Welcome to the MedQSum repository! This GitHub repository presents the code source of our paper "Enhancing Large Language Models' Utility for Medical Question-Answering: A Patient Health Question Summarization Approach", which introduces a solution to get the most out of LLMs, when answering health-related questions. We address the challenge of crafting accurate prompts by summarizing consumer health questions (CHQs) to generate clear and concise medical questions. Our approach involves fine-tuning Transformer-based models, including Flan-T5 in resource-constrained environments and three medical question summarization datasets.
To fine-tune and evaluate our models, we utilize three question summarization datasets:
| Dataset | Reference | Examples | Download | Comments |
|---|---|---|---|---|
| MeQ-Sum | Asma Ben Abacha et al | 1000 | download | |
| HCM | Khalil Mrini et al | 1643 | download | |
| CHQ-Summ | Shweta Yadav et al | 1507 | download | 693 examples were used as outlined here |
Our implemented models undergo fine-tuning using the following architecture:
We present the validation results of our fine-tuned models for question summarization across three diverse datasets:
| Dataset | Model | R-1 | R-2 | R-L | R-L-SUM |
|---|---|---|---|---|---|
| MeQ-Sum | T5 Base | 41.78 | 25.88 | 39.90 | 39.97 |
| BART Large XSum | 50.76* | 33.94* | 48.87* | 48.83* | |
| Pegasus XSum | 46.59 | 30.46 | 44.60 | 44.78 | |
| Flan-T5 XXL | 45.74 | 24.87 | 43.16 | 43.09 | |
| HCM | T5 Base | 38.49 | 19.82 | 37.64 | 37.71 |
| BART Large XSum | 38.50 | 21.86* | 37.64 | 37.67 | |
| Pegasus XSum | 38.68* | 21.48 | 38.24* | 38.20* | |
| Flan-T5 XXL | 38.34 | 19.35 | 36.94 | 36.89 | |
| CHQ-Summ | T5 Base | 38.31 | 20.36 | 36.05 | 36.10 |
| BART Large XSum | 39.95* | 20.43* | 37.46* | 37.36* | |
| Pegasus XSum | 37.16 | 18.76 | 34.96 | 34.86 | |
| Flan-T5 XXL | 36.78 | 17.02 | 35.08 | 35.05 | |
| MeQ+HCM | T5 Base | 37.90 | 20.11 | 36.75 | 36.75 |
| BART Large XSum | 41.39* | 24.12* | 40.24* | 40.23* | |
| Pegasus XSum | 41.14 | 22.13 | 40.03 | 39.96 | |
| Flan-T5 XXL | 41.31 | 22.41 | 39.74 | 39.73 | |
| MeQ+HCM+CHQ | T5 Base | 37.22 | 18.58 | 35.93 | 35.88 |
| BART Large XSum | 41.10 | 23.06 | 39.17 | 39.20 | |
| Pegasus XSum | 41.66 | 23.51* | 40.27 | 40.32 | |
| Flan-T5 XXL | 42.69* | 23.28 | 40.88* | 40.87* |
We also present ablation results demonstrating the effects of generative configuration choices and instruction fine-tuning on the MeQ-Sum dataset:
| Model | R-1 | R-2 | R-L | R-L-SUM |
|---|---|---|---|---|
| Flan-T5 Standard Fine-tuning | 45.74 | 24.87 | 43.16 | 43.09 |
| Flan-T5 Instruction Fine-Tuning | 46.94* | 27.09* | 43.40* | 43.72* |
| BART Large XSum | 50.76 | 33.94 | 48.87 | 48.83 |
| BART Large XSum (top_p=.95, top_k=50, and temp.=.6) | 54.32* | 38.08* | 51.98* | 51.99* |
To get started, clone the repository to your environment using the following command:
git clone https://github.com/zekaouinoureddine/MedQSum.gitEnsure that you have Python 3 installed, along with the necessary dependencies. You can install the dependencies using the provided requirements.txt file:
pip install -r requirements.txtTo fine-tune our implemented models and reproduce the results. Navigate to the source code directory with cd src, and execute the following command. Make sure to customize file paths and adjust parameters according to your specific requirements.
python train.py \
--train_data_path ../data/meq_sum/train.json \
--valid_data_path ../data/meq_sum/valid.json \
--train_batch_size 4 \
--valid_batch_size 4 \
--lr 3e-5 \
--epochs 4 \
--device cuda \
--chq_max_len 382 \
--sum_max_len 32 \
--model_checkpoint facebook/bart-large-xsum \
--use_instruction False \
--model_path ./output/medqsm.binTo do inference and create an understandable CHQ, use this command with your own configuration.
python inference.py \
--model_checkpoint facebook/bart-large-xsum \
--chq_max_len 384 \
--input_chq_text Type your CHQ input text \
--device cudaIf you are using this repository's code for your reseach work, please cite our paper:
@INPROCEEDINGS{10373720,
author={Zekaoui, Nour Eddine and Yousfi, Siham and Mikram, Mounia and Rhanoui, Maryem},
booktitle={2023 14th International Conference on Intelligent Systems: Theories and Applications (SITA)},
title={Enhancing Large Language Models’ Utility for Medical Question-Answering: A Patient Health Question Summarization Approach},
year={2023},
volume={},
number={},
pages={1-8},
doi={10.1109/SITA60746.2023.10373720}}
For help or issues using the paper's code, please submit a GitHub issue. For personal communication related to the paper, please contact: {nour-eddine.zekaoui, syousfi, mmikram, mrhanoui}@esi.ac.ma.
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