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Development and Validation of a Deep Learning Algorithm for Detection of Diabetic Retinopathy in Retinal Fundus Photographs.深度学习算法在视网膜眼底照片糖尿病视网膜病变检测中的开发与验证。
JAMA. 2016 Dec 13;316(22):2402-2410. doi: 10.1001/jama.2016.17216.
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Clinical calculators in hospital medicine: Availability, classification, and needs.医院医学中的临床计算器:可用性、分类及需求。
Comput Methods Programs Biomed. 2016 Sep;133:1-6. doi: 10.1016/j.cmpb.2016.05.006. Epub 2016 May 19.
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Machine Learning in Medicine.医学中的机器学习
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The Accuracy of an Electronic Pulmonary Embolism Severity Index Auto-Populated from the Electronic Health Record: Setting the stage for computerized clinical decision support.从电子健康记录自动填充的电子肺栓塞严重程度指数的准确性:为计算机化临床决策支持奠定基础。
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2014 AHA/ACC/HRS guideline for the management of patients with atrial fibrillation: a report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines and the Heart Rhythm Society.2014年美国心脏协会/美国心脏病学会/心律学会心房颤动患者管理指南:美国心脏病学会/美国心脏协会实践指南工作组及心律学会的报告
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电子健康记录中临床评分计算的自动化。可行性评估。

Automating Clinical Score Calculation within the Electronic Health Record. A Feasibility Assessment.

作者信息

Aakre Christopher, Dziadzko Mikhail, Keegan Mark T, Herasevich Vitaly

机构信息

Christopher A Aakre, M.D., Division of General Internal Medicine, Mayo Clinic, 200 First St SW, Rochester, MN 55905, Fax: 507-284-5370, Telephone: 507-538-0621, Email:

出版信息

Appl Clin Inform. 2017 Apr 12;8(2):369-380. doi: 10.4338/ACI-2016-09-RA-0149.

DOI:10.4338/ACI-2016-09-RA-0149
PMID:28401245
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6241755/
Abstract

OBJECTIVES

Evidence-based clinical scores are used frequently in clinical practice, but data collection and data entry can be time consuming and hinder their use. We investigated the programmability of 168 common clinical calculators for automation within electronic health records.

METHODS

We manually reviewed and categorized variables from 168 clinical calculators as being extractable from structured data, unstructured data, or both. Advanced data retrieval methods from unstructured data sources were tabulated for diagnoses, non-laboratory test results, clinical history, and examination findings.

RESULTS

We identified 534 unique variables, of which 203/534 (37.8%) were extractable from structured data and 269/534 (50.4.7%) were potentially extractable using advanced techniques. Nearly half (265/534, 49.6%) of all variables were not retrievable. Only 26/168 (15.5%) of scores were completely programmable using only structured data and 43/168 (25.6%) could potentially be programmable using widely available advanced information retrieval techniques. Scores relying on clinical examination findings or clinical judgments were most often not completely programmable.

CONCLUSION

Complete automation is not possible for most clinical scores because of the high prevalence of clinical examination findings or clinical judgments - partial automation is the most that can be achieved. The effect of fully or partially automated score calculation on clinical efficiency and clinical guideline adherence requires further study.

摘要

目的

循证临床评分在临床实践中经常使用,但数据收集和数据录入可能很耗时,并阻碍其应用。我们调查了168种常见临床计算器在电子健康记录中实现自动化的可编程性。

方法

我们手动审查并将168种临床计算器中的变量分类为可从结构化数据、非结构化数据或两者中提取。列出了从非结构化数据源获取高级数据检索方法,用于诊断、非实验室检查结果、临床病史和检查结果。

结果

我们识别出534个独特变量,其中203/534(37.8%)可从结构化数据中提取,269/534(50.4%)可使用先进技术潜在提取。所有变量中近一半(265/534,49.6%)无法检索。仅26/168(15.5%)的评分仅使用结构化数据即可完全编程,43/168(25.6%)使用广泛可用的先进信息检索技术可能可编程。依赖临床检查结果或临床判断的评分通常无法完全编程。

结论

由于临床检查结果或临床判断普遍存在,大多数临床评分无法完全自动化——最多只能实现部分自动化。完全或部分自动化评分计算对临床效率和临床指南遵循的影响需要进一步研究。