使用人均时间调整手术量开发手术负担新指标:日本的一项横断面区域分析
Development of a new indicator of surgical burden using person-time-adjusted surgical volume: a cross-sectional regional analysis in Japan.
作者信息
Asano Shima, Kunisawa Susumu, Imanaka Yuichi
机构信息
Department of Healthcare Economics and Quality Management, Kyoto University Graduate School of Medicine, School of Public Health, Kyoto, Japan.
Department of Surgery, Okinawa Miyako Hospital, Miyakojima, Japan.
出版信息
BMJ Public Health. 2025 Aug 7;3(2):e002720. doi: 10.1136/bmjph-2025-002720. eCollection 2025.
INTRODUCTION
Surgical volume is widely used as an indicator to assess surgical burden in many areas; however, it has a risk of neglecting the differences of individual operations. Moreover, the characteristics of operations differ between rural and urban areas. Fewer but more varied operations are performed in rural settings than in urban settings. A new indicator, the person-time-adjusted surgical volume, was developed by integrating surgical volume, operative time and the surgeon's workforce in each operation. This innovative measure expands the use of surgical volume in healthcare strategies, providing a promising tool for evaluating the surgical workforce on a timely basis.
METHODS
The new indicator of surgical volume, person-time-adjusted surgical volume, was developed using weighted standard operative time and the standard number of surgeons. All statistical data were derived from three published sources. Rural and local city area data were grouped together as regional areas, on the prefectural basis (n=47) and compared with the data from the urban areas of the secondary medical area (n=48) in Japan. The surgical volume of gastrointestinal surgeries and surgeon density in each area was collected and analysed. All analyses used the person-time-adjusted surgical volume per surgeon to account for differences between medical areas.
RESULTS
A negative association was found between the person-time-adjusted surgical volume and surgeon density. Regional areas had more person-time-adjusted surgical volume per surgeon than urban areas. A decrease in surgeon density resulted in an increased rate of person-time adjusted surgical volume in regional areas, which was a 10-fold increase in person-time-adjusted surgical volume per surgeon with decreasing surgeon density in regional areas. This suggests that surgeons in rural and local areas have a higher risk of overworking or burnout than those in urban areas.
CONCLUSION
The person-time-adjusted surgical volume is useful for evaluating surgical burden and visualising the gap in underprivileged areas.
引言
手术量在许多领域被广泛用作评估手术负担的指标;然而,它存在忽视个体手术差异的风险。此外,农村和城市地区的手术特点也有所不同。农村地区进行的手术数量较少但种类更多。通过将手术量、手术时间和每位手术的外科医生人力相结合,开发了一种新的指标——人时调整手术量。这一创新措施扩大了手术量在医疗保健策略中的应用,为及时评估外科医生人力提供了一个有前景的工具。
方法
使用加权标准手术时间和标准外科医生数量开发了新的手术量指标——人时调整手术量。所有统计数据均来自三个已发表的来源。农村和当地城市地区的数据在县级基础上合并为区域地区(n = 47),并与日本二级医疗地区城市地区的数据(n = 48)进行比较。收集并分析了每个地区胃肠道手术的手术量和外科医生密度。所有分析均使用每位外科医生的人时调整手术量来考虑医疗地区之间的差异。
结果
发现人时调整手术量与外科医生密度之间存在负相关。区域地区每位外科医生的人时调整手术量高于城市地区。外科医生密度的降低导致区域地区人时调整手术量的增加率上升,随着区域地区外科医生密度的降低,每位外科医生的人时调整手术量增加了10倍。这表明农村和当地地区的外科医生比城市地区的外科医生有更高的过度劳累或倦怠风险。
结论
人时调整手术量有助于评估手术负担并直观呈现贫困地区的差距。
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