Distinct spatiotemporal patterns of white matter hyperintensity progression

Jinyong Chung; Gilsoon Park; Wi Sun Ryu; Dawid Schellingerhout; Hang Rai Kim; Dong Seok Gwak; Elizabeth Haddad; Neda Jahanshad; Beom Joon Kim; Keun Sik Hong; Hyerin Oh; Sang Wuk Jeong; Joon Tae Kim; Man Seok Park; Kang Ho Choi; Kyungbok Lee; Tai Hwan Park; Sang Soon Park; Jong Moo Park; Kyusik Kang; Kyung Ho Yu; Mi Sun Oh; Soo Joo Lee; Jae Guk Kim; Jae Kwan Cha; Dae Hyun Kim; Jun Lee; Moon Ku Han; Yong Jin Cho; Byung Chul Lee; Philip M. Bath; Joanna M. Wardlaw; Hee Joon Bae; Hosung Kim; Dong Eog Kim

doi:10.1038/s41467-025-64704-4

Distinct spatiotemporal patterns of white matter hyperintensity progression

Jinyong Chung
, Gilsoon Park
, Wi Sun Ryu
, Dawid Schellingerhout
, Hang Rai Kim
, Dong Seok Gwak
, Elizabeth Haddad
, Neda Jahanshad
, Beom Joon Kim
, Keun Sik Hong
, Hyerin Oh
, Sang Wuk Jeong
, Joon Tae Kim
, Man Seok Park
, Kang Ho Choi
, Kyungbok Lee
, Tai Hwan Park
, Sang Soon Park
, Jong Moo Park
, Kyusik Kang

Kyung Ho Yu, Mi Sun Oh, Soo Joo Lee, Jae Guk Kim, Jae Kwan Cha, Dae Hyun Kim, Jun Lee, Moon Ku Han, Yong Jin Cho, Byung Chul Lee, Philip M. Bath, Joanna M. Wardlaw, Hee Joon Bae, Hosung Kim, Dong Eog Kim

Department of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

White matter hyperintensity, a key imaging biomarker for brain health, has prognostic implications for stroke. Using a multicenter MRI dataset of 9179 stroke patients plus the UK Biobank (n = 36,210 low/high risk controls), we employ Subtype and Stage Inference modeling and identify three distinct white matter hyperintensity progression subtypes: fronto-parietal, radial, and temporo-occipital. Longitudinal validation confirms classification stability. The fronto-parietal subtype shows delayed onset and more hypertension, while the temporo-occipital subtype has more atrial fibrillation and coronary heart disease. The fronto-parietal and radial subtypes are linked to small vessel stroke, while the temporo-occipital subtype is linked to cardioembolism. The fronto-parietal subtype has higher 1-year ischemic stroke recurrence, while the temporo-occipital subtype shows a higher incidence of early neurological deterioration by symptomatic hemorrhagic transformation and worse 3-month outcomes. Beyond capturing progression, demographics, and vascular risks, and improving post-stroke outcome prediction, this subtyping–staging model also holds potential for stroke prediction.

Original language	English
Article number	9360
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-64704-4
State	Published - Dec 2025

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Chung, J., Park, G., Ryu, W. S., Schellingerhout, D., Kim, H. R., Gwak, D. S., Haddad, E., Jahanshad, N., Kim, B. J., Hong, K. S., Oh, H., Jeong, S. W., Kim, J. T., Park, M. S., Choi, K. H., Lee, K., Park, T. H., Park, S. S., Park, J. M., ... Kim, D. E. (2025). Distinct spatiotemporal patterns of white matter hyperintensity progression. Nature Communications, 16(1), Article 9360. https://doi.org/10.1038/s41467-025-64704-4

@article{474e293cdf964e32b85614ebb0eca0fd,

title = "Distinct spatiotemporal patterns of white matter hyperintensity progression",

abstract = "White matter hyperintensity, a key imaging biomarker for brain health, has prognostic implications for stroke. Using a multicenter MRI dataset of 9179 stroke patients plus the UK Biobank (n = 36,210 low/high risk controls), we employ Subtype and Stage Inference modeling and identify three distinct white matter hyperintensity progression subtypes: fronto-parietal, radial, and temporo-occipital. Longitudinal validation confirms classification stability. The fronto-parietal subtype shows delayed onset and more hypertension, while the temporo-occipital subtype has more atrial fibrillation and coronary heart disease. The fronto-parietal and radial subtypes are linked to small vessel stroke, while the temporo-occipital subtype is linked to cardioembolism. The fronto-parietal subtype has higher 1-year ischemic stroke recurrence, while the temporo-occipital subtype shows a higher incidence of early neurological deterioration by symptomatic hemorrhagic transformation and worse 3-month outcomes. Beyond capturing progression, demographics, and vascular risks, and improving post-stroke outcome prediction, this subtyping–staging model also holds potential for stroke prediction.",

author = "Jinyong Chung and Gilsoon Park and Ryu, \{Wi Sun\} and Dawid Schellingerhout and Kim, \{Hang Rai\} and Gwak, \{Dong Seok\} and Elizabeth Haddad and Neda Jahanshad and Kim, \{Beom Joon\} and Hong, \{Keun Sik\} and Hyerin Oh and Jeong, \{Sang Wuk\} and Kim, \{Joon Tae\} and Park, \{Man Seok\} and Choi, \{Kang Ho\} and Kyungbok Lee and Park, \{Tai Hwan\} and Park, \{Sang Soon\} and Park, \{Jong Moo\} and Kyusik Kang and Yu, \{Kyung Ho\} and Oh, \{Mi Sun\} and Lee, \{Soo Joo\} and Kim, \{Jae Guk\} and Cha, \{Jae Kwan\} and Kim, \{Dae Hyun\} and Jun Lee and Han, \{Moon Ku\} and Cho, \{Yong Jin\} and Lee, \{Byung Chul\} and Bath, \{Philip M.\} and Wardlaw, \{Joanna M.\} and Bae, \{Hee Joon\} and Hosung Kim and Kim, \{Dong Eog\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

doi = "10.1038/s41467-025-64704-4",

language = "English",

volume = "16",

journal = "Nature Communications",

issn = "2041-1723",

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Chung, J, Park, G, Ryu, WS, Schellingerhout, D, Kim, HR, Gwak, DS, Haddad, E, Jahanshad, N, Kim, BJ, Hong, KS, Oh, H, Jeong, SW, Kim, JT, Park, MS, Choi, KH, Lee, K, Park, TH, Park, SS, Park, JM, Kang, K, Yu, KH, Oh, MS, Lee, SJ, Kim, JG, Cha, JK, Kim, DH, Lee, J, Han, MK, Cho, YJ, Lee, BC, Bath, PM, Wardlaw, JM, Bae, HJ, Kim, H & Kim, DE 2025, 'Distinct spatiotemporal patterns of white matter hyperintensity progression', Nature Communications, vol. 16, no. 1, 9360. https://doi.org/10.1038/s41467-025-64704-4

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T1 - Distinct spatiotemporal patterns of white matter hyperintensity progression

AU - Chung, Jinyong

AU - Park, Gilsoon

AU - Ryu, Wi Sun

AU - Schellingerhout, Dawid

AU - Kim, Hang Rai

AU - Gwak, Dong Seok

AU - Haddad, Elizabeth

AU - Jahanshad, Neda

AU - Kim, Beom Joon

AU - Hong, Keun Sik

AU - Oh, Hyerin

AU - Jeong, Sang Wuk

AU - Kim, Joon Tae

AU - Park, Man Seok

AU - Choi, Kang Ho

AU - Lee, Kyungbok

AU - Park, Tai Hwan

AU - Park, Sang Soon

AU - Park, Jong Moo

AU - Kang, Kyusik

AU - Yu, Kyung Ho

AU - Oh, Mi Sun

AU - Lee, Soo Joo

AU - Kim, Jae Guk

AU - Cha, Jae Kwan

AU - Kim, Dae Hyun

AU - Lee, Jun

AU - Han, Moon Ku

AU - Cho, Yong Jin

AU - Lee, Byung Chul

AU - Bath, Philip M.

AU - Wardlaw, Joanna M.

AU - Bae, Hee Joon

AU - Kim, Hosung

AU - Kim, Dong Eog

PY - 2025/12

Y1 - 2025/12

N2 - White matter hyperintensity, a key imaging biomarker for brain health, has prognostic implications for stroke. Using a multicenter MRI dataset of 9179 stroke patients plus the UK Biobank (n = 36,210 low/high risk controls), we employ Subtype and Stage Inference modeling and identify three distinct white matter hyperintensity progression subtypes: fronto-parietal, radial, and temporo-occipital. Longitudinal validation confirms classification stability. The fronto-parietal subtype shows delayed onset and more hypertension, while the temporo-occipital subtype has more atrial fibrillation and coronary heart disease. The fronto-parietal and radial subtypes are linked to small vessel stroke, while the temporo-occipital subtype is linked to cardioembolism. The fronto-parietal subtype has higher 1-year ischemic stroke recurrence, while the temporo-occipital subtype shows a higher incidence of early neurological deterioration by symptomatic hemorrhagic transformation and worse 3-month outcomes. Beyond capturing progression, demographics, and vascular risks, and improving post-stroke outcome prediction, this subtyping–staging model also holds potential for stroke prediction.

AB - White matter hyperintensity, a key imaging biomarker for brain health, has prognostic implications for stroke. Using a multicenter MRI dataset of 9179 stroke patients plus the UK Biobank (n = 36,210 low/high risk controls), we employ Subtype and Stage Inference modeling and identify three distinct white matter hyperintensity progression subtypes: fronto-parietal, radial, and temporo-occipital. Longitudinal validation confirms classification stability. The fronto-parietal subtype shows delayed onset and more hypertension, while the temporo-occipital subtype has more atrial fibrillation and coronary heart disease. The fronto-parietal and radial subtypes are linked to small vessel stroke, while the temporo-occipital subtype is linked to cardioembolism. The fronto-parietal subtype has higher 1-year ischemic stroke recurrence, while the temporo-occipital subtype shows a higher incidence of early neurological deterioration by symptomatic hemorrhagic transformation and worse 3-month outcomes. Beyond capturing progression, demographics, and vascular risks, and improving post-stroke outcome prediction, this subtyping–staging model also holds potential for stroke prediction.

UR - https://www.scopus.com/pages/publications/105019571064

U2 - 10.1038/s41467-025-64704-4

DO - 10.1038/s41467-025-64704-4

M3 - Article

C2 - 41136463

AN - SCOPUS:105019571064

SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 9360

ER -

Distinct spatiotemporal patterns of white matter hyperintensity progression

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