力度。分析了江西省中医医疗机构放射诊疗设备配置及防护现状,为优化资源配置与安全监管提供依据。采用问卷调查法收集全省118家中医医疗机构的放射诊疗设备与防护资源数据,并对23家机构的69台放射诊疗设备进行防护水平抽检。结果显示,全省476台设备中95.8%为放射诊断设备,放射治疗(0.4%)和介入放射学设备(3.8%)短缺。三级医院设备拥有量(9.60台/家)显著高于二级(3.71台/家)和基层(1.33台/家)(F=41.51, P<0.01);区域基尼系数为0.182,鹰潭市人均放射诊疗设备率(0.183台/万人)是赣州市(0.066台/万人)的2.8倍;服务结构单一,99.9%的服务量为放射诊断,而介入诊疗(0.1%)和放射治疗(0.003%)占比极低;三级医院服务量是基层的28.6倍(F=18.72, P<0.01);防护短板突出,放射工作人员配置向三级医院倾斜(32.80人/家vs基层1.86人/家,F=42.80, P<0.01);工作场所辐射防护监测总体合格率为89.9%,但全景牙科机房合格率仅为20%,CT机房合格率为85.7%。江西省中医医疗机构放射诊疗以基础诊断为主,高端服务供给不足,资源在层级与区域分布上失衡明显,防护水平低于综合医院,牙科及CT机房存在安全隐患。建议立足分级诊疗,强化中医机构基础影像服务功能,与综合医院的高端技术形成互补,同时重点加强牙科、CT设备的防护监管力度。

关键词: 中医医疗机构, 辐射防护, 放射诊疗, 资源配置

Abstract: Objective To analyze the current status of radiological diagnosis and treatment equipment configuration and radiation protection in traditional Chinese medicine (TCM) medical institutions in Jiangxi Province, and to provide a basis for optimizing resources and safety management. Methods A questionnaire survey was conducted on radiological equipment and protection resources in 118 TCM medical institutions across the province; radiation protection levels of 69 devices in 23 institutions were spot-checked. Results Among 476 devices in the province, 95.8% were diagnostic radiology equipment, while radiotherapy (0.4%) and interventional radiology equipment (3.8%) were in shortage. The number of radiological devices per tertiary hospital (9.60) was significantly higher than that in secondary hospitals (3.71) and primary institutions (1.33) (F=41.51, P<0.01). The regional Gini coefficient was 0.182, and the per capita device rate in Yingtan (0.183 devices per 10,000 population) was 2.8 times that in Ganzhou (0.066 devices per 10,000 population). Service capacity was homogeneous, with diagnostic radiology accounting for 99.9% of service volume, while interventional therapy (0.1%) and radiotherapy (0.003%) accounted for extremely low proportions. The service volume of tertiary hospitals was 28.6 times that of primary institutions (F=18.72, P<0.01). Weaknesses in radiation protection were prominent, with radiological staff concentrated in tertiary hospitals (32.80 persons per institution vs. 1.86 persons per primary institution, F=42.80, P<0.01). The overall pass rate of workplace radiation protection monitoring was 89.9%, but the pass rate for panoramic dental X-ray rooms was only 20%, and for CT rooms, 85.7%. Conclusion Radiodiagnosis in traditional Chinese medicine (TCM) medical institutions in Jiangxi Province is primarily basic, with a notable shortage of advanced services and evident imbalances in resource hierarchy and regional distribution. The compliance rate of radiation protection is lower than that of general hospitals, with prominent hazards in dental and CT examination rooms. Recommendations include strengthening basic imaging based on a tiered diagnosis and treatment system, promoting complementarity with the advanced technologies of general hospitals, and enhancing regulatory oversight of radiation protection in dental and CT equipment.This study analyzed the allocation of radiological diagnostic and therapeutic equipment and radiation protection status in traditional Chinese medicine (TCM) institutions in Jiangxi Province to provide evidence for resource allocation optimization and safety supervision. Questionnaire surveys were carried out to collect data on radiological equipment and protective resources from 118 TCM institutions, and radiation protection inspections were implemented on 69 devices from 23 sampled institutions. Among all 476 surveyed devices, 95.8% belonged to diagnostic radiology units, with radiotherapy (0.4%) and interventional radiology equipment (3.8%) being insufficiently equipped. Tertiary hospitals possessed an average of 9.60 devices per institution, significantly higher than secondary (3.71) and primary institutions (1.33) (F=41.51, P<0.01). The regional Gini coefficient was 0.182; the per capita equipment volume of Yingtan City (0.183 units per 10 000 residents) was 2.8 times that of Ganzhou City (0.066 units per 10 000 residents). The radiological service structure was homogeneous: diagnostic radiology accounted for 99.9% of total service volume, while interventional radiology and radiotherapy only made up 0.1% and 0.003% respectively, and tertiary hospitals produced 28.6 times more service volume than primary institutions (F=18.72, P<0.01). Radiological staff were unevenly distributed, heavily concentrated in tertiary hospitals (32.80 persons per hospital vs. 1.86 persons at primary institutions, F=42.80, P<0.01). The overall pass rate of workplace radiation protection monitoring reached 89.9%, whereas panoramic dental X-ray rooms had merely a 20% pass rate and CT rooms achieved 85.7%. In summary, TCM institutions in Jiangxi mainly deliver basic radiodiagnostic services lacking high-end radiological care, featuring prominent hierarchical and regional resource imbalance; their radiation protection performance is inferior to general hospitals, and hidden safety hazards widely exist in dental and CT examination rooms. It is recommended to strengthen basic imaging services of TCM institutions under the tiered medical system to form complementary high-end technical support with general hospitals, and strengthen targeted radiation protection supervision focusing on dental and CT equipment.

Key words: traditional Chinese medicine institutions, radiation protection, radiological diagnosis and treatment, resource allocation

中图分类号: 

  • R197.3