Addressing Asynchronicity in Clinical Multimodal Fusion via Individualized Chest X-ray Generation

Wenfang Yao; Chen Liu; Kejing Yin; William Cheung; Jing Qin

Addressing Asynchronicity in Clinical Multimodal Fusion via Individualized Chest X-ray Generation

Wenfang Yao, Chen Liu, Kejing Yin^*, William Cheung, Jing Qin

^*Corresponding author for this work

Department of Computer Science

Research output: Chapter in book/report/conference proceeding › Conference proceeding › peer-review

Abstract

Integrating multi-modal clinical data, such as electronic health records (EHR) and chest X-ray images (CXR), is particularly beneficial for clinical prediction tasks. However, in a temporal setting, multi-modal data are often inherently asynchronous. EHR can be continuously collected but CXR is generally taken with a much longer interval due to its high cost and radiation dose. When clinical prediction is needed, the last available CXR image might have been outdated, leading to suboptimal predictions. To address this challenge, we propose DDL-CXR, a method that dynamically generates an up-to-date latent representation of the individualized CXR images. Our approach leverages latent diffusion models for patient-specific generation strategically conditioned on a previous CXR image and EHR time series, providing information regarding anatomical structures and disease progressions, respectively. In this way, the interaction across modalities could be better captured by the latent CXR generation process, ultimately improving the prediction performance. Experiments using MIMIC datasets show that the proposed model could effectively address asynchronicity in multimodal fusion and consistently outperform existing methods.

Original language	English
Title of host publication	38th Conference on Neural Information Processing Systems, NeurIPS 2024
Editors	A. Globerson, L. Mackey, D. Belgrave, A. Fan, U. Paquet, J. Tomczak, C. Zhang
Publisher	Neural information processing systems foundation
Pages	29001-29028
Number of pages	28
ISBN (Electronic)	9798331314385
Publication status	Published - 12 Dec 2024
Event	38th Conference on Neural Information Processing Systems, NeurIPS 2024 - Vancouver Convention Center , Vancouver, Canada Duration: 9 Dec 2024 → 15 Dec 2024 https://neurips.cc/Conferences/2024 https://openreview.net/group?id=NeurIPS.cc/2024 https://proceedings.neurips.cc/paper_files/paper/2024

Publication series

Name	Advances in Neural Information Processing Systems
Volume	37
ISSN (Print)	1049-5258

Name	NeurIPS Proceedings

Conference

Conference	38th Conference on Neural Information Processing Systems, NeurIPS 2024
Country/Territory	Canada
City	Vancouver
Period	9/12/24 → 15/12/24
Internet address	https://neurips.cc/Conferences/2024 https://openreview.net/group?id=NeurIPS.cc/2024 https://proceedings.neurips.cc/paper_files/paper/2024

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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https://proceedings.neurips.cc/paper_files/paper/2024/file/3310034c97fab48fdbcba18f90fd5364-Paper-Conference.pdf

Cite this

Yao, W., Liu, C., Yin, K., Cheung, W., & Qin, J. (2024). Addressing Asynchronicity in Clinical Multimodal Fusion via Individualized Chest X-ray Generation. In A. Globerson, L. Mackey, D. Belgrave, A. Fan, U. Paquet, J. Tomczak, & C. Zhang (Eds.), 38th Conference on Neural Information Processing Systems, NeurIPS 2024 (pp. 29001-29028). (Advances in Neural Information Processing Systems; Vol. 37), (NeurIPS Proceedings). Neural information processing systems foundation. https://proceedings.neurips.cc/paper_files/paper/2024/file/3310034c97fab48fdbcba18f90fd5364-Paper-Conference.pdf

Yao, Wenfang ; Liu, Chen ; Yin, Kejing et al. / Addressing Asynchronicity in Clinical Multimodal Fusion via Individualized Chest X-ray Generation. 38th Conference on Neural Information Processing Systems, NeurIPS 2024. editor / A. Globerson ; L. Mackey ; D. Belgrave ; A. Fan ; U. Paquet ; J. Tomczak ; C. Zhang. Neural information processing systems foundation, 2024. pp. 29001-29028 (Advances in Neural Information Processing Systems). (NeurIPS Proceedings).

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title = "Addressing Asynchronicity in Clinical Multimodal Fusion via Individualized Chest X-ray Generation",

abstract = "Integrating multi-modal clinical data, such as electronic health records (EHR) and chest X-ray images (CXR), is particularly beneficial for clinical prediction tasks. However, in a temporal setting, multi-modal data are often inherently asynchronous. EHR can be continuously collected but CXR is generally taken with a much longer interval due to its high cost and radiation dose. When clinical prediction is needed, the last available CXR image might have been outdated, leading to suboptimal predictions. To address this challenge, we propose DDL-CXR, a method that dynamically generates an up-to-date latent representation of the individualized CXR images. Our approach leverages latent diffusion models for patient-specific generation strategically conditioned on a previous CXR image and EHR time series, providing information regarding anatomical structures and disease progressions, respectively. In this way, the interaction across modalities could be better captured by the latent CXR generation process, ultimately improving the prediction performance. Experiments using MIMIC datasets show that the proposed model could effectively address asynchronicity in multimodal fusion and consistently outperform existing methods.",

author = "Wenfang Yao and Chen Liu and Kejing Yin and William Cheung and Jing Qin",

note = "Funding Information: This work is partially supported by the General Research Fund of Hong Kong Research Grants Council (project no. 15218521), a grant under Theme-based Research Scheme of Hong Kong Research Grants Council (project no. T45-401/22-N), the General Research Fund RGC/HKBU12202621 from the Research Grant Council, the Research Matching Grant Scheme RMGS2021_8_06 from the Hong Kong Government, the National Natural Science Foundation of China (62302413), and the Health and Medical Research Fund (23220312).; 38th Conference on Neural Information Processing Systems, NeurIPS 2024 ; Conference date: 09-12-2024 Through 15-12-2024",

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month = dec,

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language = "English",

series = "Advances in Neural Information Processing Systems",

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editor = "A. Globerson and L. Mackey and D. Belgrave and A. Fan and U. Paquet and J. Tomczak and C. Zhang",

booktitle = "38th Conference on Neural Information Processing Systems, NeurIPS 2024",

address = "United States",

url = "https://neurips.cc/Conferences/2024, https://openreview.net/group?id=NeurIPS.cc/2024, https://proceedings.neurips.cc/paper_files/paper/2024",

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Yao, W, Liu, C, Yin, K , Cheung, W & Qin, J 2024, Addressing Asynchronicity in Clinical Multimodal Fusion via Individualized Chest X-ray Generation. in A Globerson, L Mackey, D Belgrave, A Fan, U Paquet, J Tomczak & C Zhang (eds), 38th Conference on Neural Information Processing Systems, NeurIPS 2024. Advances in Neural Information Processing Systems, vol. 37, NeurIPS Proceedings, Neural information processing systems foundation, pp. 29001-29028, 38th Conference on Neural Information Processing Systems, NeurIPS 2024, Vancouver, Canada, 9/12/24. <https://proceedings.neurips.cc/paper_files/paper/2024/file/3310034c97fab48fdbcba18f90fd5364-Paper-Conference.pdf>

Addressing Asynchronicity in Clinical Multimodal Fusion via Individualized Chest X-ray Generation. / Yao, Wenfang; Liu, Chen; Yin, Kejing et al.
38th Conference on Neural Information Processing Systems, NeurIPS 2024. ed. / A. Globerson; L. Mackey; D. Belgrave; A. Fan; U. Paquet; J. Tomczak; C. Zhang. Neural information processing systems foundation, 2024. p. 29001-29028 (Advances in Neural Information Processing Systems; Vol. 37), (NeurIPS Proceedings).

Research output: Chapter in book/report/conference proceeding › Conference proceeding › peer-review

TY - GEN

T1 - Addressing Asynchronicity in Clinical Multimodal Fusion via Individualized Chest X-ray Generation

AU - Yao, Wenfang

AU - Liu, Chen

AU - Yin, Kejing

AU - Cheung, William

AU - Qin, Jing

N1 - Funding Information: This work is partially supported by the General Research Fund of Hong Kong Research Grants Council (project no. 15218521), a grant under Theme-based Research Scheme of Hong Kong Research Grants Council (project no. T45-401/22-N), the General Research Fund RGC/HKBU12202621 from the Research Grant Council, the Research Matching Grant Scheme RMGS2021_8_06 from the Hong Kong Government, the National Natural Science Foundation of China (62302413), and the Health and Medical Research Fund (23220312).

PY - 2024/12/12

Y1 - 2024/12/12

N2 - Integrating multi-modal clinical data, such as electronic health records (EHR) and chest X-ray images (CXR), is particularly beneficial for clinical prediction tasks. However, in a temporal setting, multi-modal data are often inherently asynchronous. EHR can be continuously collected but CXR is generally taken with a much longer interval due to its high cost and radiation dose. When clinical prediction is needed, the last available CXR image might have been outdated, leading to suboptimal predictions. To address this challenge, we propose DDL-CXR, a method that dynamically generates an up-to-date latent representation of the individualized CXR images. Our approach leverages latent diffusion models for patient-specific generation strategically conditioned on a previous CXR image and EHR time series, providing information regarding anatomical structures and disease progressions, respectively. In this way, the interaction across modalities could be better captured by the latent CXR generation process, ultimately improving the prediction performance. Experiments using MIMIC datasets show that the proposed model could effectively address asynchronicity in multimodal fusion and consistently outperform existing methods.

AB - Integrating multi-modal clinical data, such as electronic health records (EHR) and chest X-ray images (CXR), is particularly beneficial for clinical prediction tasks. However, in a temporal setting, multi-modal data are often inherently asynchronous. EHR can be continuously collected but CXR is generally taken with a much longer interval due to its high cost and radiation dose. When clinical prediction is needed, the last available CXR image might have been outdated, leading to suboptimal predictions. To address this challenge, we propose DDL-CXR, a method that dynamically generates an up-to-date latent representation of the individualized CXR images. Our approach leverages latent diffusion models for patient-specific generation strategically conditioned on a previous CXR image and EHR time series, providing information regarding anatomical structures and disease progressions, respectively. In this way, the interaction across modalities could be better captured by the latent CXR generation process, ultimately improving the prediction performance. Experiments using MIMIC datasets show that the proposed model could effectively address asynchronicity in multimodal fusion and consistently outperform existing methods.

UR - https://proceedings.neurips.cc/paper_files/paper/2024/hash/3310034c97fab48fdbcba18f90fd5364-Abstract-Conference.html

UR - https://neurips.cc/virtual/2024/poster/93285

M3 - Conference proceeding

T3 - Advances in Neural Information Processing Systems

SP - 29001

EP - 29028

BT - 38th Conference on Neural Information Processing Systems, NeurIPS 2024

A2 - Globerson, A.

A2 - Mackey, L.

A2 - Belgrave, D.

A2 - Fan, A.

A2 - Paquet, U.

A2 - Tomczak, J.

A2 - Zhang, C.

PB - Neural information processing systems foundation

T2 - 38th Conference on Neural Information Processing Systems, NeurIPS 2024

Y2 - 9 December 2024 through 15 December 2024

ER -

Yao W, Liu C, Yin K , Cheung W, Qin J. Addressing Asynchronicity in Clinical Multimodal Fusion via Individualized Chest X-ray Generation. In Globerson A, Mackey L, Belgrave D, Fan A, Paquet U, Tomczak J, Zhang C, editors, 38th Conference on Neural Information Processing Systems, NeurIPS 2024. Neural information processing systems foundation. 2024. p. 29001-29028. (Advances in Neural Information Processing Systems). (NeurIPS Proceedings).

Addressing Asynchronicity in Clinical Multimodal Fusion via Individualized Chest X-ray Generation

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