救急外来のデータを標準コード化し，業務の効率改善と簡便なデータ解析を両立した電子システムの開発とその評価(Development and evaluation of computer system that enables emergency department efficiency improvement and collection of coded data during normal clinical workflow)

智弘, 園生; 啓, 奈良場; 英樹, 橋本; 謙介, 中村; 尚登, 森村

doi:10.1002/jja2.12276

Nihon Kyukyu Igakukai Zasshi: Japanese Journal of Japanese Asso

2018

DOI: 10.1002/jja2.12276

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救急外来のデータを標準コード化し，業務の効率改善と簡便なデータ解析を両立した電子システムの開発とその評価(Development and evaluation of computer system that enables emergency department efficiency improvement and collection of coded data during normal clinical workflow)

園生智弘

奈良場啓

橋本英樹

et al.

Abstract: 要旨【目的】救急外来での情報技術（IT）導入による効果が期待されているが，現場業務との親和性が高くないと業務効率を低下させる恐れがある。救急外来での業務遂行を効率化しつつ，臨床研究および医療の質の向上のためのコード化医療データを蓄積可能なITシステムを開発導入し，その有用性につき評価した。【対象】Filemaker ProにてUIを整備し，カルテ記載支援や患者情報の一覧表示が可能で，かつ自動コード化技術により標準化されたデータが蓄積されるシステムを開発した。1か月間のシステム使用後に使用者を対象として質問紙調査を行った。【結果】システム総合評価は10点中7.2点であり，初期研修医の評価がとくに高かった。業務の効率化に直接役立つ機能が評価され，具体的には「患者情報の共有や検索に役立つ｣｢情報収集時のチェックリストとして機能しつつカルテ作成時間の短縮につながる」という評価が得られた。音声入力やスマートフォンの活用が今後の期待として挙がった。【結語】本システムは業務効率化を実現し，広く現場に受け入れられた。結果として現在の電子カルテよりも標準化されたデータの蓄積，あらゆる検索軸での患者データ検索，既往歴などの時系列情報の… Show more

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Institution-Specific Machine Learning Models for Prehospital Assessment to Predict Hospital Admission: Prediction Model Development Study

Shirakawa¹,

Sonoo²,

Ogura³

et al. 2020

JMIR Med Inform

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Background Although multiple prediction models have been developed to predict hospital admission to emergency departments (EDs) to address overcrowding and patient safety, only a few studies have examined prediction models for prehospital use. Development of institution-specific prediction models is feasible in this age of data science, provided that predictor-related information is readily collectable. Objective We aimed to develop a hospital admission prediction model based on patient information that is commonly available during ambulance transport before hospitalization. Methods Patients transported by ambulance to our ED from April 2018 through March 2019 were enrolled. Candidate predictors were age, sex, chief complaint, vital signs, and patient medical history, all of which were recorded by emergency medical teams during ambulance transport. Patients were divided into two cohorts for derivation (3601/5145, 70.0%) and validation (1544/5145, 30.0%). For statistical models, logistic regression, logistic lasso, random forest, and gradient boosting machine were used. Prediction models were developed in the derivation cohort. Model performance was assessed by area under the receiver operating characteristic curve (AUROC) and association measures in the validation cohort. Results Of 5145 patients transported by ambulance, including deaths in the ED and hospital transfers, 2699 (52.5%) required hospital admission. Prediction performance was higher with the addition of predictive factors, attaining the best performance with an AUROC of 0.818 (95% CI 0.792-0.839) with a machine learning model and predictive factors of age, sex, chief complaint, and vital signs. Sensitivity and specificity of this model were 0.744 (95% CI 0.716-0.773) and 0.745 (95% CI 0.709-0.776), respectively. Conclusions For patients transferred to EDs, we developed a well-performing hospital admission prediction model based on routinely collected prehospital information including chief complaints.

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Institution-Specific Machine Learning Models for Prehospital Assessment to Predict Hospital Admission: Prediction Model Development Study

Shirakawa¹,

Sonoo²,

Ogura³

et al. 2020

JMIR Med Inform

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show abstract

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Cited by 1 publication

References 17 publications

Institution-Specific Machine Learning Models for Prehospital Assessment to Predict Hospital Admission: Prediction Model Development Study

Institution-Specific Machine Learning Models for Prehospital Assessment to Predict Hospital Admission: Prediction Model Development Study

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