Cover Image

Saved in:
Bibliographic Details
Main Authors: Chen, Jintai, Hu, Yaojun, Cai, Mingchen, Lu, Yingzhou, Wang, Yue, Cao, Xu, Lin, Miao, Xu, Hongxia, Wu, Jian, Xiao, Cao, Sun, Jimeng, Li, Yuqiang, Glass, Lucas, Huang, Kexin, Zitnik, Marinka, Fu, Tianfan
Format: Preprint
Published: 2024
Subjects:
Machine Learning
Artificial Intelligence
Online Access:https://arxiv.org/abs/2407.00631
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866913894337871872
author Chen, Jintai
Hu, Yaojun
Cai, Mingchen
Lu, Yingzhou
Wang, Yue
Cao, Xu
Lin, Miao
Xu, Hongxia
Wu, Jian
Xiao, Cao
Sun, Jimeng
Li, Yuqiang
Glass, Lucas
Huang, Kexin
Zitnik, Marinka
Fu, Tianfan
author_facet Chen, Jintai
Hu, Yaojun
Cai, Mingchen
Lu, Yingzhou
Wang, Yue
Cao, Xu
Lin, Miao
Xu, Hongxia
Wu, Jian
Xiao, Cao
Sun, Jimeng
Li, Yuqiang
Glass, Lucas
Huang, Kexin
Zitnik, Marinka
Fu, Tianfan
contents Clinical trials are pivotal for developing new medical treatments but typically carry risks such as patient mortality and enrollment failure that waste immense efforts spanning over a decade. Applying artificial intelligence (AI) to predict key events in clinical trials holds great potential for providing insights to guide trial designs. However, complex data collection and question definition requiring medical expertise have hindered the involvement of AI thus far. This paper tackles these challenges by presenting a comprehensive suite of 23 meticulously curated AI-ready datasets covering multi-modal input features and 8 crucial prediction challenges in clinical trial design, encompassing prediction of trial duration, patient dropout rate, serious adverse event, mortality rate, trial approval outcome, trial failure reason, drug dose finding, design of eligibility criteria. Furthermore, we provide basic validation methods for each task to ensure the datasets' usability and reliability. We anticipate that the availability of such open-access datasets will catalyze the development of advanced AI approaches for clinical trial design, ultimately advancing clinical trial research and accelerating medical solution development.
format Preprint
id arxiv_https___arxiv_org_abs_2407_00631
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle TrialBench: Multi-Modal Artificial Intelligence-Ready Clinical Trial Datasets
Chen, Jintai
Hu, Yaojun
Cai, Mingchen
Lu, Yingzhou
Wang, Yue
Cao, Xu
Lin, Miao
Xu, Hongxia
Wu, Jian
Xiao, Cao
Sun, Jimeng
Li, Yuqiang
Glass, Lucas
Huang, Kexin
Zitnik, Marinka
Fu, Tianfan
Machine Learning
Artificial Intelligence
Clinical trials are pivotal for developing new medical treatments but typically carry risks such as patient mortality and enrollment failure that waste immense efforts spanning over a decade. Applying artificial intelligence (AI) to predict key events in clinical trials holds great potential for providing insights to guide trial designs. However, complex data collection and question definition requiring medical expertise have hindered the involvement of AI thus far. This paper tackles these challenges by presenting a comprehensive suite of 23 meticulously curated AI-ready datasets covering multi-modal input features and 8 crucial prediction challenges in clinical trial design, encompassing prediction of trial duration, patient dropout rate, serious adverse event, mortality rate, trial approval outcome, trial failure reason, drug dose finding, design of eligibility criteria. Furthermore, we provide basic validation methods for each task to ensure the datasets' usability and reliability. We anticipate that the availability of such open-access datasets will catalyze the development of advanced AI approaches for clinical trial design, ultimately advancing clinical trial research and accelerating medical solution development.
title TrialBench: Multi-Modal Artificial Intelligence-Ready Clinical Trial Datasets
topic Machine Learning
Artificial Intelligence
url https://arxiv.org/abs/2407.00631

Similar Items