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

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, M.C.; Rowe, J.B.; Graff, C.; Tagliavini, F.; Frisoni, G.B.; Laforce, R.; Finger, E.; de Mendonça, A.; Sorbi, S.; Ourselin, S.; Rohrer, J.D.; 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.; Tartaglia, C.; Thonberg, H.; Tiraboschi, P.; Verdelho, A.; Warren, J.

doi:10.1016/j.neuroimage.2018.11.063

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.

Spatiotemporal analysis for detection of pre-symptomatic shape changes in neurodegenerative diseases : initial application to the GENFI cohort / C. Cury, S. Durrleman, D.M. Cash, M. Lorenzi, J.M. Nicholas, M. Bocchetta, J.C. van Swieten, B. Borroni, D. Galimberti, M. Masellis, M.C. Tartaglia, J.B. Rowe, C. Graff, F. Tagliavini, G.B. Frisoni, R. Laforce, E. Finger, A. de Mendonça, S. Sorbi, S. Ourselin, J.D. Rohrer, M. Modat, C. Andersson, S. Archetti, A. Arighi, L. Benussi, S. Black, M. Cosseddu, M. Fallstrm, C. Ferreira, C. Fenoglio, N. Fox, M. Freedman, G. Fumagalli, S. Gazzina, R. Ghidoni, M. Grisoli, V. Jelic, L. Jiskoot, R. Keren, G. Lombardi, C. Maruta, L. Meeter, R. van Minkelen, B. Nacmias, L. Ijerstedt, A. Padovani, J. Panman, M. Pievani, C. Polito, E. Premi, S. Prioni, R. Rademakers, V. Redaelli, E. Rogaeva, G. Rossi, M. Rossor, E. Scarpini, D. Tang-Wai, C. Tartaglia, H. Thonberg, P. Tiraboschi, A. Verdelho, J. Warren. - In: NEUROIMAGE. - ISSN 1053-8119. - 188(2019), pp. 282-290. [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

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

2019

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.

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	Parole chiave
	
			Clustering; Computational anatomy; Parallel transport; Shape analysis; Spatiotemporal geodesic regression; Thalamus; Neurology; Cognitive Neuroscience
		
	Settori scientifico-disciplinari dell'articolo
	
			Settore BIO/13 - Biologia Applicata
Settore MED/26 - Neurologia
		
	Data di pubblicazione
	
			2019
		
	Rivista in ANCE
	
			NEUROIMAGE
		
	DOI
	
			https://dx.doi.org/10.1016/j.neuroimage.2018.11.063
		
	Tipologia
	
			Article (author)
		
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			01 - Articolo su periodico

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