用于罕见疾病表型分析的大型语言模型混合框架。

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

ACS Applied Electronic Materials Pub Date : 2024-10-08 DOI:10.1186/s12911-024-02698-7

Jinge Wu, Hang Dong, Zexi Li, Haowei Wang, Runci Li, Arijit Patra, Chengliang Dai, Waqar Ali, Phil Scordis, Honghan Wu

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引用次数: 0

摘要

目的：罕见病由于发病率低、临床表现各异，给诊断和治疗带来了巨大挑战。非结构化临床笔记包含识别罕见病的宝贵信息，但人工整理耗时且易受主观因素影响。本研究旨在开发一种混合方法，将基于字典的自然语言处理（NLP）工具与大型语言模型（LLM）相结合，从非结构化临床报告中改进罕见病的识别：我们提出了一个新颖的混合框架，该框架整合了 Orphanet 罕见病本体（ORDO）和统一医学语言系统（UMLS），以创建一个全面的罕见病词汇表。SemEHR 是一种基于字典的 NLP 工具，用于从临床笔记中提取罕见病内容。为了完善结果并提高准确性，我们利用了各种 LLM，包括 LLaMA3、Phi3-mini 以及 OpenBioLLM 和 BioMistral 等特定领域模型。我们还探索了不同的提示策略，如零次提示、少量提示和知识增强生成，以优化 LLM 的性能：结果：与传统的 NLP 系统和独立的 LLM 相比，所提出的混合方法表现出更优越的性能。在罕见病识别方面，LLaMA3 和 Phi3-mini 的 F1 分数最高。使用 1-3 个示例进行少量提示可获得最佳效果，而知识增强生成的效果改善有限。值得注意的是，该方法发现了大量未在结构化诊断记录中记录的潜在罕见病病例，凸显了其识别以前未被识别的患者的能力：将基于字典的 NLP 工具与 LLMs 相结合的混合方法在改善从非结构化临床报告中识别罕见病方面大有可为。通过利用这两种技术的优势，该方法显示出卓越的性能和发现隐藏罕见病病例的潜力。还需要进一步的研究来解决与本体映射和重叠病例识别相关的局限性，并将该方法融入临床实践，以实现早期诊断和改善患者预后。

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A hybrid framework with large language models for rare disease phenotyping.

Purpose: Rare diseases pose significant challenges in diagnosis and treatment due to their low prevalence and heterogeneous clinical presentations. Unstructured clinical notes contain valuable information for identifying rare diseases, but manual curation is time-consuming and prone to subjectivity. This study aims to develop a hybrid approach combining dictionary-based natural language processing (NLP) tools with large language models (LLMs) to improve rare disease identification from unstructured clinical reports.

Methods: We propose a novel hybrid framework that integrates the Orphanet Rare Disease Ontology (ORDO) and the Unified Medical Language System (UMLS) to create a comprehensive rare disease vocabulary. SemEHR, a dictionary-based NLP tool, is employed to extract rare disease mentions from clinical notes. To refine the results and improve accuracy, we leverage various LLMs, including LLaMA3, Phi3-mini, and domain-specific models like OpenBioLLM and BioMistral. Different prompting strategies, such as zero-shot, few-shot, and knowledge-augmented generation, are explored to optimize the LLMs' performance.

Results: The proposed hybrid approach demonstrates superior performance compared to traditional NLP systems and standalone LLMs. LLaMA3 and Phi3-mini achieve the highest F1 scores in rare disease identification. Few-shot prompting with 1-3 examples yields the best results, while knowledge-augmented generation shows limited improvement. Notably, the approach uncovers a significant number of potential rare disease cases not documented in structured diagnostic records, highlighting its ability to identify previously unrecognized patients.

Conclusion: The hybrid approach combining dictionary-based NLP tools with LLMs shows great promise for improving rare disease identification from unstructured clinical reports. By leveraging the strengths of both techniques, the method demonstrates superior performance and the potential to uncover hidden rare disease cases. Further research is needed to address limitations related to ontology mapping and overlapping case identification, and to integrate the approach into clinical practice for early diagnosis and improved patient outcomes.

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来源期刊

ACS Applied Electronic Materials Multiple-

CiteScore

7.20

自引率

4.30%

发文量

567