Related papers: Unified Representation of Genomic and Biomedical Concepts through Multi-Task, Multi-Source Contrastive Learning

Unified Representation of Genomic and Biomedical Concepts through Multi-Task, Multi-Source Contrastive Learning

URL: http://arxiv.org/abs/2410.10144v1
Date: Mon, 14 Oct 2024 04:19:52 GMT
Title: Unified Representation of Genomic and Biomedical Concepts through Multi-Task, Multi-Source Contrastive Learning
Authors: Hongyi Yuan, Suqi Liu, Kelly Cho, Katherine Liao, Alexandre Pereira, Tianxi Cai,
Abstract summary: We introduce GENomic REpresentation with Language Model (GENEREL) GENEREL is a framework designed to bridge genetic and biomedical knowledge bases. Our experiments demonstrate GENEREL's ability to effectively capture the nuanced relationships between SNPs and clinical concepts.
Score: 45.6771125432388
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We introduce GENomic Encoding REpresentation with Language Model (GENEREL), a framework designed to bridge genetic and biomedical knowledge bases. What sets GENEREL apart is its ability to fine-tune language models to infuse biological knowledge behind clinical concepts such as diseases and medications. This fine-tuning enables the model to capture complex biomedical relationships more effectively, enriching the understanding of how genomic data connects to clinical outcomes. By constructing a unified embedding space for biomedical concepts and a wide range of common SNPs from sources such as patient-level data, biomedical knowledge graphs, and GWAS summaries, GENEREL aligns the embeddings of SNPs and clinical concepts through multi-task contrastive learning. This allows the model to adapt to diverse natural language representations of biomedical concepts while bypassing the limitations of traditional code mapping systems across different data sources. Our experiments demonstrate GENEREL's ability to effectively capture the nuanced relationships between SNPs and clinical concepts. GENEREL also emerges to discern the degree of relatedness, potentially allowing for a more refined identification of concepts. This pioneering approach in constructing a unified embedding system for both SNPs and biomedical concepts enhances the potential for data integration and discovery in biomedical research.

Related papers

Multi-level biomedical NER through multi-granularity embeddings and enhanced labeling [3.8599767910528917]
This paper proposes a hybrid approach that integrates the strengths of multiple models. BERT provides contextualized word embeddings, a pre-trained multi-channel CNN for character-level information capture, and following by a BiLSTM + CRF for sequence labelling and modelling dependencies between the words in the text. We evaluate our model on the benchmark i2b2/2010 dataset, achieving an F1-score of 90.11.
arXiv Detail & Related papers (2023-12-24T21:45:36Z)
Diversifying Knowledge Enhancement of Biomedical Language Models using Adapter Modules and Knowledge Graphs [54.223394825528665]
We develop an approach that uses lightweight adapter modules to inject structured biomedical knowledge into pre-trained language models. We use two large KGs, the biomedical knowledge system UMLS and the novel biochemical OntoChem, with two prominent biomedical PLMs, PubMedBERT and BioLinkBERT. We show that our methodology leads to performance improvements in several instances while keeping requirements in computing power low.
arXiv Detail & Related papers (2023-12-21T14:26:57Z)
Exploring the In-context Learning Ability of Large Language Model for Biomedical Concept Linking [4.8882241537236455]
This research investigates a method that exploits the in-context learning capabilities of large models for biomedical concept linking. The proposed approach adopts a two-stage retrieve-and-rank framework. It achieved an accuracy of 90.% in BC5CDR disease entity normalization and 94.7% in chemical entity normalization.
arXiv Detail & Related papers (2023-07-03T16:19:50Z)
Hierarchical Pretraining for Biomedical Term Embeddings [4.69793648771741]
We propose HiPrBERT, a novel biomedical term representation model trained on hierarchical data. We show that HiPrBERT effectively learns the pair-wise distance from hierarchical information, resulting in a substantially more informative embeddings for further biomedical applications.
arXiv Detail & Related papers (2023-07-01T08:16:00Z)
BiomedGPT: A Generalist Vision-Language Foundation Model for Diverse Biomedical Tasks [68.39821375903591]
Generalist AI holds the potential to address limitations due to its versatility in interpreting different data types. Here, we propose BiomedGPT, the first open-source and lightweight vision-language foundation model.
arXiv Detail & Related papers (2023-05-26T17:14:43Z)
BERT Based Clinical Knowledge Extraction for Biomedical Knowledge Graph Construction and Analysis [0.4893345190925178]
We propose an end-to-end approach for knowledge extraction and analysis from biomedical clinical notes. The proposed framework can successfully extract relevant structured information with high accuracy.
arXiv Detail & Related papers (2023-04-21T14:45:33Z)
Cross-modal Clinical Graph Transformer for Ophthalmic Report Generation [116.87918100031153]
We propose a Cross-modal clinical Graph Transformer (CGT) for ophthalmic report generation (ORG) CGT injects clinical relation triples into the visual features as prior knowledge to drive the decoding procedure. Experiments on the large-scale FFA-IR benchmark demonstrate that the proposed CGT is able to outperform previous benchmark methods.
arXiv Detail & Related papers (2022-06-04T13:16:30Z)
G-MIND: An End-to-End Multimodal Imaging-Genetics Framework for Biomarker Identification and Disease Classification [49.53651166356737]
We propose a novel deep neural network architecture to integrate imaging and genetics data, as guided by diagnosis, that provides interpretable biomarkers. We have evaluated our model on a population study of schizophrenia that includes two functional MRI (fMRI) paradigms and Single Nucleotide Polymorphism (SNP) data.
arXiv Detail & Related papers (2021-01-27T19:28:04Z)
UmlsBERT: Clinical Domain Knowledge Augmentation of Contextual Embeddings Using the Unified Medical Language System Metathesaurus [73.86656026386038]
We introduce UmlsBERT, a contextual embedding model that integrates domain knowledge during the pre-training process. By applying these two strategies, UmlsBERT can encode clinical domain knowledge into word embeddings and outperform existing domain-specific models.
arXiv Detail & Related papers (2020-10-20T15:56:31Z)

This list is automatically generated from the titles and abstracts of the papers in this site.

This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.