Natural Language Processing in Nephrology

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Tielman T. Van Vleck , Douglas Farrell , Lili Chan
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引用次数: 1

Abstract

Unstructured data in the electronic health records contain essential patient information. Natural language processing (NLP), teaching a computer to read, allows us to tap into these data without needing the time and effort of manual chart abstraction. The core first step for all NLP algorithms is preprocessing the text to identify the core words that differentiate the text while filtering out the noise. Traditional NLP uses a rule-based approach, applying grammatical rules to infer meaning from the text. Newer NLP approaches use machine learning/deep learning which can infer meaning without explicitly being programmed. NLP use in nephrology research has focused on identifying distinct disease processes, such as CKD, and extraction of patient-oriented outcomes such as symptoms with high sensitivity. NLP can identify patient features from clinical text associated with acute kidney injury and progression of CKD. Lastly, inclusion of features extracted using NLP improved the performance of risk-prediction models compared to models that only use structured data. Implementation of NLP algorithms has been slow, partially hindered by the lack of external validation of NLP algorithms. However, NLP allows for extraction of key patient characteristics from free text, an infrequently used resource in nephrology.

肾脏病学中的自然语言处理
电子健康记录中的非结构化数据包含基本的患者信息。自然语言处理(NLP),教计算机阅读,使我们能够挖掘这些数据,而不需要人工抽象图表的时间和精力。所有NLP算法的核心第一步是对文本进行预处理,以识别区分文本的核心词,同时过滤掉噪声。传统的NLP使用基于规则的方法,应用语法规则从文本中推断意义。较新的NLP方法使用机器学习/深度学习,可以在没有明确编程的情况下推断含义。NLP在肾脏病研究中的应用主要集中在识别不同的疾病过程,如CKD,以及提取以患者为导向的结果,如高灵敏度的症状。NLP可以从与急性肾损伤和CKD进展相关的临床文献中识别患者特征。最后,与仅使用结构化数据的模型相比,包含使用NLP提取的特征可以提高风险预测模型的性能。NLP算法的实现一直很缓慢,部分原因是缺乏对NLP算法的外部验证。然而,NLP允许从自由文本中提取关键患者特征,这是肾脏病学中不常用的资源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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