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The neurophysiological brain-fingerprint of Parkinson’s diseaseResearch in context

Authors :
Jason da Silva Castanheira
Alex I. Wiesman
Justine Y. Hansen
Bratislav Misic
Sylvain Baillet
John Breitner
Judes Poirier
Pierre Bellec
Véronique Bohbot
Mallar Chakravarty
Louis Collins
Pierre Etienne
Alan Evans
Serge Gauthier
Rick Hoge
Yasser Ituria-Medina
Gerhard Multhaup
Lisa-Marie Münter
Natasha Rajah
Pedro Rosa-Neto
Jean-Paul Soucy
Etienne Vachon-Presseau
Sylvia Villeneuve
Philippe Amouyel
Melissa Appleby
Nicholas Ashton
Daniel Auld
Gülebru Ayranci
Christophe Bedetti
Marie-Lise Beland
Kaj Blennow
Ann Brinkmalm Westman
Claudio Cuello
Mahsa Dadar
Leslie-Ann Daoust
Samir Das
Marina Dauar-Tedeschi
Louis De Beaumont
Doris Dea
Maxime Descoteaux
Marianne Dufour
Sarah Farzin
Fabiola Ferdinand
Vladimir Fonov
Julie Gonneaud
Justin Kat
Christina Kazazian
Anne Labonté
Marie-Elyse Lafaille-Magnan
Marc Lalancette
Jean-Charles Lambert
Jeannie-Marie Leoutsakos
Laura Mahar
Axel Mathieu
Melissa McSweeney
Pierre-François Meyer
Justin Miron
Jamie Near
Holly NewboldFox
Nathalie Nilsson
Pierre Orban
Cynthia Picard
Alexa Pichet Binette
Jean-Baptiste Poline
Sheida Rabipour
Alyssa Salaciak
Matthew Settimi
Sivaniya Subramaniapillai
Angela Tam
Christine Tardif
Louise Théroux
Jennifer Tremblay-Mercier
Stephanie Tullo
Irem Ulku
Isabelle Vallée
Henrik Zetterberg
Vasavan Nair
Jens Pruessner
Paul Aisen
Elena Anthal
Alan Barkun
Thomas Beaudry
Fatiha Benbouhoud
Jason Brandt
Leopoldina Carmo
Charles Edouard Carrier
Laksanun Cheewakriengkrai
Blandine Courcot
Doris Couture
Suzanne Craft
Christian Dansereau
Clément Debacker
René Desautels
Sylvie Dubuc
Guerda Duclair
Mark Eisenberg
Rana El-Khoury
Anne-Marie Faubert
David Fontaine
Josée Frappier
Joanne Frenette
Guylaine Gagné
Valérie Gervais
Renuka Giles
Renee Gordon
Clifford Jack
Benoit Jutras
Zaven Khachaturian
David Knopman
Penelope Kostopoulos
Félix Lapalme
Tanya Lee
Claude Lepage
Illana Leppert
Cécile Madjar
David Maillet
Jean-Robert Maltais
Sulantha Mathotaarachchi
Ginette Mayrand
Diane Michaud
Thomas Montine
John Morris
Véronique Pagé
Tharick Pascoal
Sandra Peillieux
Mirela Petkova
Galina Pogossova
Pierre Rioux
Mark Sager
Eunice Farah Saint-Fort
Mélissa Savard
Reisa Sperling
Shirin Tabrizi
Pierre Tariot
Eduard Teigner
Ronald Thomas
Paule-Joanne Toussaint
Miranda Tuwaig
Vinod Venugopalan
Sander Verfaillie
Jacob Vogel
Karen Wan
Seqian Wang
Elsa Yu
Isabelle Beaulieu-Boire
Pierre Blanchet
Sarah Bogard
Manon Bouchard
Sylvain Chouinard
Francesca Cicchetti
Martin Cloutier
Alain Dagher
Clotilde Degroot
Alex Desautels
Marie Hélène Dion
Janelle Drouin-Ouellet
Anne-Marie Dufresne
Nicolas Dupré
Antoine Duquette
Thomas Durcan
Lesley K. Fellows
Edward Fon
Jean-François Gagnon
Ziv Gan-Or
Angela Genge
Nicolas Jodoin
Jason Karamchandani
Anne-Louise Lafontaine
Mélanie Langlois
Etienne Leveille
Martin Lévesque
Calvin Melmed
Oury Monchi
Jacques Montplaisir
Michel Panisset
Martin Parent
Minh-Thy Pham-An
Ronald Postuma
Emmanuelle Pourcher
Trisha Rao
Jean Rivest
Guy Rouleau
Madeleine Sharp
Valérie Soland
Michael Sidel
Sonia Lai Wing Sun
Alexander Thiel
Paolo Vitali
Source :
EBioMedicine, Vol 105, Iss , Pp 105201- (2024)
Publication Year :
2024
Publisher :
Elsevier, 2024.

Abstract

Summary: Background: Research in healthy young adults shows that characteristic patterns of brain activity define individual “brain-fingerprints” that are unique to each person. However, variability in these brain-fingerprints increases in individuals with neurological conditions, challenging the clinical relevance and potential impact of the approach. Our study shows that brain-fingerprints derived from neurophysiological brain activity are associated with pathophysiological and clinical traits of individual patients with Parkinson’s disease (PD). Methods: We created brain-fingerprints from task-free brain activity recorded through magnetoencephalography in 79 PD patients and compared them with those from two independent samples of age-matched healthy controls (N = 424 total). We decomposed brain activity into arrhythmic and rhythmic components, defining distinct brain-fingerprints for each type from recording durations of up to 4 min and as short as 30 s. Findings: The arrhythmic spectral components of cortical activity in patients with Parkinson’s disease are more variable over short periods, challenging the definition of a reliable brain-fingerprint. However, by isolating the rhythmic components of cortical activity, we derived brain-fingerprints that distinguished between patients and healthy controls with about 90% accuracy. The most prominent cortical features of the resulting Parkinson’s brain-fingerprint are mapped to polyrhythmic activity in unimodal sensorimotor regions. Leveraging these features, we also demonstrate that Parkinson’s symptom laterality can be decoded directly from cortical neurophysiological activity. Furthermore, our study reveals that the cortical topography of the Parkinson’s brain-fingerprint aligns with that of neurotransmitter systems affected by the disease’s pathophysiology. Interpretation: The increased moment-to-moment variability of arrhythmic brain-fingerprints challenges patient differentiation and explains previously published results. We outline patient-specific rhythmic brain signaling features that provide insights into both the neurophysiological signature and symptom laterality of Parkinson’s disease. Thus, the proposed definition of a rhythmic brain-fingerprint of Parkinson’s disease may contribute to novel, refined approaches to patient stratification. Symmetrically, we discuss how rhythmic brain-fingerprints may contribute to the improved identification and testing of therapeutic neurostimulation targets. Funding: Data collection and sharing for this project was provided by the Quebec Parkinson Network (QPN), the Pre-symptomatic Evaluation of Novel or Experimental Treatments for Alzheimer’s Disease (PREVENT-AD; release 6.0) program, the Cambridge Centre for Aging Neuroscience (Cam-CAN), and the Open MEG Archives (OMEGA). The QPN is funded by a grant from Fonds de Recherche du Québec - Santé (FRQS). PREVENT-AD was launched in 2011 as a $13.5 million, 7-year public-private partnership using funds provided by McGill University, the FRQS, an unrestricted research grant from Pfizer Canada, the Levesque Foundation, the Douglas Hospital Research Centre and Foundation, the Government of Canada, and the Canada Fund for Innovation. The Brainstorm project is supported by funding to SB from the NIH (R01-EB026299-05). Further funding to SB for this study included a Discovery grant from the Natural Sciences and Engineering Research Council of Canada of Canada (436355-13), and the CIHR Canada research Chair in Neural Dynamics of Brain Systems (CRC-2017-00311).

Details

Language :
English
ISSN :
23523964 and 46662561
Volume :
105
Issue :
105201-
Database :
Directory of Open Access Journals
Journal :
EBioMedicine
Publication Type :
Academic Journal
Accession number :
edsdoj.53cebec840074e92a908d46662561dae
Document Type :
article
Full Text :
https://doi.org/10.1016/j.ebiom.2024.105201