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Med Care. 2017 Aug;55(8):789-796. doi: 10.1097/MLR.0000000000000754.
3
Innovations in Population Health Surveillance: Using Electronic Health Records for Chronic Disease Surveillance.人口健康监测的创新:利用电子健康记录进行慢性病监测。
Am J Public Health. 2017 Jun;107(6):853-857. doi: 10.2105/AJPH.2017.303813. Epub 2017 Apr 20.
4
Enabling Better Interoperability for HealthCare: Lessons in Developing a Standards Based Application Programing Interface for Electronic Medical Record Systems.实现医疗保健的更好互操作性:电子病历系统基于标准的应用程序编程接口开发经验教训。
J Med Syst. 2015 Nov;39(11):182. doi: 10.1007/s10916-015-0356-6. Epub 2015 Oct 7.
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Local public health resource allocation: limited choices and strategic decisions.地方公共卫生资源配置:有限的选择和战略决策。
Am J Prev Med. 2013 Dec;45(6):769-75. doi: 10.1016/j.amepre.2013.08.009.
6
Better value digital health: the medium, the market and the role of openness.更具价值的数字健康:媒介、市场与开放性的作用。
Clin Med (Lond). 2013 Aug;13(4):336-9. doi: 10.7861/clinmedicine.13-4-336.

医学中使用机器学习进行有效的资源管理:一个应用示例。

Effective resource management using machine learning in medicine: an applied example.

作者信息

Williams Alan, Mekhail Ann-Marie, Williams James, McCord Johanna, Buchan Vanessa

机构信息

Canterbury University, Canterbury District Health Board, Christchurch, New Zealand.

Intensive Care Unit, Barts Health NHS Trust, London, UK.

出版信息

BMJ Simul Technol Enhanc Learn. 2018 Jun 22;5(2):85-90. doi: 10.1136/bmjstel-2017-000289. eCollection 2019.

DOI:10.1136/bmjstel-2017-000289
PMID:35519832
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8936600/
Abstract

BACKGROUND

The field of medicine is rapidly becoming digitised, and in the process passively amassing large volumes of healthcare data. Machine learning and data analytics are advancing rapidly, but these have been slow to be taken up in the day-to-day delivery of healthcare. We present an application of machine learning to optimise a laboratory testing programme as an example of benefiting from these tools.

METHODS

Canterbury District Health Board has recently implemented a system for urgent lab sample processing in the community, reducing unnecessary emergency presentations to hospital. Samples are transported from primary care facilities to a central laboratory. To improve the efficiency of this service, our team built a prototype transport scheduling platform using machine learning techniques and simulated the efficiency and cost impact of the platform using historical data.

RESULTS

Our simulation demonstrated procedural efficiency and potential for annual savings between 5% and 14% from implementing a real-time lab sample transport scheduling platform. Advantages included providing a forward job list to the laboratory, an expected time to result and a streamlined transport request process.

CONCLUSION

There are a range of opportunities in healthcare to use large datasets for improved delivery of care. We have described an applied example of using machine learning techniques to improve the efficiency of community patient lab sample processing at scale. This is with a view to demonstrating practical avenues for collaboration between clinicians and machine learning engineers.

摘要

背景

医学领域正在迅速数字化,并在此过程中被动积累了大量医疗数据。机器学习和数据分析发展迅速,但在日常医疗服务中的应用却进展缓慢。我们展示了一个机器学习的应用案例,即优化实验室检测项目,以此作为受益于这些工具的一个例子。

方法

坎特伯雷地区卫生委员会最近实施了一个社区紧急实验室样本处理系统,减少了不必要的医院急诊就诊。样本从基层医疗设施运送到中央实验室。为提高这项服务的效率,我们的团队使用机器学习技术构建了一个原型运输调度平台,并利用历史数据模拟了该平台的效率和成本影响。

结果

我们的模拟显示,实施实时实验室样本运输调度平台可提高程序效率,并有可能实现每年5%至14%的成本节约。优势包括向实验室提供前瞻性工作清单、预计出结果时间以及简化的运输请求流程。

结论

在医疗保健领域,利用大型数据集改善医疗服务的提供存在一系列机会。我们描述了一个应用机器学习技术大规模提高社区患者实验室样本处理效率的实例。目的是展示临床医生和机器学习工程师之间合作的实际途径。