State of open science in cancer research

Rius, Cristina; Liu, Yiming; Sixto-Costoya, Andrea; Valderrama-Zurián, Juan Carlos; Lucas-Dominguez, Rut

doi:10.1007/s12094-024-03468-7

Clin Transl Oncol

2024

DOI: 10.1007/s12094-024-03468-7

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State of open science in cancer research

Cristina Rius,

Yiming Liu,

Andrea Sixto-Costoya

et al.

Abstract: Purpose This study has been focused on assessing the Open Science scenario of cancer research during the period 2011–2021, in terms of the derived scientific publications and raw data dissemination. Methods A cancer search equation was executed in the Science Citation Index-Expanded, collecting the papers signed by at least one Spanish institution. The same search strategy was performed in the Data Citation Index to describe dataset diffusion. … Show more

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Expert-Guided Large Language Models for Clinical Decision Support in Precision Oncology

Lammert,

Dreyer,

Mathes

et al. 2024

JCO Precis Oncol

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PURPOSE Rapidly expanding medical literature challenges oncologists seeking targeted cancer therapies. General-purpose large language models (LLMs) lack domain-specific knowledge, limiting their clinical utility. This study introduces the LLM system Medical Evidence Retrieval and Data Integration for Tailored Healthcare (MEREDITH), designed to support treatment recommendations in precision oncology. Built on Google's Gemini Pro LLM, MEREDITH uses retrieval-augmented generation and chain of thought . METHODS We evaluated MEREDITH on 10 publicly available fictional oncology cases with iterative feedback from a molecular tumor board (MTB) at a major German cancer center. Initially limited to PubMed -indexed literature (draft system), MEREDITH was enhanced to incorporate clinical studies on drug response within the specific tumor type, trial databases, drug approval status, and oncologic guidelines. The MTB provided a benchmark with manually curated treatment recommendations and assessed the clinical relevance of LLM-generated options (qualitative assessment). We measured semantic cosine similarity between LLM suggestions and clinician responses (quantitative assessment). RESULTS MEREDITH identified a broader range of treatment options (median 4) compared with MTB experts (median 2). These options included therapies on the basis of preclinical data and combination treatments, expanding the treatment possibilities for consideration by the MTB. This broader approach was achieved by incorporating a curated medical data set that contextualized molecular targetability. Mirroring the approach MTB experts use to evaluate MTB cases improved the LLM's ability to generate relevant suggestions. This is supported by high concordance between LLM suggestions and expert recommendations (94.7% for the enhanced system) and a significant increase in semantic similarity from the draft to the enhanced system (from 0.71 to 0.76, P = .01). CONCLUSION Expert feedback and domain-specific data augment LLM performance. Future research should investigate responsible LLM integration into real-world clinical workflows.

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Expert-Guided Large Language Models for Clinical Decision Support in Precision Oncology

Lammert,

Dreyer,

Mathes

et al. 2024

JCO Precis Oncol

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State of open science in cancer research

Cited by 1 publication

References 18 publications

Expert-Guided Large Language Models for Clinical Decision Support in Precision Oncology

Expert-Guided Large Language Models for Clinical Decision Support in Precision Oncology

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