Retrieval-Augmented Generation: Advancing personalized care and research in oncology

Mor Zarfati; Shelly Soffer; Girish N. Nadkarni; Eyal Klang

doi:10.1016/j.ejca.2025.115341

Retrieval-Augmented Generation: Advancing personalized care and research in oncology

Mor Zarfati, Shelly Soffer, Girish N. Nadkarni, Eyal Klang

Research output: Contribution to journal › Article › peer-review

Abstract

Retrieval-Augmented Generation (RAG) pairs large language models (LLMs) with recent data to produce more accurate, context-aware outputs. By converting text into numeric embeddings, RAG locates and retrieves relevant “chunks” of data, that along with the query, ground the model's responses in current, specific information. This process helps reduce outdated or fabricated answers. In oncology, RAG has shown particular promise. Studies have demonstrated its ability to improve treatment recommendations by integrating genetic profiles, strengthened clinical trial matching through biomarker analysis, and accelerated drug development by clarifying model-driven insights. Despite its advantages, RAG depends on high-quality data. Biased or incomplete sources can lead to inaccurate outcomes. Careful implementation and human oversight are crucial for ensuring the effectiveness and reliability of RAG in oncology.

Original language	English
Article number	115341
Journal	European Journal of Cancer
Volume	220
DOIs	https://doi.org/10.1016/j.ejca.2025.115341
State	Published - 2 May 2025

Keywords

Artificial intelligence
Large language models
Personalized treatment

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10.1016/j.ejca.2025.115341

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title = "Retrieval-Augmented Generation: Advancing personalized care and research in oncology",

abstract = "Retrieval-Augmented Generation (RAG) pairs large language models (LLMs) with recent data to produce more accurate, context-aware outputs. By converting text into numeric embeddings, RAG locates and retrieves relevant “chunks” of data, that along with the query, ground the model's responses in current, specific information. This process helps reduce outdated or fabricated answers. In oncology, RAG has shown particular promise. Studies have demonstrated its ability to improve treatment recommendations by integrating genetic profiles, strengthened clinical trial matching through biomarker analysis, and accelerated drug development by clarifying model-driven insights. Despite its advantages, RAG depends on high-quality data. Biased or incomplete sources can lead to inaccurate outcomes. Careful implementation and human oversight are crucial for ensuring the effectiveness and reliability of RAG in oncology.",

keywords = "Artificial intelligence, Large language models, Personalized treatment",

author = "Mor Zarfati and Shelly Soffer and Nadkarni, {Girish N.} and Eyal Klang",

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doi = "10.1016/j.ejca.2025.115341",

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T1 - Retrieval-Augmented Generation

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AU - Zarfati, Mor

AU - Soffer, Shelly

AU - Nadkarni, Girish N.

AU - Klang, Eyal

PY - 2025/5/2

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AB - Retrieval-Augmented Generation (RAG) pairs large language models (LLMs) with recent data to produce more accurate, context-aware outputs. By converting text into numeric embeddings, RAG locates and retrieves relevant “chunks” of data, that along with the query, ground the model's responses in current, specific information. This process helps reduce outdated or fabricated answers. In oncology, RAG has shown particular promise. Studies have demonstrated its ability to improve treatment recommendations by integrating genetic profiles, strengthened clinical trial matching through biomarker analysis, and accelerated drug development by clarifying model-driven insights. Despite its advantages, RAG depends on high-quality data. Biased or incomplete sources can lead to inaccurate outcomes. Careful implementation and human oversight are crucial for ensuring the effectiveness and reliability of RAG in oncology.

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Retrieval-Augmented Generation: Advancing personalized care and research in oncology

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Keywords

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