Neuroimaging-based data-driven subtypes of spatiotemporal atrophy due to Parkinson’s disease

Zeena Shawa; Cameron Shand; Beatrice Taylor; Henk W. Berendse; Chris Vriend; Tim D. van Balkom; Odile A. van den Heuvel; Ysbrand D. van der Werf; Jiun‐Jie Wang; Chih‐Chien Tsai; Jason Druzgal; Benjamin T. Newman; Tracy R. Melzer; Toni L. Pitcher; John C. Dalrymple‐Alford; Tim Anderson; Gaëtan Garraux; Mario Rango; Petra Schwingenschuh; Melanie Suette; Laura M. Parkes; Sarah Al–Bachari; Johannes Klein; Michele T M Hu; Corey T. McMillan; Fabrizio Piras; Daniela Vecchio; Clelia Pellicano; Chencheng Zhang; Kathleen L. Poston; Elnaz Ghasemi; Fernando Cendes; Clarissa Lin Yasuda; Duygu Tosun; Philip Mosley; Paul M. Thompson; Neda Jahanshad; Conor Owens‐Walton; Emile d’Angremont; Eva M. van Heese; Max A. Laansma; André Altmann; ENIGMA Parkinson’s Disease Working Group; Max A. Laansma; Joanna K. Bright; Sarah Al-Bachari; Tim Anderson; Tyler Ard; Francesca Assogna; Katherine Baquero; Henk W. Berendse; Benajmin Newman; Fernando Cendes; John C Dalrymple-Alford; Rob M.A. de Bie; Ines Debove; Michiel F. Dirkx; Jason Druzgal; Hedley Emsley; Gaëtan Garraux; Rachel Guimarães; Boris A. Gutman; Rick C. Helmich; Johannes Klein; Clare E. Mackay; Corey T. McMillan; Tracy R Melzer; Laura M. Parkes; Fabrizio Piras; Toni L. Pitcher; Kathleen L. Poston; Mario Rango; Letícia Ribeiro; Cristiane S. Rocha; Christian Rummel; Lucas S. R. Santos; Reinhold Schmidt; Petra Schwingenschuh; Gianfranco Spalletta; Letizia Squarcina; Odile A. van den Heuvel; Chris Vriend; Jiun‐Jie Wang; Daniel Weintraub; Roland Wiest; Clarissa Lin Yasuda; Neda Jahanshad; Paul M Thompson; Ysbrand D. van der Werf; Rimona S. Weil; Neil P. Oxtoby

doi:10.1093/braincomms/fcaf146

Neuroimaging-based data-driven subtypes of spatiotemporal atrophy due to Parkinson’s disease

Zeena Shawa(University College London), Cameron Shand(University College London), Beatrice Taylor(University College London), Henk W. Berendse(Amsterdam Neuroscience), Chris Vriend(Amsterdam Neuroscience), Tim D. van Balkom(Amsterdam Neuroscience), Odile A. van den Heuvel(Amsterdam Neuroscience), Ysbrand D. van der Werf(Amsterdam Neuroscience), Jiun‐Jie Wang(Chang Gung University), Chih‐Chien Tsai(Chang Gung University), Jason Druzgal(University of Virginia), Benjamin T. Newman(University of Virginia), Tracy R. Melzer(University of Canterbury), Toni L. Pitcher(New Zealand Brain Research Institute), John C. Dalrymple‐Alford(University of Canterbury), Tim Anderson(Christchurch Hospital), Gaëtan Garraux(University of Liège), Mario Rango(Fondazione IRCCS Ca' Granda Ospedale Maggiore Policlinico), Petra Schwingenschuh(Medical University of Graz), Melanie Suette(Medical University of Graz), Laura M. Parkes(University of Manchester), Sarah Al–Bachari(University College London), Johannes Klein(University of Oxford), Michele T M Hu(University of Oxford), Corey T. McMillan(University of Pennsylvania), Fabrizio Piras(Fondazione Santa Lucia), Daniela Vecchio(Fondazione Santa Lucia), Clelia Pellicano(Fondazione Santa Lucia), Chencheng Zhang(Ruijin Hospital), Kathleen L. Poston(Stanford University), Elnaz Ghasemi(Stanford University), Fernando Cendes(Universidade Estadual de Campinas (UNICAMP)), Clarissa Lin Yasuda(Universidade Estadual de Campinas (UNICAMP)), Duygu Tosun(University of California, San Francisco), Philip Mosley(QIMR Berghofer Medical Research Institute), Paul M. Thompson(University of Southern California), Neda Jahanshad(University of Southern California), Conor Owens‐Walton(University of Southern California), Emile d’Angremont(Amsterdam Neuroscience), Eva M. van Heese(Amsterdam Neuroscience), Max A. Laansma(Amsterdam Neuroscience), André Altmann(University College London), ENIGMA Parkinson’s Disease Working Group, Max A. Laansma(Amsterdam Neuroscience), Joanna K. Bright, Sarah Al-Bachari(University College London), Tim Anderson(Christchurch Hospital), Tyler Ard, Francesca Assogna, Katherine Baquero, Henk W. Berendse(Amsterdam Neuroscience), Benajmin Newman(University of Virginia), Fernando Cendes(Universidade Estadual de Campinas (UNICAMP)), John C Dalrymple-Alford(University of Canterbury), Rob M.A. de Bie, Ines Debove, Michiel F. Dirkx, Jason Druzgal(University of Virginia), Hedley Emsley, Gaëtan Garraux(University of Liège), Rachel Guimarães, Boris A. Gutman, Rick C. Helmich, Johannes Klein(University of Oxford), Clare E. Mackay, Corey T. McMillan(University of Pennsylvania), Tracy R Melzer(University of Canterbury), Laura M. Parkes(University of Manchester), Fabrizio Piras(Fondazione Santa Lucia), Toni L. Pitcher(New Zealand Brain Research Institute), Kathleen L. Poston(Stanford University), Mario Rango(Fondazione IRCCS Ca' Granda Ospedale Maggiore Policlinico), Letícia Ribeiro, Cristiane S. Rocha, Christian Rummel, Lucas S. R. Santos, Reinhold Schmidt, Petra Schwingenschuh(Medical University of Graz), Gianfranco Spalletta, Letizia Squarcina, Odile A. van den Heuvel(Amsterdam Neuroscience), Chris Vriend(Amsterdam Neuroscience), Jiun‐Jie Wang(Chang Gung University), Daniel Weintraub, Roland Wiest, Clarissa Lin Yasuda(Universidade Estadual de Campinas (UNICAMP)), Neda Jahanshad(University of Southern California), Paul M Thompson(University of Southern California), Ysbrand D. van der Werf(Amsterdam Neuroscience), Rimona S. Weil(UK Dementia Research Institute), Neil P. Oxtoby(University College London)

Brain Communications

January 1, 2025

10.1093/braincomms/fcaf146

Cited by 8Open Access

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Abstract

Abstract Parkinson’s disease is the second most common neurodegenerative disease. Despite this, there are no robust biomarkers to predict progression, and understanding of disease mechanisms is limited. We used the Subtype and Stage Inference algorithm to characterize Parkinson’s disease heterogeneity in terms of spatiotemporal subtypes of macroscopic atrophy detectable on T1-weighted MRI—a successful approach used in other neurodegenerative diseases. We trained the model on covariate-adjusted cortical thicknesses and subcortical volumes from the largest known T1-weighted MRI dataset in Parkinson’s disease, Enhancing Neuroimaging through Meta-Analysis consortium Parkinson’s Disease dataset (n = 1100 cases). We tested the model by analyzing clinical progression over up to 9 years in openly-available data from people with Parkinson’s disease from the Parkinson’s Progression Markers Initiative (n = 584 cases). Under cross-validation, our analysis supported three spatiotemporal atrophy subtypes, named for the location of the earliest affected regions as: ‘Subcortical’ (n = 359, 33%), ‘Limbic’ (n = 237, 22%) and ‘Cortical’ (n = 187, 17%). A fourth subgroup having sub-threshold/no atrophy was named ‘Sub-threshold atrophy’ (n = 317, 29%). Statistical differences in clinical scores existed between the no-atrophy subgroup and the atrophy subtypes, but not among the atrophy subtypes. This suggests that the prime T1-weighted MRI delineator of clinical differences in Parkinson’s disease is atrophy severity, rather than atrophy location. Future work on unravelling the biological and clinical heterogeneity of Parkinson’s disease should leverage more sensitive neuroimaging modalities and multimodal data.

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