Background: Reduced empathy is a common symptom in frontotemporal dementia (FTD). Although empathy deficits have been extensively researched in sporadic cases, few studies have explored the differences in familial forms of FTD. Methods: Empathy was examined using a modified version of the Interpersonal Reactivity Index (mIRI) in 676 participants from the Genetic FTD Initiative: 216 mutation-negative controls, 192 C9orf72 expansion carriers, 193 GRN mutation carriers and 75 MAPT mutation carriers. Using global scores from the CDR® plus NACC FTLD, mutation carriers were divided into three groups, asymptomatic (0), very mildly symptomatic/prodromal (.5), or fully symptomatic (1 or more). The mIRI Total score, as well as the subscores of Empathic Concern (EC) and Perspective Taking (PT) were assessed. Linear regression models with bootstrapping were used to assess empathy ratings across genetic groups, as well as across phenotypes in the symptomatic carriers. Neural correlates of empathy deficits were examined using a voxel-based morphometry (VBM) analysis. Results: All fully symptomatic groups scored lower on the mIRI Total, EC, and PT when compared to controls and their asymptomatic or prodromal counterparts (all p <.001). Prodromal C9orf72 expansion carriers also scored significantly lower than controls on the mIRI Total score (p =.046). In the phenotype analysis, all groups (behavioural variant FTD, primary progressive aphasia and FTD with amyotrophic lateral sclerosis) scored significantly lower than controls (all p <.007). VBM revealed an overlapping neural correlate of the mIRI Total score across genetic groups in the orbitofrontal lobe but with additional involvement in the temporal lobe, insula and basal ganglia in both the GRN and MAPT groups, and uniquely more posterior regions such as the parietal lobe and thalamus in the GRN group, and medial temporal structures in the MAPT group. Conclusions: Significant empathy deficits present in genetic FTD, particularly in symptomatic individuals and those with a bvFTD phenotype, while prodromal deficits are only seen using the mIRI in C9orf72 expansion carriers.

Examining empathy deficits across familial forms of frontotemporal dementia within the GENFI cohort / Foster, P. H.; Russell, L. L.; Peakman, G.; Convery, R. S.; Bouzigues, A.; Greaves, C. V.; Bocchetta, M.; Cash, D. M.; van Swieten, J. C.; Jiskoot, L. C.; Moreno, F.; Sanchez-Valle, R.; Laforce, R.; Graff, C.; Masellis, M.; Tartaglia, C.; Rowe, J. B.; Borroni, B.; Finger, E.; Synofzik, M.; Galimberti, D.; Vandenberghe, R.; de Mendonca, A.; Butler, C. R.; Gerhard, A.; Ducharme, S.; Le Ber, I.; Tagliavini, F.; Santana, I.; Pasquier, F.; Levin, J.; Danek, A.; Otto, M.; Sorbi, S.; Rohrer, J. D.; Afonso, S.; Almeida, M. R.; Anderl-Straub, S.; Andersson, C.; Antonell, A.; Archetti, S.; Arighi, A.; Balasa, M.; Barandiaran, M.; Bargallo, N.; Bartha, R.; Bender, B.; Benussi, A.; Bertoux, M.; Bertrand, A.; Bessi, V.; Black, S.; Borrego-Ecija, S.; Bras, J.; Brice, A.; Bruffaerts, R.; Camuzat, A.; Canada, M.; Cantoni, V.; Caroppo, P.; Cash, D.; Castelo-Branco, M.; Colliot, O.; Cope, T.; Deramecourt, V.; de Arriba, M.; Di Fede, G.; Diez, A.; Duro, D.; Fenoglio, C.; Ferrari, C.; Ferreira, C. B.; Fox, N.; Freedman, M.; Fumagalli, G.; Funkiewiez, A.; Gabilondo, A.; Gasparotti, R.; Gauthier, S.; Gazzina, S.; Giaccone, G.; Gorostidi, A.; Greaves, C.; Guerreiro, R.; Heller, C.; Hoegen, T.; Indakoetxea, B.; Jelic, V.; Karnath, H. -O.; Keren, R.; Kuchcinski, G.; Langheinrich, T.; Lebouvier, T.; Leitao, M. J.; Llado, A.; Lombardi, G.; Loosli, S.; Maruta, C.; Mead, S.; Meeter, L.; Miltenberger, G.; van Minkelen, R.; Mitchell, S.; Moore, K.; Nacmias, B.; Nelson, A.; Oijerstedt, L.; Olives, J.; Ourselin, S.; Padovani, A.; Panman, J.; Papma, J. M.; Pijnenburg, Y.; Polito, C.; Premi, E.; Prioni, S.; Prix, C.; Rademakers, R.; Redaelli, V.; Rinaldi, D.; Rittman, T.; Rogaeva, E.; Rollin, A.; Rosa-Neto, P.; Rossi, G.; Rossor, M.; Santiago, B.; Saracino, D.; Sayah, S.; Scarpini, E.; Schonecker, S.; Seelaar, H.; Semler, E.; Shafei, R.; Shoesmith, C.; Swift, I.; Tabuas-Pereira, M.; Tainta, M.; Taipa, R.; Tang-Wai, D.; Thomas, D. L.; Thompson, P.; Thonberg, H.; Timberlake, C.; Tiraboschi, P.; Todd, E.; Van Damme, P.; Vandenbulcke, M.; Veldsman, M.; Verdelho, A.; Villanua, J.; Warren, J.; Wilke, C.; Woollacott, I.; Wlasich, E.; Zetterberg, H.; Zulaica, M.. - In: CORTEX. - ISSN 0010-9452. - 150:(2022), pp. 12-28. [10.1016/j.cortex.2022.01.012]

Examining empathy deficits across familial forms of frontotemporal dementia within the GENFI cohort

Fumagalli G.;
2022-01-01

Abstract

Background: Reduced empathy is a common symptom in frontotemporal dementia (FTD). Although empathy deficits have been extensively researched in sporadic cases, few studies have explored the differences in familial forms of FTD. Methods: Empathy was examined using a modified version of the Interpersonal Reactivity Index (mIRI) in 676 participants from the Genetic FTD Initiative: 216 mutation-negative controls, 192 C9orf72 expansion carriers, 193 GRN mutation carriers and 75 MAPT mutation carriers. Using global scores from the CDR® plus NACC FTLD, mutation carriers were divided into three groups, asymptomatic (0), very mildly symptomatic/prodromal (.5), or fully symptomatic (1 or more). The mIRI Total score, as well as the subscores of Empathic Concern (EC) and Perspective Taking (PT) were assessed. Linear regression models with bootstrapping were used to assess empathy ratings across genetic groups, as well as across phenotypes in the symptomatic carriers. Neural correlates of empathy deficits were examined using a voxel-based morphometry (VBM) analysis. Results: All fully symptomatic groups scored lower on the mIRI Total, EC, and PT when compared to controls and their asymptomatic or prodromal counterparts (all p <.001). Prodromal C9orf72 expansion carriers also scored significantly lower than controls on the mIRI Total score (p =.046). In the phenotype analysis, all groups (behavioural variant FTD, primary progressive aphasia and FTD with amyotrophic lateral sclerosis) scored significantly lower than controls (all p <.007). VBM revealed an overlapping neural correlate of the mIRI Total score across genetic groups in the orbitofrontal lobe but with additional involvement in the temporal lobe, insula and basal ganglia in both the GRN and MAPT groups, and uniquely more posterior regions such as the parietal lobe and thalamus in the GRN group, and medial temporal structures in the MAPT group. Conclusions: Significant empathy deficits present in genetic FTD, particularly in symptomatic individuals and those with a bvFTD phenotype, while prodromal deficits are only seen using the mIRI in C9orf72 expansion carriers.
2022
Foster, P. H.; Russell, L. L.; Peakman, G.; Convery, R. S.; Bouzigues, A.; Greaves, C. V.; Bocchetta, M.; Cash, D. M.; van Swieten, J. C.; Jiskoot, L....espandi
Examining empathy deficits across familial forms of frontotemporal dementia within the GENFI cohort / Foster, P. H.; Russell, L. L.; Peakman, G.; Convery, R. S.; Bouzigues, A.; Greaves, C. V.; Bocchetta, M.; Cash, D. M.; van Swieten, J. C.; Jiskoot, L. C.; Moreno, F.; Sanchez-Valle, R.; Laforce, R.; Graff, C.; Masellis, M.; Tartaglia, C.; Rowe, J. B.; Borroni, B.; Finger, E.; Synofzik, M.; Galimberti, D.; Vandenberghe, R.; de Mendonca, A.; Butler, C. R.; Gerhard, A.; Ducharme, S.; Le Ber, I.; Tagliavini, F.; Santana, I.; Pasquier, F.; Levin, J.; Danek, A.; Otto, M.; Sorbi, S.; Rohrer, J. D.; Afonso, S.; Almeida, M. R.; Anderl-Straub, S.; Andersson, C.; Antonell, A.; Archetti, S.; Arighi, A.; Balasa, M.; Barandiaran, M.; Bargallo, N.; Bartha, R.; Bender, B.; Benussi, A.; Bertoux, M.; Bertrand, A.; Bessi, V.; Black, S.; Borrego-Ecija, S.; Bras, J.; Brice, A.; Bruffaerts, R.; Camuzat, A.; Canada, M.; Cantoni, V.; Caroppo, P.; Cash, D.; Castelo-Branco, M.; Colliot, O.; Cope, T.; Deramecourt, V.; de Arriba, M.; Di Fede, G.; Diez, A.; Duro, D.; Fenoglio, C.; Ferrari, C.; Ferreira, C. B.; Fox, N.; Freedman, M.; Fumagalli, G.; Funkiewiez, A.; Gabilondo, A.; Gasparotti, R.; Gauthier, S.; Gazzina, S.; Giaccone, G.; Gorostidi, A.; Greaves, C.; Guerreiro, R.; Heller, C.; Hoegen, T.; Indakoetxea, B.; Jelic, V.; Karnath, H. -O.; Keren, R.; Kuchcinski, G.; Langheinrich, T.; Lebouvier, T.; Leitao, M. J.; Llado, A.; Lombardi, G.; Loosli, S.; Maruta, C.; Mead, S.; Meeter, L.; Miltenberger, G.; van Minkelen, R.; Mitchell, S.; Moore, K.; Nacmias, B.; Nelson, A.; Oijerstedt, L.; Olives, J.; Ourselin, S.; Padovani, A.; Panman, J.; Papma, J. M.; Pijnenburg, Y.; Polito, C.; Premi, E.; Prioni, S.; Prix, C.; Rademakers, R.; Redaelli, V.; Rinaldi, D.; Rittman, T.; Rogaeva, E.; Rollin, A.; Rosa-Neto, P.; Rossi, G.; Rossor, M.; Santiago, B.; Saracino, D.; Sayah, S.; Scarpini, E.; Schonecker, S.; Seelaar, H.; Semler, E.; Shafei, R.; Shoesmith, C.; Swift, I.; Tabuas-Pereira, M.; Tainta, M.; Taipa, R.; Tang-Wai, D.; Thomas, D. L.; Thompson, P.; Thonberg, H.; Timberlake, C.; Tiraboschi, P.; Todd, E.; Van Damme, P.; Vandenbulcke, M.; Veldsman, M.; Verdelho, A.; Villanua, J.; Warren, J.; Wilke, C.; Woollacott, I.; Wlasich, E.; Zetterberg, H.; Zulaica, M.. - In: CORTEX. - ISSN 0010-9452. - 150:(2022), pp. 12-28. [10.1016/j.cortex.2022.01.012]
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