Spatiotemporal analysis for detection of pre-symptomatic shape changes in neurodegenerative diseases: Initial application to the GENFI cohort

Claire Cury; Stanley Durrleman; David M. Cash; Marco Lorenzi; Jennifer M. Nicholas; Martina Bocchetta; John C. van Swieten; Barbara Borroni; Daniela Galimberti; Mario Masellis; Carmela Tartaglia; James B. Rowe; Caroline Graff; Fabrizio Tagliavini; Giovanni B. Frisoni; Robert Laforce; Elizabeth Finger; Alexandre de Mendonça; Sandro Sorbi; Sebastien Ourselin; Jonathan D. Rohrer; Marc Modat; Christin Andersson; Silvana Archetti; Andrea Arighi; Luisa Benussi; Sandra Black; Maura Cosseddu; Marie Fallstrm; Carlos Ferreira; Chiara Fenoglio; Nick Fox; Morris Freedman; Giorgio Fumagalli; Stefano Gazzina; Roberta Ghidoni; Marina Grisoli; Vesna Jelic; Lize Jiskoot; Ron Keren; Gemma Lombardi; Carolina Maruta; Lieke Meeter; Rick van Minkelen; Benedetta Nacmias; Linn ijerstedt; Alessandro Padovani; Jessica Panman; Michela Pievani; Cristina Polito; Enrico Premi; Sara Prioni; Rosa Rademakers; Veronica Redaelli; Ekaterina Rogaeva; Giacomina Rossi; Martin Rossor; Elio Scarpini; David Tang-Wai; Hakan Thonberg; Pietro Tiraboschi; Ana Verdelho; Jason Warren

doi:10.1016/j.neuroimage.2018.11.063

Spatiotemporal analysis for detection of pre-symptomatic shape changes in neurodegenerative diseases: Initial application to the GENFI cohort

Claire Cury, Stanley Durrleman, David M. Cash, Marco Lorenzi, Jennifer M. Nicholas, Martina Bocchetta, John C. van Swieten, Barbara Borroni, Daniela Galimberti, Mario Masellis, Carmela Tartaglia, James B. Rowe, Caroline Graff, Fabrizio Tagliavini, Giovanni B. Frisoni, Robert Laforce, Elizabeth Finger, Alexandre de Mendonça, Sandro Sorbi, Sebastien OurselinJonathan D. Rohrer, Marc Modat, Christin Andersson, Silvana Archetti, Andrea Arighi, Luisa Benussi, Sandra Black, Maura Cosseddu, Marie Fallstrm, Carlos Ferreira, Chiara Fenoglio, Nick Fox, Morris Freedman, Giorgio Fumagalli, Stefano Gazzina, Roberta Ghidoni, Marina Grisoli, Vesna Jelic, Lize Jiskoot, Ron Keren, Gemma Lombardi, Carolina Maruta, Lieke Meeter, Rick van Minkelen, Benedetta Nacmias, Linn ijerstedt, Alessandro Padovani, Jessica Panman, Michela Pievani, Cristina Polito, Enrico Premi, Sara Prioni, Rosa Rademakers, Veronica Redaelli, Ekaterina Rogaeva, Giacomina Rossi, Martin Rossor, Elio Scarpini, David Tang-Wai, Hakan Thonberg, Pietro Tiraboschi, Ana Verdelho, Jason Warren

Neuroscience

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

7 Scopus citations

Abstract

Brain atrophy as measured from structural MR images, is one of the primary imaging biomarkers used to track neurodegenerative disease progression. In diseases such as frontotemporal dementia or Alzheimer's disease, atrophy can be observed in key brain structures years before any clinical symptoms are present. Atrophy is most commonly captured as volume change of key structures and the shape changes of these structures are typically not analysed despite being potentially more sensitive than summary volume statistics over the entire structure. In this paper we propose a spatiotemporal analysis pipeline based on Large Diffeomorphic Deformation Metric Mapping (LDDMM) to detect shape changes from volumetric MRI scans. We applied our framework to a cohort of individuals with genetic variants of frontotemporal dementia and healthy controls from the Genetic FTD Initiative (GENFI) study. Our method, take full advantage of the LDDMM framework, and relies on the creation of a population specific average spatiotemporal trajectory of a relevant brain structure of interest, the thalamus in our case. The residuals from each patient data to the average spatiotemporal trajectory are then clustered and studied to assess when presymptomatic mutation carriers differ from healthy control subjects. We found statistical differences in shape in the anterior region of the thalamus at least five years before the mutation carrier subjects develop any clinical symptoms. This region of the thalamus has been shown to be predominantly connected to the frontal lobe, consistent with the pattern of cortical atrophy seen in the disease.

Original language	English (US)
Pages (from-to)	282-290
Number of pages	9
Journal	NeuroImage
Volume	188
DOIs	https://doi.org/10.1016/j.neuroimage.2018.11.063
State	Published - Mar 1 2019

Keywords

Clustering
Computational anatomy
Parallel transport
Shape analysis
Spatiotemporal geodesic regression
Thalamus

ASJC Scopus subject areas

Neurology
Cognitive Neuroscience

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10.1016/j.neuroimage.2018.11.063

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Cury, C., Durrleman, S., Cash, D. M., Lorenzi, M., Nicholas, J. M., Bocchetta, M., van Swieten, J. C., Borroni, B., Galimberti, D., Masellis, M., Tartaglia, C., Rowe, J. B., Graff, C., Tagliavini, F., Frisoni, G. B., Laforce, R., Finger, E., de Mendonça, A., Sorbi, S., ... Warren, J. (2019). Spatiotemporal analysis for detection of pre-symptomatic shape changes in neurodegenerative diseases: Initial application to the GENFI cohort. NeuroImage, 188, 282-290. https://doi.org/10.1016/j.neuroimage.2018.11.063

Cury, C, Durrleman, S, Cash, DM, Lorenzi, M, Nicholas, JM, Bocchetta, M, van Swieten, JC, Borroni, B, Galimberti, D, Masellis, M, Tartaglia, C, Rowe, JB, Graff, C, Tagliavini, F, Frisoni, GB, Laforce, R, Finger, E, de Mendonça, A, Sorbi, S, Ourselin, S, Rohrer, JD, Modat, M, Andersson, C, Archetti, S, Arighi, A, Benussi, L, Black, S, Cosseddu, M, Fallstrm, M, Ferreira, C, Fenoglio, C, Fox, N, Freedman, M, Fumagalli, G, Gazzina, S, Ghidoni, R, Grisoli, M, Jelic, V, Jiskoot, L, Keren, R, Lombardi, G, Maruta, C, Meeter, L, van Minkelen, R, Nacmias, B, ijerstedt, L, Padovani, A, Panman, J, Pievani, M, Polito, C, Premi, E, Prioni, S, Rademakers, R, Redaelli, V, Rogaeva, E, Rossi, G, Rossor, M, Scarpini, E, Tang-Wai, D, Thonberg, H, Tiraboschi, P, Verdelho, A & Warren, J 2019, 'Spatiotemporal analysis for detection of pre-symptomatic shape changes in neurodegenerative diseases: Initial application to the GENFI cohort', NeuroImage, vol. 188, pp. 282-290. https://doi.org/10.1016/j.neuroimage.2018.11.063

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title = "Spatiotemporal analysis for detection of pre-symptomatic shape changes in neurodegenerative diseases: Initial application to the GENFI cohort",

abstract = "Brain atrophy as measured from structural MR images, is one of the primary imaging biomarkers used to track neurodegenerative disease progression. In diseases such as frontotemporal dementia or Alzheimer's disease, atrophy can be observed in key brain structures years before any clinical symptoms are present. Atrophy is most commonly captured as volume change of key structures and the shape changes of these structures are typically not analysed despite being potentially more sensitive than summary volume statistics over the entire structure. In this paper we propose a spatiotemporal analysis pipeline based on Large Diffeomorphic Deformation Metric Mapping (LDDMM) to detect shape changes from volumetric MRI scans. We applied our framework to a cohort of individuals with genetic variants of frontotemporal dementia and healthy controls from the Genetic FTD Initiative (GENFI) study. Our method, take full advantage of the LDDMM framework, and relies on the creation of a population specific average spatiotemporal trajectory of a relevant brain structure of interest, the thalamus in our case. The residuals from each patient data to the average spatiotemporal trajectory are then clustered and studied to assess when presymptomatic mutation carriers differ from healthy control subjects. We found statistical differences in shape in the anterior region of the thalamus at least five years before the mutation carrier subjects develop any clinical symptoms. This region of the thalamus has been shown to be predominantly connected to the frontal lobe, consistent with the pattern of cortical atrophy seen in the disease.",

keywords = "Clustering, Computational anatomy, Parallel transport, Shape analysis, Spatiotemporal geodesic regression, Thalamus",

author = "Claire Cury and Stanley Durrleman and Cash, {David M.} and Marco Lorenzi and Nicholas, {Jennifer M.} and Martina Bocchetta and {van Swieten}, {John C.} and Barbara Borroni and Daniela Galimberti and Mario Masellis and Carmela Tartaglia and Rowe, {James B.} and Caroline Graff and Fabrizio Tagliavini and Frisoni, {Giovanni B.} and Robert Laforce and Elizabeth Finger and {de Mendon{\c c}a}, Alexandre and Sandro Sorbi and Sebastien Ourselin and Rohrer, {Jonathan D.} and Marc Modat and Christin Andersson and Silvana Archetti and Andrea Arighi and Luisa Benussi and Sandra Black and Maura Cosseddu and Marie Fallstrm and Carlos Ferreira and Chiara Fenoglio and Nick Fox and Morris Freedman and Giorgio Fumagalli and Stefano Gazzina and Roberta Ghidoni and Marina Grisoli and Vesna Jelic and Lize Jiskoot and Ron Keren and Gemma Lombardi and Carolina Maruta and Lieke Meeter and {van Minkelen}, Rick and Benedetta Nacmias and Linn ijerstedt and Alessandro Padovani and Jessica Panman and Michela Pievani and Cristina Polito and Enrico Premi and Sara Prioni and Rosa Rademakers and Veronica Redaelli and Ekaterina Rogaeva and Giacomina Rossi and Martin Rossor and Elio Scarpini and David Tang-Wai and Hakan Thonberg and Pietro Tiraboschi and Ana Verdelho and Jason Warren",

note = "Publisher Copyright: {\textcopyright} 2018 The Authors",

year = "2019",

month = mar,

day = "1",

doi = "10.1016/j.neuroimage.2018.11.063",

language = "English (US)",

volume = "188",

pages = "282--290",

journal = "NeuroImage",

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TY - JOUR

T1 - Spatiotemporal analysis for detection of pre-symptomatic shape changes in neurodegenerative diseases

T2 - Initial application to the GENFI cohort

AU - Cury, Claire

AU - Durrleman, Stanley

AU - Cash, David M.

AU - Lorenzi, Marco

AU - Nicholas, Jennifer M.

AU - Bocchetta, Martina

AU - van Swieten, John C.

AU - Borroni, Barbara

AU - Galimberti, Daniela

AU - Masellis, Mario

AU - Tartaglia, Carmela

AU - Rowe, James B.

AU - Graff, Caroline

AU - Tagliavini, Fabrizio

AU - Frisoni, Giovanni B.

AU - Laforce, Robert

AU - Finger, Elizabeth

AU - de Mendonça, Alexandre

AU - Sorbi, Sandro

AU - Ourselin, Sebastien

AU - Rohrer, Jonathan D.

AU - Modat, Marc

AU - Andersson, Christin

AU - Archetti, Silvana

AU - Arighi, Andrea

AU - Benussi, Luisa

AU - Black, Sandra

AU - Cosseddu, Maura

AU - Fallstrm, Marie

AU - Ferreira, Carlos

AU - Fenoglio, Chiara

AU - Fox, Nick

AU - Freedman, Morris

AU - Fumagalli, Giorgio

AU - Gazzina, Stefano

AU - Ghidoni, Roberta

AU - Grisoli, Marina

AU - Jelic, Vesna

AU - Jiskoot, Lize

AU - Keren, Ron

AU - Lombardi, Gemma

AU - Maruta, Carolina

AU - Meeter, Lieke

AU - van Minkelen, Rick

AU - Nacmias, Benedetta

AU - ijerstedt, Linn

AU - Padovani, Alessandro

AU - Panman, Jessica

AU - Pievani, Michela

AU - Polito, Cristina

AU - Premi, Enrico

AU - Prioni, Sara

AU - Rademakers, Rosa

AU - Redaelli, Veronica

AU - Rogaeva, Ekaterina

AU - Rossi, Giacomina

AU - Rossor, Martin

AU - Scarpini, Elio

AU - Tang-Wai, David

AU - Thonberg, Hakan

AU - Tiraboschi, Pietro

AU - Verdelho, Ana

AU - Warren, Jason

PY - 2019/3/1

Y1 - 2019/3/1

N2 - Brain atrophy as measured from structural MR images, is one of the primary imaging biomarkers used to track neurodegenerative disease progression. In diseases such as frontotemporal dementia or Alzheimer's disease, atrophy can be observed in key brain structures years before any clinical symptoms are present. Atrophy is most commonly captured as volume change of key structures and the shape changes of these structures are typically not analysed despite being potentially more sensitive than summary volume statistics over the entire structure. In this paper we propose a spatiotemporal analysis pipeline based on Large Diffeomorphic Deformation Metric Mapping (LDDMM) to detect shape changes from volumetric MRI scans. We applied our framework to a cohort of individuals with genetic variants of frontotemporal dementia and healthy controls from the Genetic FTD Initiative (GENFI) study. Our method, take full advantage of the LDDMM framework, and relies on the creation of a population specific average spatiotemporal trajectory of a relevant brain structure of interest, the thalamus in our case. The residuals from each patient data to the average spatiotemporal trajectory are then clustered and studied to assess when presymptomatic mutation carriers differ from healthy control subjects. We found statistical differences in shape in the anterior region of the thalamus at least five years before the mutation carrier subjects develop any clinical symptoms. This region of the thalamus has been shown to be predominantly connected to the frontal lobe, consistent with the pattern of cortical atrophy seen in the disease.

AB - Brain atrophy as measured from structural MR images, is one of the primary imaging biomarkers used to track neurodegenerative disease progression. In diseases such as frontotemporal dementia or Alzheimer's disease, atrophy can be observed in key brain structures years before any clinical symptoms are present. Atrophy is most commonly captured as volume change of key structures and the shape changes of these structures are typically not analysed despite being potentially more sensitive than summary volume statistics over the entire structure. In this paper we propose a spatiotemporal analysis pipeline based on Large Diffeomorphic Deformation Metric Mapping (LDDMM) to detect shape changes from volumetric MRI scans. We applied our framework to a cohort of individuals with genetic variants of frontotemporal dementia and healthy controls from the Genetic FTD Initiative (GENFI) study. Our method, take full advantage of the LDDMM framework, and relies on the creation of a population specific average spatiotemporal trajectory of a relevant brain structure of interest, the thalamus in our case. The residuals from each patient data to the average spatiotemporal trajectory are then clustered and studied to assess when presymptomatic mutation carriers differ from healthy control subjects. We found statistical differences in shape in the anterior region of the thalamus at least five years before the mutation carrier subjects develop any clinical symptoms. This region of the thalamus has been shown to be predominantly connected to the frontal lobe, consistent with the pattern of cortical atrophy seen in the disease.

KW - Clustering

KW - Computational anatomy

KW - Parallel transport

KW - Shape analysis

KW - Spatiotemporal geodesic regression

KW - Thalamus

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DO - 10.1016/j.neuroimage.2018.11.063

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JF - NeuroImage

ER -

Spatiotemporal analysis for detection of pre-symptomatic shape changes in neurodegenerative diseases: Initial application to the GENFI cohort

Abstract

Keywords

ASJC Scopus subject areas

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