Your search keyword '"Vandenbulcke, M"' showing total 360 results

1. PRECISION: the Belgian molecular profiling program of metastatic cancer for clinical decision and treatment assignment

Author

Thouvenin, J., Van Marcke, C., Decoster, L., Raicevic, G., Punie, K., Vandenbulcke, M., Salgado, R., Van Valckenborgh, E., Maes, B., Joris, S., Steichel, D. Vander, Vranken, K., Jacobs, S., Dedeurwaerdere, F., Martens, G., Devos, H., Duhoux, F.P., Rasschaert, M., Pauwels, P., Geboes, K., Collignon, J., Tejpar, S., Canon, J.-L., Peeters, M., Rutten, A., Van de Mooter, T., Vermeij, J., Schrijvers, D., Demey, W., Lybaert, W., Van Huysse, J., Mebis, J., Awada, A., Claes, K.B.M., Hebrant, A., Van der Meulen, J., Delafontaine, B., Bempt, I. Vanden, Maetens, J., de Hemptinne, M., Rottey, S., Aftimos, P., and De Grève, J.

Published

2022

2. A longitudinal study of the association between basal ganglia volumes and psychomotor symptoms in subjects with late life depression undergoing ECT

Author

Van Cauwenberge, M. G. A., Bouckaert, F., Vansteelandt, K., Adamson, C., De Winter, F. L., Sienaert, P., Van den Stock, J., Dols, A., Rhebergen, D., Stek, M. L., Emsell, L., and Vandenbulcke, M.

Published

2021

3. Cerebellar and subcortical atrophy contribute to psychiatric symptoms in frontotemporal dementia

Author

Bussy, A., Levy, J., Best, T., Patel, R., Cupo, L., Van Langenhove, T., Nielsen, J., Pijnenburg, Y., Waldö, M., Remes, A., Schroeter, M., Santana, I., Pasquier, F., Otto, M., Danek, A., Levin, J., Le Ber, I., Vandenberghe, R., Synofzik, M., Moreno, F., de Mendonça, A., Sanchez‐Valle, R., Laforce, R., Langheinrich, T., Gerhard, A., Graff, C., Butler, C., Sorbi, S., Jiskoot, L., Seelaar, H., van Swieten, J., Finger, E., Tartaglia, M., Masellis, M., Tiraboschi, P., Galimberti, D., Borroni, B., Rowe, J., Bocchetta, M., Rohrer, J., Devenyi, G., Chakravarty, M., Ducharme, S., Esteve, A., Nelson, A., Bouzigues, A., Heller, C., Greaves, C., Cash, D., Thomas, D., Todd, E., Benotmane, H., Zetterberg, H., Swift, I., Nicholas, J., Samra, K., Russell, L., Shafei, R., Convery, R., Timberlake, C., Cope, T., Rittman, T., Benussi, A., Premi, E., Gasparotti, R., Archetti, S., Gazzina, S., Cantoni, V., Arighi, A., Fenoglio, C., Scarpini, E., Fumagalli, G., Borracci, V., Rossi, G., Giaccone, G., Di Fede, G., Caroppo, P., Prioni, S., Redaelli, V., Tang‐Wai, D., Rogaeva, E., Castelo‐Branco, M., Freedman, M., Keren, R., Black, S., Mitchell, S., Shoesmith, C., Bartha, R., Rademakers, R., Poos, J., Papma, J., Giannini, L., van Minkelen, R., Nacmias, B., Ferrari, C., Polito, C., Lombardi, G., Bessi, V., Veldsman, M., Andersson, C., Thonberg, H., Öijerstedt, L., Jelic, V., Thompson, P., Lladó, A., Antonell, A., Olives, J., Balasa, M., Bargalló, N., Borrego‐Ecija, S., Verdelho, A., Maruta, C., Ferreira, C., Miltenberger, G., do Couto, F., Gabilondo, A., Gorostidi, A., Villanua, J., Cañada, M., Tainta, M., Zulaica, M., Barandiaran, M., Alves, P., Bender, B., Wilke, C., Graf, L., Vogels, A., Vandenbulcke, M., Van Damme, P., Bruffaerts, R., Poesen, K., Rosa‐Neto, P., Gauthier, S., Camuzat, A., Brice, A., Bertrand, A., Funkiewiez, A., Rinaldi, D., Saracino, D., Colliot, O., Sayah, S., Prix, C., Wlasich, E., Wagemann, O., Loosli, S., Schönecker, S., Hoegen, T., Lombardi, J., Anderl‐Straub, S., Rollin, A., Kuchcinski, G., Bertoux, M., Lebouvier, T., Deramecourt, V., Santiago, B., Duro, D., Leitão, M., Almeida, M., Tábuas‐Pereira, M., Afonso, S., Engel, A., Polyakova, M., Erasmus MC other, Neurology, Radiology & Nuclear Medicine, Clinical Genetics, GENetic Frontotemporal dementia Initiative (GENFI), Lombardi, Gemma, Bessi, Valentina, Veldsman, Michele, Andersson, Christin, Thonberg, Hakan, Öijerstedt, Linn, Jelic, Vesna, Thompson, Paul, Langheinrich, Tobias, Lladó, Albert, Antonell, Anna, Olives, Jaume, Balasa, Mircea, Bargalló, Nuria, Borrego-Ecija, Sergi, Verdelho, Ana, Maruta, Carolina, Ferreira, Catarina B, Miltenberger, Gabriel, do Couto, Frederico Simões, Gabilondo, Alazne, Gorostidi, Ana, Villanua, Jorge, Cañada, Marta, Tainta, Mikel, Zulaica, Miren, Barandiaran, Myriam, Alves, Patricia, Bender, Benjamin, Wilke, Carlo, Graf, Lisa, Vogels, Annick, Vandenbulcke, Mathieu, Van Damme, Philip, Bruffaerts, Rose, Poesen, Koen, Rosa-Neto, Pedro, Gauthier, Serge, Camuzat, Agnès, Brice, Alexis, Bertrand, Anne, Funkiewiez, Aurélie, Rinaldi, Daisy, Saracino, Dario, Colliot, Olivier, Sayah, Sabrina, Prix, Catharina, Wlasich, Elisabeth, Wagemann, Olivia, Loosli, Sandra, Schönecker, Sonja, Hoegen, Tobias, Lombardi, Jolina, Anderl-Straub, Sarah, Rollin, Adeline, Kuchcinski, Gregory, Bertoux, Maxime, Lebouvier, Thibaud, Deramecourt, Vincent, Santiago, Beatriz, Duro, Diana, Leitão, Maria João, Almeida, Maria Rosario, Tábuas-Pereira, Miguel, Afonso, Sónia, Engel, Annerose, Polyakova, Maryna, Esteve, Aitana Sogorb, Nelson, Annabel, Bouzigues, Arabella, Heller, Carolin, Greaves, Caroline V, Cash, David, Thomas, David L, Todd, Emily, Benotmane, Hanya, Zetterberg, Henrik, Swift, Imogen J, Nicholas, Jennifer, Samra, Kiran, Russell, Lucy L, Bocchetta, Martina, Shafei, Rachelle, Convery, Rhian S, Timberlake, Carolyn, Cope, Thomas, Rittman, Timothy, Benussi, Alberto, Premi, Enrico, Gasparotti, Roberto, Archetti, Silvana, Gazzina, Stefano, Cantoni, Valentina, Arighi, Andrea, Fenoglio, Chiara, Scarpini, Elio, Fumagalli, Giorgio, Borracci, Vittoria, Rossi, Giacomina, Giaccone, Giorgio, Di Fede, Giuseppe, Caroppo, Paola, Tiraboschi, Pietro, Prioni, Sara, Redaelli, Veronica, Tang-Wai, David, Rogaeva, Ekaterina, Castelo-Branco, Miguel, Freedman, Morris, Keren, Ron, Black, Sandra, Mitchell, Sara, Shoesmith, Christen, Bartha, Robart, Rademakers, Rosa, Poos, Jackie, Papma, Janne M, Giannini, Lucia, van Minkelen, Rick, Pijnenburg, Yolande, Nacmias, Benedetta, Ferrari, Camilla, Polito, Cristina, Bussy, Aurélie [0000-0001-6695-9941], Nielsen, Jørgen E [0000-0003-0453-5582], Borroni, Barbara [0000-0001-9340-9814], Bocchetta, Martina [0000-0003-1814-5024], Devenyi, Gabriel A [0000-0002-7766-1187], Apollo - University of Cambridge Repository, and Amsterdam Neuroscience - Neurodegeneration

Subjects

C9orf72 Protein, Radiological and Ultrasound Technology, Medizin, frontotemporal dementia, Neurology, Frontotemporal Dementia, Cerebellum, Humans, magnetic resonance imaging, genetics, neuropsychiatry, Radiology, Nuclear Medicine and imaging, Human medicine, ddc:610, Neurology (clinical), Atrophy, Anatomy, genetics [Frontotemporal Dementia], genetics [C9orf72 Protein]

Abstract

Funder: Alzheimer Society of Canada; Id: http://dx.doi.org/10.13039/501100000143, Funder: Weston Brain Institute; Id: http://dx.doi.org/10.13039/100012479, Funder: Fonds de Recherche du Québec ‐ Santé, Funder: Canadian Institutes of Health Research; Id: http://dx.doi.org/10.13039/501100000024, Funder: NIHR Rare Diseases Translational Research Collaboration, Funder: Deutsche Forschungsgemeinschaft; Id: http://dx.doi.org/10.13039/501100001659, Recent studies have reported early cerebellar and subcortical impact in the disease progression of genetic frontotemporal dementia (FTD) due to microtubule-associated protein tau (MAPT), progranulin (GRN) and chromosome 9 open reading frame 72 (C9orf72). However, the cerebello-subcortical circuitry in FTD has been understudied despite its essential role in cognition and behaviors related to FTD symptomatology. The present study aims to investigate the association between cerebellar and subcortical atrophy, and neuropsychiatric symptoms across genetic mutations. Our study included 983 participants from the Genetic Frontotemporal dementia Initiative including mutation carriers and noncarrier first-degree relatives of known symptomatic carriers. Voxel-wise analysis of the thalamus, striatum, globus pallidus, amygdala, and the cerebellum was performed, and partial least squares analyses (PLS) were used to link morphometry and behavior. In presymptomatic C9orf72 expansion carriers, thalamic atrophy was found compared to noncarriers, suggesting the importance of this structure in FTD prodromes. PLS analyses demonstrated that the cerebello-subcortical circuitry is related to neuropsychiatric symptoms, with significant overlap in brain/behavior patterns, but also specificity for each genetic mutation group. The largest differences were in the cerebellar atrophy (larger extent in C9orf72 expansion group) and more prominent amygdalar volume reduction in the MAPT group. Brain scores in the C9orf72 expansion carriers and MAPT carriers demonstrated covariation patterns concordant with atrophy patterns detectable up to 20 years before expected symptom onset. Overall, these results demonstrated the important role of the subcortical structures in genetic FTD symptom expression, particularly the cerebellum in C9orf72 and the amygdala in MAPT carriers.

Published

2023

4. Motor symptoms in genetic frontotemporal dementia: developing a new module for clinical rating scales

Author

Samra, K, MacDougall, AM, Peakman, G, Bouzigues, A, Bocchetta, M, Cash, DM, Greaves, CV, Convery, RS, van Swieten, JC, Jiskoot, L, Seelaar, H, Butler, CR, Fenoglio, C, Rohrer, JD, Gerhard, A, Ducharme, S, Le Ber, I, Tiraboschi, P, Santana, I, Pasquier, F, Levin, J, Shoesmith, C, Otto, M, Russell, LL, Nelson, A, Cash, D, Thomas, DL, Todd, E, Ferrari, C, Benotmane, H, Timberlake, C, Gabilondo, A, Cope, T, Rittman, T, Benussi, A, Premi, E, Gasparotti, R, Thompson, P, Archetti, S, Fumagalli, G, do Couto, FS, Borracci, V, Polito, C, Rossi, G, Giaccone, G, Di Fede, G, Caroppo, P, Ferreira, CB, Prioni, S, Langheinrich, T, Redaelli, V, Lladó, A, Bartha, R, Tang-Wai, D, Rogaeva, E, Castelo-Branco, M, Freedman, M, Keren, R, Black, S, Mitchell, S, Miltenberger, G, Rademakers, R, Poos, J, Papma, JM, Giannini, L, van Minkelen, R, Pijnenburg, Y, Gauthier, S, Nacmias, B, Lombardi, G, Bessi, V, Veldsman, M, Andersson, C, Thonberg, H, Öijerstedt, L, Prix, C, Jelic, V, Antonell, A, Graff, C, Olives, J, Balasa, M, Bargalló, N, Borrego-Ecija, S, Verdelho, A, Kuchcinski, G, Maruta, C, Gorostidi, A, Laforce, R, Villanua, J, Wlasich, E, Cañada, M, Tainta, M, Zulaica, M, Barandiaran, M, Moreno, F, Alves, P, Bender, B, Bertoux, M, Wilke, C, Lebouvier, T, Camuzat, A, Graf, L, Vogels, A, Vandenbulcke, M, Van Damme, P, Bruffaerts, R, Poesen, K, Rosa-Neto, P, Sanchez-Valle, R, Brice, A, Bertrand, A, Funkiewiez, A, Rinaldi, D, Saracino, D, Colliot, O, Sorbi, S, Sayah, S, Wagemann, O, Loosli, S, Schönecker, S, Hoegen, T, Lombardi, J, Anderl-Straub, S, Nicholas, J, Rollin, A, Deramecourt, V, Arighi, A, Santiago, B, Duro, D, Leitão, MJ, Almeida, MR, Tábuas-Pereira, M, Gazzina, S, Afonso, S, Masellis, M, Tartaglia, C, Shafei, R, Rowe, JB, Borroni, B, Finger, E, Synofzik, M, Galimberti, D, Vandenberghe, R, de Mendonça, A, Cantoni, V, Genetic FTD Initiative (GENFI), Samra, Kiran [0000-0002-3105-7099], Apollo - University of Cambridge Repository, Maruta, Carolina, Ferreira, Catarina B, Miltenberger, Gabriel, do Couto, Frederico Simões, Gabilondo, Alazne, Gorostidi, Ana, Villanua, Jorge, Cañada, Marta, Tainta, Mikel, Zulaica, Miren, Barandiaran, Myriam, Alves, Patricia, Bender, Benjamin, Wilke, Carlo, Graf, Lisa, Vogels, Annick, Vandenbulcke, Mathieu, Van Damme, Philip, Bruffaerts, Rose, Poesen, Koen, Rosa-Neto, Pedro, Gauthier, Serge, Camuzat, Agnès, Brice, Alexis, Bertrand, Anne, Funkiewiez, Aurélie, Rinaldi, Daisy, Saracino, Dario, Colliot, Olivier, Sayah, Sabrina, Prix, Catharina, Wlasich, Elisabeth, Wagemann, Olivia, Loosli, Sandra, Schönecker, Sonja, Hoegen, Tobias, Lombardi, Jolina, Anderl-Straub, Sarah, Rollin, Adeline, Kuchcinski, Gregory, Bertoux, Maxime, Lebouvier, Thibaud, Deramecourt, Vincent, Santiago, Beatriz, Duro, Diana, Leitão, Maria João, Almeida, Maria Rosario, Tábuas-Pereira, Miguel, Afonso, Sónia, Nelson, Annabel, Bocchetta, Martina, Cash, David, Thomas, David L, Todd, Emily, Benotmane, Hanya, Nicholas, Jennifer, Samra, Kiran, Shafei, Rachelle, Timberlake, Carolyn, Cope, Thomas, Rittman, Timothy, Benussi, Alberto, Premi, Enrico, Gasparotti, Roberto, Archetti, Silvana, Gazzina, Stefano, Cantoni, Valentina, Arighi, Andrea, Fenoglio, Chiara, Fumagalli, Giorgio, Borracci, Vittoria, Rossi, Giacomina, Giaccone, Giorgio, Di Fede, Giuseppe, Caroppo, Paola, Tiraboschi, Pietro, Prioni, Sara, Redaelli, Veronica, Tang-Wai, David, Rogaeva, Ekaterina, Castelo-Branco, Miguel, Freedman, Morris, Keren, Ron, Black, Sandra, Mitchell, Sara, Shoesmith, Christen, Bartha, Robart, Rademakers, Rosa, Poos, Jackie, Papma, Janne M, Giannini, Lucia, van Minkelen, Rick, Pijnenburg, Yolande, Nacmias, Benedetta, Ferrari, Camilla, Polito, Cristina, Lombardi, Gemma, Bessi, Valentina, Veldsman, Michele, Andersson, Christin, Thonberg, Hakan, Öijerstedt, Linn, Jelic, Vesna, Thompson, Paul, Langheinrich, Tobias, Lladó, Albert, Antonell, Anna, Olives, Jaume, Balasa, Mircea, Bargalló, Nuria, Borrego-Ecija, Sergi, and Verdelho, Ana

Subjects

Progranulin, Clinical Neurology, C9ORF72, tau Proteins, AMYOTROPHIC-LATERAL-SCLEROSIS, diagnosis [Frontotemporal Dementia], C9orf72, Tremor, Genetics, Humans, ddc:610, genetics [Frontotemporal Dementia], genetics [C9orf72 Protein], MUTATION, Science & Technology, C9orf72 Protein, HERITABILITY, Amyotrophic Lateral Sclerosis, PROGRESSIVE SUPRANUCLEAR PALSY, COGNITIVE IMPAIRMENT, REPEAT EXPANSION, genetics [tau Proteins], Motor, PATHOLOGICAL FEATURES, Neurology, FOS: Biological sciences, Frontotemporal Dementia, Mutation, Human medicine, Neurosciences & Neurology, Neurology (clinical), Tau, TAU, Life Sciences & Biomedicine, Frontotemporal dementia, PARKINSONISM

Abstract

Funder: CIBERNED, Funder: Canadian Institutes of Health Research; doi: http://dx.doi.org/10.13039/501100000024, Funder: Lemaire Family Foundation, Funder: Swedish Frontotemporal Dementia Initiative, Funder: Italian Ministry of Health, Funder: Weston Brain Institute; doi: http://dx.doi.org/10.13039/100012479, Funder: Mady Browaaeys Fund, Funder: Miriam Marks Brain Research UK, Funder: Bluefield Project, OBJECTIVE: To investigate the optimal method of adding motor features to a clinical rating scale for frontotemporal dementia (FTD). METHODS: Eight hundred and thirty-two participants from the international multicentre Genetic FTD Initiative (GENFI) study were recruited: 522 mutation carriers (with C9orf72, GRN and MAPT mutations) and 310 mutation-negative controls. A standardised clinical questionnaire was used to assess eight motor symptoms (dysarthria, dysphagia, tremor, slowness, weakness, gait disorder, falls and functional difficulties using hands). Frequency and severity of each motor symptom was assessed, and a principal component analysis (PCA) was performed to identify how the different motor symptoms loaded together. Finally, addition of a motor component to the CDR® plus NACC FTLD was investigated (CDR® plus NACC FTLD-M). RESULTS: 24.3% of mutation carriers had motor symptoms (31.7% C9orf72, 18.8% GRN, 19.3% MAPT) compared to 6.8% of controls. Slowness and gait disorder were the commonest in all genetic groups while tremor and falls were the least frequent. Symptom severity scores were similar to equivalent physical motor examination scores. PCA revealed that all motor symptoms loaded together so a single additional motor component was added to the CDR® plus NACC FTLD to form the CDR® plus NACC FTLD-M. Individual global scores were more severe with the CDR® plus NACC FTLD-M, and no patients with a clinically diagnosed motor disorder (ALS/FTD-ALS or parkinsonism) were classified anymore as asymptomatic (unlike the CDR® plus NACC FTLD alone). CONCLUSIONS: Motor features are present in mutation carriers at all disease stages across all three genetic groups. Inclusion of motor symptoms in a rating scale that can be used in future clinical trials will not only ensure a more accurate severity measure is recorded but that a wider spectrum of FTD phenotypes can be included in the same trial.

Published

2022

5. European Inter-Societal Delphi Consensus for the biomarker-based etiological diagnosis of neurocognitive disorders in the mild stage

Author

Massa, F., Festari, C., Cotta Ramusino, M., Orini, S., Aarsland, D., Agosta, F., Babiloni, C., Boada, M., Borroni, B., Cappa, S.F., Dubois, B., Frederiksen, K.S., Frölich, L., Garibotto, V., Georges, J., Haliassos, A., Hansson, O., Jessen, F., Kamondi, A., Kessels, R.P.C., Morbelli, S., O'Brien, J.T., Otto, M., Perret-Liaudet, A., Pizzini, F.B., Ritchie, C.W., Scheltens, P., Flier, W.M. van der, Vandenbulcke, M., Vanninen, R., Verhey, F.R.J., Vernooij, M.W., Yousry, T., Nobili, F., Frisoni, G.B., Massa, F., Festari, C., Cotta Ramusino, M., Orini, S., Aarsland, D., Agosta, F., Babiloni, C., Boada, M., Borroni, B., Cappa, S.F., Dubois, B., Frederiksen, K.S., Frölich, L., Garibotto, V., Georges, J., Haliassos, A., Hansson, O., Jessen, F., Kamondi, A., Kessels, R.P.C., Morbelli, S., O'Brien, J.T., Otto, M., Perret-Liaudet, A., Pizzini, F.B., Ritchie, C.W., Scheltens, P., Flier, W.M. van der, Vandenbulcke, M., Vanninen, R., Verhey, F.R.J., Vernooij, M.W., Yousry, T., Nobili, F., and Frisoni, G.B.

Abstract

Item does not contain fulltext, Background: CSF and imaging biomarkers are needed for the etiological diagnosis of neurocognitive disorders, but evidence is incomplete on their rational use in the clinic. Since October 2020, a European task force has been defining an evidence-based diagnostic workflow, where incomplete evidence is filled by the opinion of experts. Herein, we report the preliminary results through January 2022. Method: A Delphi method was used to reach consensus. Eleven pertinent European scientific societies delegated two panelists each to join Delphi rounds and voting. Consensus was set at 70% of consistent responses. Result: In the 5 voting rounds completed so far, panelists defined clinical setting (specialist outpatient service) and stage of application (prodromal and mild dementia) of the workflow, patients’ age window of biomarkers use (strongly encouraged below 70 years and of limited usefulness over 85). Workflow is configurated to be patient-centered and structured on three levels of assessment (W): W1, definition of clinical profiles based on the combined results of MRI, neuropsychology, blood tests; W2, choice of first-line biomarkers according to the main clinical suspicion (i.e., FDG-PET for frontotemporal lobar degeneration and motor tauopathies, dopamine SPECT/PET for Lewy body spectrum disorders, and CSF biomarkers either for Alzheimer’s disease or in cases with inconclusive neuropsychological and/or MRI findings, whereas no biomarker was indicated in suspected vascular cognitive impairment); W3, selection of a second-line biomarker when results of first-line biomarkers are inconsistent with diagnostic hypothesis (i.e., not typical FDG-PET pattern) or uninformative (i.e., borderline CSF amyloid results) or not sufficient to rule out other etiologies (i.e., amyloid-positive and tau-negative CSF results) or when a diagnosis remains possible despite a negative first-line biomarker (e.g., normal dopamine SPECT/PET in suspected prodromal dementia with Lewy bodies). Conc

Published

2023

6. Effective resting-state connectivity in severe unipolar depression before and after electroconvulsive therapy.

Author

Doesschate, F. Ten, Bruin, W., Zeidman, P., Abbott, C.C., Argyelan, M., Dols, A., Emsell, L., Eijndhoven, P.F.P. van, Exel, E. van, Mulders, P.C.R., Narr, K., Tendolkar, I., Rhebergen, D., Sienaert, P., Vandenbulcke, M., Verdijk, J., Verseveld, M. van, Bartsch, H., Oltedal, L., Waarde, J.A. van, Wingen, G.A. van, Doesschate, F. Ten, Bruin, W., Zeidman, P., Abbott, C.C., Argyelan, M., Dols, A., Emsell, L., Eijndhoven, P.F.P. van, Exel, E. van, Mulders, P.C.R., Narr, K., Tendolkar, I., Rhebergen, D., Sienaert, P., Vandenbulcke, M., Verdijk, J., Verseveld, M. van, Bartsch, H., Oltedal, L., Waarde, J.A. van, and Wingen, G.A. van

Abstract

Contains fulltext : 296020.pdf (Publisher’s version ) (Open Access), BACKGROUND: Electroconvulsive therapy (ECT) is one of the most effective treatments for severe depressive disorders. A recent multi-center study found no consistent changes in correlation-based (undirected) resting-state connectivity after ECT. Effective (directed) connectivity may provide more insight into the working mechanism of ECT. OBJECTIVE: We investigated whether there are consistent changes in effective resting-state connectivity. METHODS: This multi-center study included data from 189 patients suffering from severe unipolar depression and 59 healthy control participants. Longitudinal data were available for 81 patients and 24 healthy controls. We used dynamic causal modeling for resting-state functional magnetic resonance imaging to determine effective connectivity in the default mode, salience and central executive networks before and after a course of ECT. Bayesian general linear models were used to examine differences in baseline and longitudinal effective connectivity effects associated with ECT and its effectiveness. RESULTS: Compared to controls, depressed patients showed many differences in effective connectivity at baseline, which varied according to the presence of psychotic features and later treatment outcome. Additionally, effective connectivity changed after ECT, which was related to ECT effectiveness. Notably, treatment effectiveness was associated with decreasing and increasing effective connectivity from the posterior default mode network to the left and right insula, respectively. No effects were found using correlation-based (undirected) connectivity. CONCLUSIONS: A beneficial response to ECT may depend on how brain regions influence each other in networks important for emotion and cognition. These findings further elucidate the working mechanisms of ECT and may provide directions for future non-invasive brain stimulation research.

Published

2023

7. Correction: Neuroinflammation and its association with cognition, neuronal markers and peripheral inflammation after chemotherapy for breast cancer. Cancers 2021, 13, 4198

Author

Schroyen, G., Blommaert, J., van Weehaeghe, D., Sleurs, C., Vandenbulcke, M., Dedoncker, N., Hatse, S., Goris, A., Koole, M., Smeets, A., van Laere, K., Sunaert, S., Deprez, S., Schroyen, G., Blommaert, J., van Weehaeghe, D., Sleurs, C., Vandenbulcke, M., Dedoncker, N., Hatse, S., Goris, A., Koole, M., Smeets, A., van Laere, K., Sunaert, S., and Deprez, S.

Abstract

In the original publication [1], there was a mistake in Figure 2A as published. The upper panel was incorrectly a duplicate version of the lower panel, and included PVC VT values, instead of uncorrected VT values. In the caption, a typo in referring to legend colors (blue instead of red image color) was also observed. The corrected Figure 2 appears below. The accompanying text in the manuscript does not include these mistakes and therefore remains unchanged. The authors state that the scientific conclusions are unaffected. This correction was approved by the Academic Editor. The original publication has also been updated.

Published

2023

8. The neural basis of developmental prosopagnosia: a key role for memory structures

Author

Gündem, D., primary, Laroy, M., additional, Vansteelandt, K., additional, Sunaert, S., additional, Vandenbulcke, M., additional, Emsell, L., additional, Gerlach, C., additional, Starrfelt, R., additional, and Van den Stock, J., additional

Published

2023

9. Altered temporal lobe white matter microstructure in late-life depression: a multi-shell diffusion MRI analysis

Author

Takamiya, A., primary, Radwan, A., additional, Christiaens, D., additional, Van Cauwenberge, M., additional, Casteele, T. Vande, additional, Laroy, M., additional, Sunaert, S., additional, Van Den Stock, J., additional, Bouckaert, F., additional, Vandenbulcke, M., additional, and Emsell, L., additional

Published

2023

10. Modelling the cascade of biomarker changes in GRN-related frontotemporal dementia

Author

Panman, J. L., Venkatraghavan, V., Van Der Ende, E. L., Steketee, R. M. E., Jiskoot, L. C., Poos, J. M., Dopper, E. G. P., Meeter, L. H. H., Kaat, L. D., Rombouts, S. A. R. B., Vernooij, M. W., Kievit, A. J. A., Premi, E., Cosseddu, M., Bonomi, E., Olives, J., Rohrer, J. D., Sanchez-Valle, R., Borroni, B., Bron, E. E., Van Swieten, J. C., Papma, J. M., Klein, S., 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., Black, S., Butler, C., Bocchetta, M., Borrego-Ecija, S., Bras, J., Bruffaerts, R., Caroppo, P., Cash, D., Castelo-Branco, M., Convery, R., Cope, T., Danek, A., De Arriba, M., De Mendonca, A., Di Fede, G., Diaz, Z., Ducharme, S., Duro, D., Fenoglio, C., Ferreira, C. B., Finger, E., Flanagan, T., Fox, N., Freedman, M., Fumagalli, G., Gabilondo, A., Galimberti, D., Gasparotti, R., Gauthier, S., Gazzina, S., Gerhard, A., Giaccone, G., Gorostidi, A., Graff, C., Greaves, C., Guerreiro, R., Heller, C., Hoegen, T., Indakoetxea, B., Jelic, V., Karnath, H. -O., Keren, R., Laforce, R., Leitao, M. J., Levin, J., Llado, A., Loosli, S., Maruta, C., Masellis, M., Mead, S., Miltenberger, G., Van Minkelenm Sara Mitchell, R., Moore, K., Moreno, F., Nicholas, J., Oijerstedt, L., Otto, M., Ourselin, S., Padovani, A., Peakman, G., Pijnenburg, Y., Polito, C., Prioni, S., Prix, C., Rademakers, R., Redaelli, V., Rittman, T., Rogaeva, E., Rosa-Neto, P., Rossi, G., Rosser, M., Rowe, J., Santana, I., Santiago, B., Scarpini, E., Schonecker, S., Shafei, E. S. R., Shoesmith, C., Synofzik, M., Tabuas-Pereira, M., Tagliavini, F., Tartaglia, C., Tainta, M., Taipa, R., Tang-Wai, D., Thomas, D. L., Thonberg, H., Timberlake, C., Tiraboschi, P., Todd, E., Vandamme, P., Vandenberghe, R., Vandenbulcke, M., Veldsman, M., Verdelho, A., Villanua, J., Warren, J., Wilkeione, C., Elisabeth, W., Henrik, W., Zulaica, Z. M., Neurology, Physics and medical technology, Radiology & Nuclear Medicine, Clinical Genetics, and Medical Research Council

Subjects

Male, Oncology, Disease, Neuropsychological Tests, GENFI consortium investigators, Primary progressive aphasia, Cognition, Progranulins, 0302 clinical medicine, Neurofilament Proteins, BEHAVIORAL VARIANT, HETEROGENEITY, Gray Matter, 11 Medical and Health Sciences, Language, Psychiatry, 0303 health sciences, Brain, Middle Aged, Magnetic Resonance Imaging, White Matter, 17 Psychology and Cognitive Sciences, ALZHEIMERS-DISEASE, Psychiatry and Mental health, Phenotype, medicine.anatomical_structure, Frontotemporal Dementia, Disease Progression, Biomarker (medicine), Female, Life Sciences & Biomedicine, Frontotemporal dementia, medicine.medical_specialty, Clinical Neurology, EVENT-BASED MODEL, Grey matter, Lateralization of brain function, White matter, 03 medical and health sciences, SDG 3 - Good Health and Well-being, Internal medicine, NEUROFILAMENT LIGHT-CHAIN, medicine, Humans, LOBAR DEGENERATION, PROGRANULIN, Aged, 030304 developmental biology, Science & Technology, Neurology & Neurosurgery, business.industry, DISEASE PROGRESSION, medicine.disease, Mutation, WHITE-MATTER INTEGRITY, Surgery, Neurosciences & Neurology, Neurology (clinical), business, GENFI, Biomarkers, 030217 neurology & neurosurgery, Progressive disease

Abstract

ObjectiveProgranulin-related frontotemporal dementia (FTD-GRN) is a fast progressive disease. Modelling the cascade of multimodal biomarker changes aids in understanding the aetiology of this disease and enables monitoring of individual mutation carriers. In this cross-sectional study, we estimated the temporal cascade of biomarker changes for FTD-GRN, in a data-driven way.MethodsWe included 56 presymptomatic and 35 symptomatic GRN mutation carriers, and 35 healthy non-carriers. Selected biomarkers were neurofilament light chain (NfL), grey matter volume, white matter microstructure and cognitive domains. We used discriminative event-based modelling to infer the cascade of biomarker changes in FTD-GRN and estimated individual disease severity through cross-validation. We derived the biomarker cascades in non-fluent variant primary progressive aphasia (nfvPPA) and behavioural variant FTD (bvFTD) to understand the differences between these phenotypes.ResultsLanguage functioning and NfL were the earliest abnormal biomarkers in FTD-GRN. White matter tracts were affected before grey matter volume, and the left hemisphere degenerated before the right. Based on individual disease severities, presymptomatic carriers could be delineated from symptomatic carriers with a sensitivity of 100% and specificity of 96.1%. The estimated disease severity strongly correlated with functional severity in nfvPPA, but not in bvFTD. In addition, the biomarker cascade in bvFTD showed more uncertainty than nfvPPA.ConclusionDegeneration of axons and language deficits are indicated to be the earliest biomarkers in FTD-GRN, with bvFTD being more heterogeneous in disease progression than nfvPPA. Our data-driven model could help identify presymptomatic GRN mutation carriers at risk of conversion to the clinical stage.

Published

2021

11. PRECISION: the Belgian molecular profiling program of metastatic cancer for clinical decision and treatment assignment.

Author

UCL - SSS/IREC/MIRO - Pôle d'imagerie moléculaire, radiothérapie et oncologie, Thouvenin, J, van Marcke, Cédric, Decoster, L, Raicevic, G, Punie, K, Vandenbulcke, M, Salgado, R, Van Valckenborgh, E, Maes, B, Joris, S, Steichel, D Vander, Vranken, K, Jacobs, S, Dedeurwaerdere, F, Martens, G, Devos, H, Duhoux, François, Rasschaert, M, Pauwels, P, Geboes, K, Collignon, J, Tejpar, S, Canon, J-L, Peeters, M, Rutten, A, Van de Mooter, T, Vermeij, J, Schrijvers, D, Demey, W, Lybaert, W, Van Huysse, J, Mebis, J, Awada, A, Claes, K B M, Hebrant, A, Van der Meulen, J, Delafontaine, B, Bempt, I Vanden, Maetens, J, de Hemptinne, M, Rottey, S, Aftimos, P, De Grève, J, UCL - SSS/IREC/MIRO - Pôle d'imagerie moléculaire, radiothérapie et oncologie, Thouvenin, J, van Marcke, Cédric, Decoster, L, Raicevic, G, Punie, K, Vandenbulcke, M, Salgado, R, Van Valckenborgh, E, Maes, B, Joris, S, Steichel, D Vander, Vranken, K, Jacobs, S, Dedeurwaerdere, F, Martens, G, Devos, H, Duhoux, François, Rasschaert, M, Pauwels, P, Geboes, K, Collignon, J, Tejpar, S, Canon, J-L, Peeters, M, Rutten, A, Van de Mooter, T, Vermeij, J, Schrijvers, D, Demey, W, Lybaert, W, Van Huysse, J, Mebis, J, Awada, A, Claes, K B M, Hebrant, A, Van der Meulen, J, Delafontaine, B, Bempt, I Vanden, Maetens, J, de Hemptinne, M, Rottey, S, Aftimos, P, and De Grève, J

Abstract

PRECISION is an initiative from the Belgian Society of Medical Oncology (BSMO) in collaboration with several stakeholders, encompassing four programs that aim to boost genomic and clinical knowledge with the ultimate goal to offer patients with metastatic solid tumors molecularly guided treatments. The PRECISION 1 study has led to the creation of a clinico-genomic database. The Belgian Approach for Local Laboratory Extensive Tumor Testing (BALLETT) and GeNeo studies will increase the number of patients with advanced cancer that have comprehensive genotyping of their cancer. The PRECISION 2 project consists of investigator-initiated phase II studies aiming to provide access to a targeted drug for patients whose tumors harbor actionable mutations in case the matched drug is not available through reimbursement or clinical trials in Belgium.

Published

2022

12. The Impact of the COVID-19 Pandemic on the Well-Being of People Living with Dementia

Author

Vandenbulcke, M., Droes, R.M., Schokkaert, K., Gerritsen, D.L., Roest, H. van der, Evans, S., Leontjevas, R., Prins, Marleen, Brooker, Dawn, Vandenbulcke, M., Droes, R.M., Schokkaert, K., Gerritsen, D.L., Roest, H. van der, Evans, S., Leontjevas, R., Prins, Marleen, and Brooker, Dawn

Abstract

Item does not contain fulltext

Published

2022

13. Societal and Ethical Views on End-of-Life Decisions in Dementia

Author

Vandenbulcke, M., Droes, R.M., Schokkaert, K., Gastmans, Chris, Steen, J.T. van der, Achterberg, W.P., Vandenbulcke, M., Droes, R.M., Schokkaert, K., Gastmans, Chris, Steen, J.T. van der, and Achterberg, W.P.

Abstract

Item does not contain fulltext

Published

2022

14. Characterizing the course of gray matter volume change from one week to 6 months after electroconvulsive therapy in depressed patients

Author

Laroy, M., Ousdal, O.T., Bartsch, H., Van den Stock, J., Sienaert, P., Vandenbulcke, M., Nordanskog, P., Jorgensen, M.B., Dols, A., van Wingen, G., Prudic, J., Bouckaert, F., Oltedal, L., and Emsell, L.

Published

2022

15. Gehechtheid als beïnvloedende factor van gedrags- en psychologische symptomen bij dementie

Author

Van Assche, L., Luyten, P., Van de Ven, L., and Vandenbulcke, M.

Published

2013

16. Abnormal pain perception is associated with thalamo-cortico-striatal atrophy in C9orf72 expansion carriers in the GENFI cohort

Author

Convery, Rhian S, Bocchetta, Martina, Masellis, Mario, Afonso, S., Taipa, R., Caroppo, P., Di Fede, G., Giaccone, G., Prioni, S., Redaelli, V., Rossi, G., Tiraboschi, P., Duro, D., Tartaglia, Maria Carmela, Almeida, M. R., Branco, M. C., Leitão, M. J., Tabuas-Pereira, M., Santiago, B., Gauthier, S., Rosa-Neto, P., Veldsman, M., Flanagan, T., Prix, C., Graff, Caroline, Hoegen, T., Wlasich, E., Loosli, S., Schonecker, S., Semler, E., Anderl-Straub, S., Galimberti, Daniela, Rowe, James B, Finger, Elizabeth, Synofzik, Matthis, Vandenberghe, Rik, de Mendonca, Alexandre, Tagliavini, Fabrizio, Greaves, Caroline V, Santana, Isabel, Ducharme, Simon, Butler, Christopher, Gerhard, Alex, Levin, Johannes, Danek, Adrian, Otto, Markus, Warren, Jason D, Rohrer, Jonathan D, Initiative, Genetic FTD, Moore, Katrina M, Rossor, M. N., Fox, N. C., Woollacott, I. O. C., Shafei, R., Heller, C., Peakman, G., Swift, I., Todd, E., Guerreiro, R., Bras, J., Cash, David M, Thomas, D. L., Nicholas, J., Mead, S., Jiskoot, L., Meeter, L., Panman, J., Papma, J., van Minkelen, R., Pijnenburg, Y., Barandiara, M., Van Swieten, John, Indakoetxea, B., Gabilondo, A., Tainta, M., de Arriba, M., Gorostidi, A., Zulaica, M., Villanua, J., Diaz, Z., Borrego-Ecija, S., Olives, J., Moreno, Fermin, Lladó, A., Balasa, M., Antonell, A., Bargallo, N., Premi, E., Cosseddu, M., Gazzina, S., Padovani, A., Gasparotti, R., Archetti, S., Sánchez-Valle, Raquel, Black, S., Mitchell, S., Rogaeva, E., Freedman, M., Keren, R., Tang-Wai, D., Öijerstedt, L., Andersson, C., Jelic, V., Thonberg, H., Borroni, Barbara, Arighi, A., Fenoglio, C., Scarpini, E., Fumagalli, G., Cope, T., Timberlake, C., Rittman, T., Shoesmith, C., Bartha, R., Rademakers, R., Laforce, Robert, Wilke, C., Karnarth, H-O, Bender, B., Bruffaerts, R., Vandamme, P., Vandenbulcke, M., Ferreira, C. B., Miltenberger, G., Maruta, C., Verdelho, A., Convery, Rhian S [0000-0002-9477-1812], Bocchetta, Martina [0000-0003-1814-5024], Greaves, Caroline V [0000-0002-6446-1960], Moore, Katrina M [0000-0002-4458-8390], Van Swieten, John [0000-0001-6278-6844], Borroni, Barbara [0000-0001-9340-9814], Rowe, James B [0000-0001-7216-8679], Finger, Elizabeth [0000-0003-4461-7427], Otto, Markus [0000-0002-6647-5944], Rohrer, Jonathan D [0000-0002-6155-8417], Apollo - University of Cambridge Repository, Neurology, and Repositório da Universidade de Lisboa

Subjects

Male, diagnostic imaging [Corpus Striatum], Medizin, Somatosensory system, physiopathology [Frontotemporal Dementia], frontotemporal dementia, Cohort Studies, genetics [Progranulins], 0302 clinical medicine, Progranulins, Thalamus, C9orf72, Cerebellum, diagnostic imaging [Cerebral Cortex], pathology [Cerebellum], Medicine, pain, genetics [Frontotemporal Dementia], Cerebral Cortex, 0303 health sciences, DNA Repeat Expansion, Pain Perception, Middle Aged, Magnetic Resonance Imaging, Temporal Lobe, Psychiatry and Mental health, Cohort, diagnostic imaging [Prefrontal Cortex], Female, Frontotemporal dementia, genetics [Atrophy], Adult, medicine.medical_specialty, pathology [Corpus Striatum], Pain, Prefrontal Cortex, genetics [Perceptual Disorders], MAPT protein, human, tau Proteins, diagnostic imaging [Frontotemporal Dementia], Temporal lobe, Perceptual Disorders, 03 medical and health sciences, Atrophy, pathology [Thalamus], Internal medicine, Humans, ddc:610, genetics [C9orf72 Protein], 030304 developmental biology, diagnostic imaging [Perceptual Disorders], Aged, diagnostic imaging [Thalamus], C9orf72 Protein, business.industry, pathology [Temporal Lobe], diagnostic imaging [Atrophy], physiopathology [Atrophy], medicine.disease, diagnostic imaging [Cerebellum], pathology [Prefrontal Cortex], Corpus Striatum, physiopathology [Perceptual Disorders], genetics [tau Proteins], diagnostic imaging [Temporal Lobe], Logistic Models, Asymptomatic Diseases, Mutation, GRN protein, human, Surgery, Orbitofrontal cortex, pathology [Cerebral Cortex], Neurology (clinical), C9orf72 protein, human, business, 030217 neurology & neurosurgery

Abstract

© Author(s) (or their employer(s)) 2020. No commercial re-use. See rights and permissions. published by BMJ., Objective: Frontotemporal dementia (FTD) is typically associated with changes in behaviour, language and movement. However, recent studies have shown that patients can also develop an abnormal response to pain, either heightened or diminished. We aimed to investigate this symptom in mutation carriers within the Genetic FTD Initiative (GENFI). Methods: Abnormal responsiveness to pain was measured in 462 GENFI participants: 281 mutation carriers and 181 mutation-negative controls. Changes in responsiveness to pain were scored as absent (0), questionable or very mild (0.5), mild (1), moderate (2) or severe (3). Mutation carriers were classified into C9orf72 (104), GRN (128) and MAPT (49) groups, and into presymptomatic and symptomatic stages. An ordinal logistic regression model was used to compare groups, adjusting for age and sex. Voxel-based morphometry was performed to identify neuroanatomical correlates of abnormal pain perception. Results: Altered responsiveness to pain was present to a significantly greater extent in symptomatic C9orf72 expansion carriers than in controls: mean score 0.40 (SD 0.71) vs 0.00 (0.04), reported in 29% vs 1%. No significant differences were seen between the other symptomatic groups and controls, or any of the presymptomatic mutation carriers and controls. Neural correlates of altered pain perception in C9orf72 expansion carriers were the bilateral thalamus and striatum as well as a predominantly right-sided network of regions involving the orbitofrontal cortex, inferomedial temporal lobe and cerebellum. Conclusion: Changes in pain perception are a feature of C9orf72 expansion carriers, likely representing a disruption in somatosensory, homeostatic and semantic processing, underpinned by atrophy in a thalamo-cortico-striatal network.

Published

2020

17. Disease-related cortical thinning in presymptomatic granulin mutation carriers

Author

Borrego-Écija, S. (Sergi), Sala-Llonch, R. (Roser), Swieten, J.C. (John) van, Borroni, B. (Barbara), Moreno, F. (Fermin), Masellis, M. (Mario), Tartaglia, C. (Carmela), Graff, C. (Caroline), Galimberti, D. (Daniela), Laforce, R. (Robert), Rowe, J.B. (James), Finger, E. (Elizabeth), Vandenberghe, R. (Rik), Tagliavini, F. (Fabrizio), De Mendonça, A. (Alexandre), Santana, I. (Isabel), Synofzik, M. (Matthis), Ducharme, S. (Simon), Levin, J. (Johannes), Danek, A. (Adrian), Gerhard, A. (Alex), Otto, M. (Markus), Butler, C. (Chris), Frisoni, G.B. (Giovanni B.), Sorbi, S. (Sandro), Heller, C. (Carolin), Bocchetta, M. (Martina), Cash, D.M. (David M), Convery, R.S. (Rhian S), Moore, K.M. (Katrina M), Rohrer, J.D. (Jonathan), Sánchez-Valle, R. (Raquel), Rossor, M.N. (Martin N.), Fox, N.C. (Nick), Woollacott, I.O.C. (Ione O.C.), Shafei, R. (Rachelle), Greaves, C. (Caroline), Neason, M. (Mollie), Guerreiro, R. (Rita), Bras, J. (Jose), Thomas, D.L. (David L), Nicholas, J. (Jennifer), Mead, S. (Simon), Meeter, L.H.H. (Lieke), Panman, J.L. (Jessica), Papma, J.M. (Janne), Thornton, A.S. (Andrew), Pijnenburg, Y.A.L. (Yolande), Indakoetxea, B. (Begoña), Gabilondo, A. (Alazne), TaintaMD, M. (Mikel), de Arriba, M. (Maria), Gorostidi, A. (Ana), Zulaica, M. (Miren), Villanua, J. (Jorge), Diaz, Z. (Zigor), Olives, J. (Jaume), Lladó, A. (Albert), Balasa, M. (Mircea), Antonell, A. (Anna), Bargallo, N. (Nuria), Premi, E. (Enrico), Cosseddu, M. (Maura), Gazzina, S. (Stefano), Padovani, A. (Alessandro), Gasparotti, R. (Roberto), Archetti, S. (Silvana), Black, S. (Sandra), Mitchell, S. (Sara), Rogaeva, E. (Ekaterina), Freedman, M. (Morris), Keren, R. (Ron), Tang-Wai, D. (David), Öijerstedt, L. (Linn), Andersson, C. (Christin), Jelic, S. (Svetislav Svetislav), Thonberg, H. (Håkan), Arighi, A. (Andrea), Fenoglio, C. (Chiara), Scarpini MD, E. (Elio), Fumagalli, G. (Giorgio), Cope, T. (Thomas), Timberlake, C. (Carolyn), Rittman, T. (Timothy), Shoesmith, C. (Christen), Bartha, R. (Robart), Rademakers, S. (Suzanne), Wilke, C. (Carlo), Bender, B. (Benjamin), Bruffaerts, R. (Rose), Vandamme, P. (Philip), Vandenbulcke, M. (Mathieu), Maruta, C. (Carolina), Ferreira, C.B. (Catarina B.), Miltenberger, G. (Gabriel), Verdelho, A. (Ana), Afonso, S. (Sónia), Taipa, R. (Ricardo), Caroppo, P. (Paola), Di Fede, G. (Giuseppe), Giaccone, G. (Giorgio), Prioni, S. (Sara), Redaelli, V. (Veronica), Rossi, G. (Giacomina), Tiraboschi, P. (Pietro), Duro, D. (Diana), Rosario Almeida, M. (Maria), Castelo-Branco, M. (Miguel), João Leitão, M. (Maria), Tabuas-Pereira, M. (Miguel), Santiago, B. (Beatriz), Gauthier, S. (Serge), Rosa-Neto, P. (Pedro), Veldsman, M. (Michele), Flanagan, T. (Toby), Prix, C. (Catharina), Hoegen, T. (Tobias), Wlasich, E. (Elisabeth), Loosli, S. (Sandra), Schonecker, S. (Sonja), Semler, E. (Elisa), Anderl-Straub, S. (Sarah), Borrego-Écija, S. (Sergi), Sala-Llonch, R. (Roser), Swieten, J.C. (John) van, Borroni, B. (Barbara), Moreno, F. (Fermin), Masellis, M. (Mario), Tartaglia, C. (Carmela), Graff, C. (Caroline), Galimberti, D. (Daniela), Laforce, R. (Robert), Rowe, J.B. (James), Finger, E. (Elizabeth), Vandenberghe, R. (Rik), Tagliavini, F. (Fabrizio), De Mendonça, A. (Alexandre), Santana, I. (Isabel), Synofzik, M. (Matthis), Ducharme, S. (Simon), Levin, J. (Johannes), Danek, A. (Adrian), Gerhard, A. (Alex), Otto, M. (Markus), Butler, C. (Chris), Frisoni, G.B. (Giovanni B.), Sorbi, S. (Sandro), Heller, C. (Carolin), Bocchetta, M. (Martina), Cash, D.M. (David M), Convery, R.S. (Rhian S), Moore, K.M. (Katrina M), Rohrer, J.D. (Jonathan), Sánchez-Valle, R. (Raquel), Rossor, M.N. (Martin N.), Fox, N.C. (Nick), Woollacott, I.O.C. (Ione O.C.), Shafei, R. (Rachelle), Greaves, C. (Caroline), Neason, M. (Mollie), Guerreiro, R. (Rita), Bras, J. (Jose), Thomas, D.L. (David L), Nicholas, J. (Jennifer), Mead, S. (Simon), Meeter, L.H.H. (Lieke), Panman, J.L. (Jessica), Papma, J.M. (Janne), Thornton, A.S. (Andrew), Pijnenburg, Y.A.L. (Yolande), Indakoetxea, B. (Begoña), Gabilondo, A. (Alazne), TaintaMD, M. (Mikel), de Arriba, M. (Maria), Gorostidi, A. (Ana), Zulaica, M. (Miren), Villanua, J. (Jorge), Diaz, Z. (Zigor), Olives, J. (Jaume), Lladó, A. (Albert), Balasa, M. (Mircea), Antonell, A. (Anna), Bargallo, N. (Nuria), Premi, E. (Enrico), Cosseddu, M. (Maura), Gazzina, S. (Stefano), Padovani, A. (Alessandro), Gasparotti, R. (Roberto), Archetti, S. (Silvana), Black, S. (Sandra), Mitchell, S. (Sara), Rogaeva, E. (Ekaterina), Freedman, M. (Morris), Keren, R. (Ron), Tang-Wai, D. (David), Öijerstedt, L. (Linn), Andersson, C. (Christin), Jelic, S. (Svetislav Svetislav), Thonberg, H. (Håkan), Arighi, A. (Andrea), Fenoglio, C. (Chiara), Scarpini MD, E. (Elio), Fumagalli, G. (Giorgio), Cope, T. (Thomas), Timberlake, C. (Carolyn), Rittman, T. (Timothy), Shoesmith, C. (Christen), Bartha, R. (Robart), Rademakers, S. (Suzanne), Wilke, C. (Carlo), Bender, B. (Benjamin), Bruffaerts, R. (Rose), Vandamme, P. (Philip), Vandenbulcke, M. (Mathieu), Maruta, C. (Carolina), Ferreira, C.B. (Catarina B.), Miltenberger, G. (Gabriel), Verdelho, A. (Ana), Afonso, S. (Sónia), Taipa, R. (Ricardo), Caroppo, P. (Paola), Di Fede, G. (Giuseppe), Giaccone, G. (Giorgio), Prioni, S. (Sara), Redaelli, V. (Veronica), Rossi, G. (Giacomina), Tiraboschi, P. (Pietro), Duro, D. (Diana), Rosario Almeida, M. (Maria), Castelo-Branco, M. (Miguel), João Leitão, M. (Maria), Tabuas-Pereira, M. (Miguel), Santiago, B. (Beatriz), Gauthier, S. (Serge), Rosa-Neto, P. (Pedro), Veldsman, M. (Michele), Flanagan, T. (Toby), Prix, C. (Catharina), Hoegen, T. (Tobias), Wlasich, E. (Elisabeth), Loosli, S. (Sandra), Schonecker, S. (Sonja), Semler, E. (Elisa), and Anderl-Straub, S. (Sarah)

Abstract

Mutations in the granulin gene (GRN) cause familial frontotemporal dementia. Understanding the structural brain changes in presymptomatic GRN carriers would enforce the use of neuroimaging biomarkers for early diagnosis and monitoring. We studied 100 presymptomatic GRN mutation carriers and 94 noncarriers from the Genetic Frontotemporal dementia initiative (GENFI), with MRI structural images. We analyzed 3T MRI structural images using the FreeSurfer pipeline to calculate the whole brain cortical thickness (CTh) for each subject. We also perform a vertex-wise general linear model to assess differences between groups in the relationship between CTh and diverse covariables as gender, age, the estimated years to onset and education. We also explored differences according to TMEM106B genotype, a possible disease modifier. Whole brain CTh did not differ between carriers and noncarriers. Both groups showed age-related cortical thinning. The group-by-age interaction analysis showed that this age-related cortical thinning was significantly greater in GRN carriers in the left superior frontal cortex. TMEM106B did not significantly influence the age-related cortical thinning. Our results validate and expand previous findings suggesting an

Published

2021

18. P.378 Out with the new: structural and functional deterioration of subspecialised areas of the social brain in behavioural variant frontotemporal dementia

Author

Vliet, L. Van De, primary, De Winter, F.L., additional, Huang, Y.A., additional, Zhu, Q., additional, Vanduffel, W., additional, Vandenbulcke, M., additional, and Van den Stock, J., additional

Published

2020

19. A European Academy of Neurology guideline on medical management issues in dementia

Author

Frederiksen, K. S., primary, Cooper, C., additional, Frisoni, G. B., additional, Frölich, L., additional, Georges, J., additional, Kramberger, M. G., additional, Nilsson, C., additional, Passmore, P., additional, Mantoan Ritter, L., additional, Religa, D., additional, Schmidt, R., additional, Stefanova, E., additional, Verdelho, A., additional, Vandenbulcke, M., additional, Winblad, B., additional, and Waldemar, G., additional

Published

2020

20. In vivo exclusion of Alzheimerʼs disease as a cause of primary progressive aphasia: SC213

Author

Vandenberghe, R., Nelissen, N., Vandenbulcke, M., Porke, K., and Van Laere, K.

Published

2009

21. Analysis of brain atrophy and local gene expression in genetic frontotemporal dementia

Author

Altmann, A., Cash, D. M., Bocchetta, M., Heller, C., Reynolds, R., Moore, K., Convery, R. S., Thomas, D. L., Van Swieten, J. C., Moreno, F., Sanchez-Valle, R., Borroni, B., Laforce, R., Masellis, M., Tartaglia, M. C., Graff, C., Galimberti, D., Rowe, J. B., Finger, E., Synofzik, M., Vandenberghe, R., De Mendonca, A., Tagliavini, F., Santana, I., Ducharme, S., Butler, C. R., Gerhard, A., Levin, J., Danek, A., Frisoni, G., Ghidoni, R., Sorbi, S., Otto, M., Ryten, M., Rohrer, J. D., Greaves, C., Peakman, G., Shafei, R., Todd, E., Rossor, M. N., Warren, J. D., Fox, N. C., Zetterberg, H., Guerreiro, R., Bras, J., Nicholas, J., Mead, S., Jiskoot, L., Meeter, L., Panman, J., Papma, J. M., Van Minkelen, R., Pijnenburg, Y., Barandiaran, M., Indakoetxea, B., Gabilondo, A., Tainta, M., De Arriba, M., Gorostidi, A., Zulaica, M., Villanua, J., Diaz, Z., Borrego-Ecija, S., Olives, J., Llado, A., Balasa, M., Antonell, A., Bargallo, N., Premi, E., Cosseddu, M., Gazzina, S., Padovani, A., Gasparotti, R., Archetti, S., Black, S., Mitchell, S., Rogaeva, E., Freedman, M., Keren, R., Tang-Wai, D., Oijerstedt, L., Andersson, C., Jelic, V., Thonberg, H., Arighi, A., Fenoglio, C., Scarpini, E., Fumagalli, G., Cope, T., Timberlake, C., Rittman, T., Shoesmith, C., Bartha, R., Rademakers, R., Wilke, C., Karnarth, H. -O., Bender, B., Bruffaerts, R., Van Damme, P., Vandenbulcke, M., Ferreira, C. B., Miltenberger, G., Maruta, C., Verdelho, A., Afonso, S., Taipa, R., Caroppo, P., Di Fede, G., Giaccone, G., Prioni, S., Redaelli, V., Rossi, G., Tiraboschi, P., Duro, D., Almeida, M. R., Castelo-Branco, M., Leitao, M. J., Tabuas-Pereira, M., Santiago, B., Gauthier, S., Rosa-Neto, P., Veldsman, M., Thompson, P., Langheinrich, T., Prix, C., Hoegen, T., Wlasich, E., Loosli, S., Schonecker, S., Semler, E., Anderl-Straub, S., Benussi, L., Binetti, G., Pievani, M., Lombardi, G., Nacmias, B., Ferrari, C., Bessi, V., Polito, C., Rowe, James [0000-0001-7216-8679], Apollo - University of Cambridge Repository, Medical Research Council, and Genetic FTD Initiative, GENFI

Subjects

0301 basic medicine, Cell type, Imaging genetics, Clinical Neurology, Medizin, Biology, Article, DISEASE, 03 medical and health sciences, 0302 clinical medicine, Atrophy, atrophy, C9orf72, Gene expression, medicine, Astrocytes, Frontotemporal dementia, ddc:610, 10. No inequality, Gene, 030304 developmental biology, Genetics, 0303 health sciences, Science & Technology, TREM2, AcademicSubjects/SCI01870, Neurodegeneration, General Engineering, C9orf72 Gene, Neurosciences, astrocytes, Genetic FTD Initiative, GENFI, medicine.disease, C9orf72 Protein, 030104 developmental biology, gene expression, imaging genetics, Original Article, AcademicSubjects/MED00310, Human medicine, Neurosciences & Neurology, Life Sciences & Biomedicine, 030217 neurology & neurosurgery

Abstract

Frontotemporal dementia is a heterogeneous neurodegenerative disorder characterized by neuronal loss in the frontal and temporal lobes. Despite progress in understanding which genes are associated with the aetiology of frontotemporal dementia, the biological basis of how mutations in these genes lead to cell loss in specific cortical regions remains unclear. In this work, we combined gene expression data for 16 772 genes from the Allen Institute for Brain Science atlas with brain maps of grey matter atrophy in symptomatic C9orf72, GRN and MAPT mutation carriers obtained from the Genetic Frontotemporal dementia Initiative study. No significant association was seen between C9orf72, GRN and MAPT expression and the atrophy patterns in the respective genetic groups. After adjusting for spatial autocorrelation, between 1000 and 5000 genes showed a negative or positive association with the atrophy pattern within each individual genetic group, with the most significantly associated genes being TREM2, SSBP3 and GPR158 (negative association in C9Orf72, GRN and MAPT respectively) and RELN, MXRA8 and LPA (positive association in C9Orf72, GRN and MAPT respectively). An overrepresentation analysis identified a negative association with genes involved in mitochondrial function, and a positive association with genes involved in vascular and glial cell function in each of the genetic groups. A set of 423 and 700 genes showed significant positive and negative association, respectively, with atrophy patterns in all three maps. The gene set with increased expression in spared cortical regions was enriched for neuronal and microglial genes, while the gene set with increased expression in atrophied regions was enriched for astrocyte and endothelial cell genes. Our analysis suggests that these cell types may play a more active role in the onset of neurodegeneration in frontotemporal dementia than previously assumed, and in the case of the positively associated cell marker genes, potentially through emergence of neurotoxic astrocytes and alteration in the blood–brain barrier, respectively., Altmann et al. investigated the concordance between spatial cortical gene expression in healthy subjects and atrophy patterns in genetic frontotemporal dementia. They found that elevated gene expression of endothelial cell and astrocyte-related genes in regions with atrophy, suggesting a role of these cell types in the aetiology of frontotemporal dementia., Graphical Abstract Graphical Abstract

Published

2020

22. Age at symptom onset and death and disease duration in genetic frontotemporal dementia: an international retrospective cohort study

Author

Moore, K.M. Nicholas, J. Grossman, M. McMillan, C.T. Irwin, D.J. Massimo, L. Van Deerlin, V.M. Warren, J.D. Fox, N.C. Rossor, M.N. Mead, S. Bocchetta, M. Boeve, B.F. Knopman, D.S. Graff-Radford, N.R. Forsberg, L.K. Rademakers, R. Wszolek, Z.K. van Swieten, J.C. Jiskoot, L.C. Meeter, L.H. Dopper, E.G. Papma, J.M. Snowden, J.S. Saxon, J. Jones, M. Pickering-Brown, S. Le Ber, I. Camuzat, A. Brice, A. Caroppo, P. Ghidoni, R. Pievani, M. Benussi, L. Binetti, G. Dickerson, B.C. Lucente, D. Krivensky, S. Graff, C. Öijerstedt, L. Fallström, M. Thonberg, H. Ghoshal, N. Morris, J.C. Borroni, B. Benussi, A. Padovani, A. Galimberti, D. Scarpini, E. Fumagalli, G.G. Mackenzie, I.R. Hsiung, G.-Y.R. Sengdy, P. Boxer, A.L. Rosen, H. Taylor, J.B. Synofzik, M. Wilke, C. Sulzer, P. Hodges, J.R. Halliday, G. Kwok, J. Sanchez-Valle, R. Lladó, A. Borrego-Ecija, S. Santana, I. Almeida, M.R. Tábuas-Pereira, M. Moreno, F. Barandiaran, M. Indakoetxea, B. Levin, J. Danek, A. Rowe, J.B. Cope, T.E. Otto, M. Anderl-Straub, S. de Mendonça, A. Maruta, C. Masellis, M. Black, S.E. Couratier, P. Lautrette, G. Huey, E.D. Sorbi, S. Nacmias, B. Laforce, R., Jr Tremblay, M.-P.L. Vandenberghe, R. Damme, P.V. Rogalski, E.J. Weintraub, S. Gerhard, A. Onyike, C.U. Ducharme, S. Papageorgiou, S.G. Ng, A.S.L. Brodtmann, A. Finger, E. Guerreiro, R. Bras, J. Rohrer, J.D. Heller, C. Convery, R.S. Woollacott, I.O. Shafei, R.M. Graff-Radford, J. Jones, D.T. Dheel, C.M. Savica, R. Lapid, M.I. Baker, M. Fields, J.A. Gavrilova, R. Domoto-Reilly, K. Poos, J.M. Van der Ende, E.L. Panman, J.L. Donker Kaat, L. Seelaar, H. Richardson, A. Frisoni, G. Mega, A. Fostinelli, S. Chiang, H.-H. Alberici, A. Arighi, A. Fenoglio, C. Heuer, H. Miller, B. Karydas, A. Fong, J. João Leitão, M. Santiago, B. Duro, D. Ferreira, C. Gabilondo, A. De Arriba, M. Tainta, M. Zulaica, M. Ferreira, C. Semler, E. Ludolph, A. Landwehrmeyer, B. Volk, A.E. Miltenberger, G. Verdelho, A. Afonso, S. Tartaglia, M.C. Freedman, M. Rogaeva, E. Ferrari, C. Piaceri, I. Bessi, V. Lombardi, G. St-Onge, F. Doré, M.-C. Bruffaerts, R. Vandenbulcke, M. Van den Stock, J. Mesulam, M.M. Bigio, E. Koros, C. Papatriantafyllou, J. Kroupis, C. Stefanis, L. Shoesmith, C. Robertson, E. Coppola, G. Da Silva Ramos, E.M. Geschwind, D.

Abstract

Background: Frontotemporal dementia is a heterogenous neurodegenerative disorder, with about a third of cases being genetic. Most of this genetic component is accounted for by mutations in GRN, MAPT, and C9orf72. In this study, we aimed to complement previous phenotypic studies by doing an international study of age at symptom onset, age at death, and disease duration in individuals with mutations in GRN, MAPT, and C9orf72. Methods: In this international, retrospective cohort study, we collected data on age at symptom onset, age at death, and disease duration for patients with pathogenic mutations in the GRN and MAPT genes and pathological expansions in the C9orf72 gene through the Frontotemporal Dementia Prevention Initiative and from published papers. We used mixed effects models to explore differences in age at onset, age at death, and disease duration between genetic groups and individual mutations. We also assessed correlations between the age at onset and at death of each individual and the age at onset and at death of their parents and the mean age at onset and at death of their family members. Lastly, we used mixed effects models to investigate the extent to which variability in age at onset and at death could be accounted for by family membership and the specific mutation carried. Findings: Data were available from 3403 individuals from 1492 families: 1433 with C9orf72 expansions (755 families), 1179 with GRN mutations (483 families, 130 different mutations), and 791 with MAPT mutations (254 families, 67 different mutations). Mean age at symptom onset and at death was 49·5 years (SD 10·0; onset) and 58·5 years (11·3; death) in the MAPT group, 58·2 years (9·8; onset) and 65·3 years (10·9; death) in the C9orf72 group, and 61·3 years (8·8; onset) and 68·8 years (9·7; death) in the GRN group. Mean disease duration was 6·4 years (SD 4·9) in the C9orf72 group, 7·1 years (3·9) in the GRN group, and 9·3 years (6·4) in the MAPT group. Individual age at onset and at death was significantly correlated with both parental age at onset and at death and with mean family age at onset and at death in all three groups, with a stronger correlation observed in the MAPT group (r=0·45 between individual and parental age at onset, r=0·63 between individual and mean family age at onset, r=0·58 between individual and parental age at death, and r=0·69 between individual and mean family age at death) than in either the C9orf72 group (r=0·32 individual and parental age at onset, r=0·36 individual and mean family age at onset, r=0·38 individual and parental age at death, and r=0·40 individual and mean family age at death) or the GRN group (r=0·22 individual and parental age at onset, r=0·18 individual and mean family age at onset, r=0·22 individual and parental age at death, and r=0·32 individual and mean family age at death). Modelling showed that the variability in age at onset and at death in the MAPT group was explained partly by the specific mutation (48%, 95% CI 35–62, for age at onset; 61%, 47–73, for age at death), and even more by family membership (66%, 56–75, for age at onset; 74%, 65–82, for age at death). In the GRN group, only 2% (0–10) of the variability of age at onset and 9% (3–21) of that of age of death was explained by the specific mutation, whereas 14% (9–22) of the variability of age at onset and 20% (12–30) of that of age at death was explained by family membership. In the C9orf72 group, family membership explained 17% (11–26) of the variability of age at onset and 19% (12–29) of that of age at death. Interpretation: Our study showed that age at symptom onset and at death of people with genetic frontotemporal dementia is influenced by genetic group and, particularly for MAPT mutations, by the specific mutation carried and by family membership. Although estimation of age at onset will be an important factor in future pre-symptomatic therapeutic trials for all three genetic groups, our study suggests that data from other members of the family will be particularly helpful only for individuals with MAPT mutations. Further work in identifying both genetic and environmental factors that modify phenotype in all groups will be important to improve such estimates. Funding: UK Medical Research Council, National Institute for Health Research, and Alzheimer's Society. © 2020 Elsevier Ltd

Published

2020

23. Alzheimer Dementia Caused by a Novel Mutation Located in the APP C-Terminal Intracytosolic Fragment

Author

Theuns, J., Marjaux, E., Vandenbulcke, M., Van Laere, K., Kumar-Singh, S., Bormans, G., Brouwers, N., Van den Broeck, M., Vennekens, K., Corsmit, E., Cruts, M., De Strooper, B., Van Broeckhoven, C., and Vandenberghe, R.

Published

2006

24. Structural changes induced by electroconvulsive therapy are associated with clinical outcome

Author

Mulders, P.C.R., Llera, A., Beckmann, C.F., Vandenbulcke, M., Stek, M., Sienaert, P., Redlich, R., Petrides, G., Oudega, M.L., Oltedal, L., Oedegaard, K.J., Narr, K.L., Magnusson, P.O., Kessler, U., Jorgensen, A., Espinoza, R., Enneking, V., Emsell, L., Dols, A., Dannlowski, U., Bolwig, T.G., Bartsch, H., Argyelan, M., Anand, A., Abbott, C.C., Eijndhoven, P.F.P. van, Tendolkar, I., Mulders, P.C.R., Llera, A., Beckmann, C.F., Vandenbulcke, M., Stek, M., Sienaert, P., Redlich, R., Petrides, G., Oudega, M.L., Oltedal, L., Oedegaard, K.J., Narr, K.L., Magnusson, P.O., Kessler, U., Jorgensen, A., Espinoza, R., Enneking, V., Emsell, L., Dols, A., Dannlowski, U., Bolwig, T.G., Bartsch, H., Argyelan, M., Anand, A., Abbott, C.C., Eijndhoven, P.F.P. van, and Tendolkar, I.

Abstract

Contains fulltext : 220550.pdf (Publisher’s version ) (Open Access), BACKGROUND: Electroconvulsive therapy (ECT) is the most effective treatment option for major depressive disorder, so understanding whether its clinical effect relates to structural brain changes is vital for current and future antidepressant research. OBJECTIVE: To determine whether clinical response to ECT is related to structural volumetric changes in the brain as measured by structural magnetic resonance imaging (MRI) and, if so, which regions are related to this clinical effect. We also determine whether a similar model can be used to identify regions associated with electrode placement (unilateral versus bilateral ECT). METHODS: Longitudinal MRI and clinical data (Hamilton Depression Rating Scale) was collected from 10 sites as part of the Global ECT-MRI research collaboration (GEMRIC). From 192 subjects, relative changes in 80 (sub)cortical areas were used as potential features for classifying treatment response. We used recursive feature elimination to extract relevant features, which were subsequently used to train a linear classifier. As a validation, the same was done for electrode placement. We report accuracy as well as the structural coefficients of regions included in the discriminative spatial patterns obtained. RESULTS: A pattern of structural changes in cortical midline, striatal and lateral prefrontal areas discriminates responders from non-responders (75% accuracy, p < 0.001) while left-sided mediotemporal changes discriminate unilateral from bilateral electrode placement (81% accuracy, p < 0.001). CONCLUSIONS: The identification of a multivariate discriminative pattern shows that structural change is relevant for clinical response to ECT, but this pattern does not include mediotemporal regions that have been the focus of electroconvulsive therapy research so far.

Published

2020

25. Social cognition impairment in genetic frontotemporal dementia within the GENFI cohort

Author

Russell, L.L. (Lucy L.), Greaves, C.V. (Caroline V.), Bocchetta, M. (Martina), Nicholas, J.M. (Jennifer), Convery, R.S. (Rhian S.), Moore, K. (Katrina), Cash, D.M. (David M.), Swieten, J.C. (John) van, Jiskoot, L.C. (Lize), Moreno, F. (Fermin), Sánchez-Valle, R. (Raquel), Borroni, B. (Barbara), Laforce, R. (Robert), Masellis, M. (Mario), Tartaglia, M.C. (Maria Carmela), Graff, C. (Caroline), Rotondo, E. (Emanuela), Galimberti, D. (Daniela), Rowe, J.B. (James), Finger, E. (Elizabeth), Synofzik, M. (Matthis), Vandenberghe, R. (Rik), De Mendonça, A. (Alexandre), Tagliavini, F. (Fabrizio), Santana, I. (Isabel), Ducharme, S. (Simon), Butler, C. (Chris), Gerhard, A. (Alex), Levin, J. (Johannes), Danek, A. (Adrian), Otto, M. (Markus), Warren, J.D. (Jason), Rohrer, J.D. (Jonathan), Rossor, M. (Martin), Fox, N.C. (Nick), Woollacott, I.O.C. (Ione O.C.), Shafei, R. (Rachelle), Heller, C. (Carolin), Guerreiro, R. (Rita), Bras, J. (Jose), Thomas, D.L. (David L), Mead, S. (Simon), Meeter, L.H.H. (Lieke), Panman, J.L. (Jessica), Papma, J.M. (Janne), Poos, J.M. (Jackie), Thornton, A.S. (Andrew), Pijnenburg, Y. (Yolanda), Barandiaran, M. (Myriam), Indakoetxea, B. (Begoña), Gabilondo, A. (Alazne), Tainta, M. (Mikel), de Arriba, M. (Maria), Gorostidi, A. (Ana), Zulaica, M. (Miren), Villanua, J. (Jorge), Diaz, Z. (Zigor), Borrego-Ecija, S. (Sergi), Olives, J. (Jaume), Lladó, A. (Albert), Balasa, M. (Mircea), Antonell, A. (Anna), Bargallo, N. (Nuria), Premi, E. (Enrico), Cosseddu MPsych, M. (Maura), Gazzina, S. (Stefano), Padovani, A. (Alessandro), Gasparotti, R. (Roberto), Archetti, S. (Silvana), Black, S.E. (Sandra), Mitchell, S. (Sara), Rogaeva, E. (Ekaterina), Freedman, M. (Morris), Keren, R. (Ron), Tang-Wai, D. (Daid), Öijerstedt, L. (Linn), Andersson, C. (Christin), Jelic, S. (Svetislav Svetislav), Thonberg, H. (Håkan), Arighi, A. (Andrea), Fenoglio, C. (Chiara), Scarpini, E. (Elio), Fumagalli, G. (Giorgio), Cope, T. (Thomas), Timberlake, C. (Carolyn), Rittman, T. (Timothy), Shoesmith, C. (Christen), Bartha, R. (Robart), Rademakers, S. (Suzanne), Wilke, C. (Carlo), Karnarth, H.-O. (Hans-Otto), Bender, B. (Benjamin), Bruffaerts, R. (Rose), Vandamme, P. (Philip), Vandenbulcke, M. (Mathieu), Ferreira, C.B. (Catarina B.), Miltenberger, G. (Gabriel), Maruta MPsych, C. (Carolina), Verdelho, A. (Ana), Afonso, S. (Sónia), Taipa, R. (Ricardo), Caroppo, P. (Paola), Di Fede, G. (Giuseppe), Giaccone, G. (Giuseppe), Muscio, C. (Cristina), Prioni, S. (Sara), Redaelli, V. (Veronica), Rossi, G. (Giacomina), Tiraboschi, P. (Pietro), Duro NPsych, D. (Diana), Almeida, M.R. (Maria R.), Castelo-Branco, M. (Miguel), Leitão, M.J. (Maria J.), Tabuas-Pereira, M. (Miguel), Santiago, B. (Beatriz), Gauthier, S. (Serge), Rosa-Neto, P. (Pedro), Veldsman, M. (Michele), Thompson, P.M. (Paul), Langheinrich, T. (Tobias), Prix, C. (Catharina), Hoegen, T. (Tobias), Wlasich, E. (Elisabeth), Loosli, S. (Sandra), Schonecker, S. (Sonja), Semler, E. (Elisa), Anderl-Straub, S. (Sarah), Russell, L.L. (Lucy L.), Greaves, C.V. (Caroline V.), Bocchetta, M. (Martina), Nicholas, J.M. (Jennifer), Convery, R.S. (Rhian S.), Moore, K. (Katrina), Cash, D.M. (David M.), Swieten, J.C. (John) van, Jiskoot, L.C. (Lize), Moreno, F. (Fermin), Sánchez-Valle, R. (Raquel), Borroni, B. (Barbara), Laforce, R. (Robert), Masellis, M. (Mario), Tartaglia, M.C. (Maria Carmela), Graff, C. (Caroline), Rotondo, E. (Emanuela), Galimberti, D. (Daniela), Rowe, J.B. (James), Finger, E. (Elizabeth), Synofzik, M. (Matthis), Vandenberghe, R. (Rik), De Mendonça, A. (Alexandre), Tagliavini, F. (Fabrizio), Santana, I. (Isabel), Ducharme, S. (Simon), Butler, C. (Chris), Gerhard, A. (Alex), Levin, J. (Johannes), Danek, A. (Adrian), Otto, M. (Markus), Warren, J.D. (Jason), Rohrer, J.D. (Jonathan), Rossor, M. (Martin), Fox, N.C. (Nick), Woollacott, I.O.C. (Ione O.C.), Shafei, R. (Rachelle), Heller, C. (Carolin), Guerreiro, R. (Rita), Bras, J. (Jose), Thomas, D.L. (David L), Mead, S. (Simon), Meeter, L.H.H. (Lieke), Panman, J.L. (Jessica), Papma, J.M. (Janne), Poos, J.M. (Jackie), Thornton, A.S. (Andrew), Pijnenburg, Y. (Yolanda), Barandiaran, M. (Myriam), Indakoetxea, B. (Begoña), Gabilondo, A. (Alazne), Tainta, M. (Mikel), de Arriba, M. (Maria), Gorostidi, A. (Ana), Zulaica, M. (Miren), Villanua, J. (Jorge), Diaz, Z. (Zigor), Borrego-Ecija, S. (Sergi), Olives, J. (Jaume), Lladó, A. (Albert), Balasa, M. (Mircea), Antonell, A. (Anna), Bargallo, N. (Nuria), Premi, E. (Enrico), Cosseddu MPsych, M. (Maura), Gazzina, S. (Stefano), Padovani, A. (Alessandro), Gasparotti, R. (Roberto), Archetti, S. (Silvana), Black, S.E. (Sandra), Mitchell, S. (Sara), Rogaeva, E. (Ekaterina), Freedman, M. (Morris), Keren, R. (Ron), Tang-Wai, D. (Daid), Öijerstedt, L. (Linn), Andersson, C. (Christin), Jelic, S. (Svetislav Svetislav), Thonberg, H. (Håkan), Arighi, A. (Andrea), Fenoglio, C. (Chiara), Scarpini, E. (Elio), Fumagalli, G. (Giorgio), Cope, T. (Thomas), Timberlake, C. (Carolyn), Rittman, T. (Timothy), Shoesmith, C. (Christen), Bartha, R. (Robart), Rademakers, S. (Suzanne), Wilke, C. (Carlo), Karnarth, H.-O. (Hans-Otto), Bender, B. (Benjamin), Bruffaerts, R. (Rose), Vandamme, P. (Philip), Vandenbulcke, M. (Mathieu), Ferreira, C.B. (Catarina B.), Miltenberger, G. (Gabriel), Maruta MPsych, C. (Carolina), Verdelho, A. (Ana), Afonso, S. (Sónia), Taipa, R. (Ricardo), Caroppo, P. (Paola), Di Fede, G. (Giuseppe), Giaccone, G. (Giuseppe), Muscio, C. (Cristina), Prioni, S. (Sara), Redaelli, V. (Veronica), Rossi, G. (Giacomina), Tiraboschi, P. (Pietro), Duro NPsych, D. (Diana), Almeida, M.R. (Maria R.), Castelo-Branco, M. (Miguel), Leitão, M.J. (Maria J.), Tabuas-Pereira, M. (Miguel), Santiago, B. (Beatriz), Gauthier, S. (Serge), Rosa-Neto, P. (Pedro), Veldsman, M. (Michele), Thompson, P.M. (Paul), Langheinrich, T. (Tobias), Prix, C. (Catharina), Hoegen, T. (Tobias), Wlasich, E. (Elisabeth), Loosli, S. (Sandra), Schonecker, S. (Sonja), Semler, E. (Elisa), and Anderl-Straub, S. (Sarah)

Abstract

A key symptom of frontotemporal dementia (FTD) is difficulty interacting socially with others. Social cognition problems in FTD include impaired emotion processing and theory of mind difficulties, and whilst these have been studied extensively in sporadic FTD, few studies have investigated them in familial FTD. Facial Emotion Recognition (FER) and Faux Pas (FP) recognition tests were used to study social cognition within the Genetic Frontotemporal Dementia Initiative (GENFI), a large familial FTD cohort of C9orf72, GRN, and MAPT mutation carriers. 627 participants undertook at least one of the tasks, and were separated into mutation-negative healthy controls, presymptomatic mutation carriers (split into early and late groups) and symptomatic mutation carriers. Groups were compared using a linear regression model with bootstrapping, adjusting for age, sex, education, and for the FP recognition test, language. Neural correlates of social cognition deficits were explored using a voxel-based morphometry (VBM) study. All three of the symptomatic genetic groups were impaired on both tasks with no significant difference between them. However, prior to onset, only the late presymptomatic C9orf72 mutation carriers on the FER test were impaired compared to the control group, with a subanalysis showing differences particularly in fear and sadness. The VBM analysis revealed that impaired social cognition was mainly associated with a left hemisphere predominant network of regions involving particularly the striatum, orbitofrontal cortex and insula, and to a lesser extent the inferomedial temporal lobe and other areas of the frontal lobe. In conclusion, theory of mind and emotion processing abilities are impaired in familial FTD, with early changes occurring prior to symptom onset in C9orf72 presymptomatic mutation carriers. Future work should investigate how performance changes over time, in order to gain a clearer insight into social cognitive impairment over the course of the

Published

2020

26. Age at symptom onset and death and disease duration in genetic frontotemporal dementia: an international retrospective cohort study

Author

Moore, KM, Nicholas, J, Grossman, M, McMillan, CT, Irwin, DJ, Massimo, L, Van Deerlin, VM, Warren, JD, Fox, NC, Rossor, MN, Mead, S, Bocchetta, M, Boeve, BF, Knopman, DS, Graff-Radford, NR, Forsberg, LK, Rademakers, R, Wszolek, ZK, van Swieten, JC, Jiskoot, LC, Meeter, LH, Dopper, EGP, Papma, JM, Snowden, JS, Saxon, J, Jones, M, Pickering-Brown, S, Le Ber, I, Camuzat, A, Brice, A, Caroppo, P, Ghidoni, R, Pievani, M, Benussi, L, Binetti, G, Dickerson, BC, Lucente, D, Krivensky, S, Graff, C, Oijerstedt, L, Fallstrom, M, Thonberg, H, Ghoshal, N, Morris, JC, Borroni, B, Benussi, A, Padovani, A, Galimberti, D, Scarpini, E, Fumagalli, GG, Mackenzie, IR, Hsiung, G-YR, Sengdy, P, Boxer, AL, Rosen, H, Taylor, JB, Synofzik, M, Wilke, C, Sulzer, P, Hodges, JR, Halliday, G, Kwok, J, Sanchez-Valle, R, Llado, A, Borrego-Ecija, S, Santana, I, Almeida, MR, Tabuas-Pereira, M, Moreno, F, Barandiaran, M, Indakoetxea, B, Levin, J, Danek, A, Rowe, JB, Cope, TE, Otto, M, Anderl-Straub, S, de Mendonca, A, Maruta, C, Masellis, M, Black, SE, Couratier, P, Lautrette, G, Huey, ED, Sorbi, S, Nacmias, B, Laforce, R, Tremblay, M-PL, Vandenberghe, R, Van Damme, P, Rogalski, EJ, Weintraub, S, Gerhard, A, Onyike, CU, Ducharme, S, Papageorgiou, SG, Ng, ASL, Brodtmann, A, Finger, E, Guerreiro, R, Bras, J, Rohrer, JD, Heller, C, Convery, R, Woollacott, IOC, Shafei, R, Graff-Radford, J, Jones, DT, Dheel, CM, Savica, R, Lapid, MI, Baker, M, Fields, JA, Gavrilova, R, Domoto-Reilly, K, Poos, JM, van der Ende, EL, Panman, JL, Kaat, LD, Seelaar, H, Richardson, A, Frisoni, G, Mega, A, Fostinelli, S, Chiang, H-H, Alberici, A, Arighi, A, Fenoglio, C, Heuer, H, Miller, B, Karydas, A, Fong, J, Leitao, MJ, Santiago, B, Duro, D, Ferreira, C, Gabilondo, A, de Arriba, M, Tainta, M, Zulaica, M, Ferreira, CB, Semler, E, Ludolph, A, Landwehrmeyer, B, Volk, AE, Miltenberger, G, Verdelho, A, Afonso, S, Tartaglia, MC, Freedman, M, Rogaeva, E, Ferrari, C, Piaceri, I, Bessi, V, Lombardi, G, St-Onge, F, Dore, M-C, Bruffaerts, R, Vandenbulcke, M, Van den Stock, J, Mesulam, MM, Bigio, E, Koros, C, Papatriantafyllou, J, Kroupis, C, Stefanis, L, Shoesmith, C, Roberson, E, Coppola, G, Ramos, EMDS, Geschwind, D, Moore, KM, Nicholas, J, Grossman, M, McMillan, CT, Irwin, DJ, Massimo, L, Van Deerlin, VM, Warren, JD, Fox, NC, Rossor, MN, Mead, S, Bocchetta, M, Boeve, BF, Knopman, DS, Graff-Radford, NR, Forsberg, LK, Rademakers, R, Wszolek, ZK, van Swieten, JC, Jiskoot, LC, Meeter, LH, Dopper, EGP, Papma, JM, Snowden, JS, Saxon, J, Jones, M, Pickering-Brown, S, Le Ber, I, Camuzat, A, Brice, A, Caroppo, P, Ghidoni, R, Pievani, M, Benussi, L, Binetti, G, Dickerson, BC, Lucente, D, Krivensky, S, Graff, C, Oijerstedt, L, Fallstrom, M, Thonberg, H, Ghoshal, N, Morris, JC, Borroni, B, Benussi, A, Padovani, A, Galimberti, D, Scarpini, E, Fumagalli, GG, Mackenzie, IR, Hsiung, G-YR, Sengdy, P, Boxer, AL, Rosen, H, Taylor, JB, Synofzik, M, Wilke, C, Sulzer, P, Hodges, JR, Halliday, G, Kwok, J, Sanchez-Valle, R, Llado, A, Borrego-Ecija, S, Santana, I, Almeida, MR, Tabuas-Pereira, M, Moreno, F, Barandiaran, M, Indakoetxea, B, Levin, J, Danek, A, Rowe, JB, Cope, TE, Otto, M, Anderl-Straub, S, de Mendonca, A, Maruta, C, Masellis, M, Black, SE, Couratier, P, Lautrette, G, Huey, ED, Sorbi, S, Nacmias, B, Laforce, R, Tremblay, M-PL, Vandenberghe, R, Van Damme, P, Rogalski, EJ, Weintraub, S, Gerhard, A, Onyike, CU, Ducharme, S, Papageorgiou, SG, Ng, ASL, Brodtmann, A, Finger, E, Guerreiro, R, Bras, J, Rohrer, JD, Heller, C, Convery, R, Woollacott, IOC, Shafei, R, Graff-Radford, J, Jones, DT, Dheel, CM, Savica, R, Lapid, MI, Baker, M, Fields, JA, Gavrilova, R, Domoto-Reilly, K, Poos, JM, van der Ende, EL, Panman, JL, Kaat, LD, Seelaar, H, Richardson, A, Frisoni, G, Mega, A, Fostinelli, S, Chiang, H-H, Alberici, A, Arighi, A, Fenoglio, C, Heuer, H, Miller, B, Karydas, A, Fong, J, Leitao, MJ, Santiago, B, Duro, D, Ferreira, C, Gabilondo, A, de Arriba, M, Tainta, M, Zulaica, M, Ferreira, CB, Semler, E, Ludolph, A, Landwehrmeyer, B, Volk, AE, Miltenberger, G, Verdelho, A, Afonso, S, Tartaglia, MC, Freedman, M, Rogaeva, E, Ferrari, C, Piaceri, I, Bessi, V, Lombardi, G, St-Onge, F, Dore, M-C, Bruffaerts, R, Vandenbulcke, M, Van den Stock, J, Mesulam, MM, Bigio, E, Koros, C, Papatriantafyllou, J, Kroupis, C, Stefanis, L, Shoesmith, C, Roberson, E, Coppola, G, Ramos, EMDS, and Geschwind, D

Abstract

BACKGROUND: Frontotemporal dementia is a heterogenous neurodegenerative disorder, with about a third of cases being genetic. Most of this genetic component is accounted for by mutations in GRN, MAPT, and C9orf72. In this study, we aimed to complement previous phenotypic studies by doing an international study of age at symptom onset, age at death, and disease duration in individuals with mutations in GRN, MAPT, and C9orf72. METHODS: In this international, retrospective cohort study, we collected data on age at symptom onset, age at death, and disease duration for patients with pathogenic mutations in the GRN and MAPT genes and pathological expansions in the C9orf72 gene through the Frontotemporal Dementia Prevention Initiative and from published papers. We used mixed effects models to explore differences in age at onset, age at death, and disease duration between genetic groups and individual mutations. We also assessed correlations between the age at onset and at death of each individual and the age at onset and at death of their parents and the mean age at onset and at death of their family members. Lastly, we used mixed effects models to investigate the extent to which variability in age at onset and at death could be accounted for by family membership and the specific mutation carried. FINDINGS: Data were available from 3403 individuals from 1492 families: 1433 with C9orf72 expansions (755 families), 1179 with GRN mutations (483 families, 130 different mutations), and 791 with MAPT mutations (254 families, 67 different mutations). Mean age at symptom onset and at death was 49·5 years (SD 10·0; onset) and 58·5 years (11·3; death) in the MAPT group, 58·2 years (9·8; onset) and 65·3 years (10·9; death) in the C9orf72 group, and 61·3 years (8·8; onset) and 68·8 years (9·7; death) in the GRN group. Mean disease duration was 6·4 years (SD 4·9) in the C9orf72 group, 7·1 years (3·9) in the GRN group, and 9·3 years (6·4) in the MAPT group. Individual age at onset and at

Published

2020

27. A European Academy of Neurology guideline on medical management issues in dementia

Author

Frederiksen, K. S., Cooper, C., Frisoni, G. B., Frölich, L., Georges, J., Kramberger, M. G., Nilsson, C., Passmore, P., Mantoan Ritter, L., Religa, D., Schmidt, R., Stefanova, E., Verdelho, A., Vandenbulcke, M., Winblad, B., Waldemar, G., Frederiksen, K. S., Cooper, C., Frisoni, G. B., Frölich, L., Georges, J., Kramberger, M. G., Nilsson, C., Passmore, P., Mantoan Ritter, L., Religa, D., Schmidt, R., Stefanova, E., Verdelho, A., Vandenbulcke, M., Winblad, B., and Waldemar, G.

Abstract

Background and purpose: Dementia is one of the most common disorders and is associated with increased morbidity, mortality and decreased quality of life. The present guideline addresses important medical management issues including systematic medical follow-up, vascular risk factors in dementia, pain in dementia, use of antipsychotics in dementia and epilepsy in dementia. Methods: A systematic review of the literature was carried out. Based on the Grading of Recommendations, Assessment, Development and Evaluations (GRADE) framework, we developed a guideline. Where recommendations based on GRADE were not possible, a good practice statement was formulated. Results: Systematic management of vascular risk factors should be performed in patients with mild to moderate dementia as prevention of cerebrovascular pathology may impact on the progression of dementia (Good Practice statement). Individuals with dementia (without previous stroke) and atrial fibrillation should be treated with anticoagulants (weak recommendation). Discontinuation of opioids should be considered in certain individuals with dementia (e.g. for whom there are no signs or symptoms of pain or no clear indication, or suspicion of side effects; Good Practice statement). Behavioral symptoms in persons with dementia should not be treated with mild analgesics (weak recommendation). In all patients with dementia treated with opioids, assessment of the individual risk–benefit ratio should be performed at regular intervals. Regular, preplanned medical follow-up should be offered to all patients with dementia. The setting will depend on the organization of local health services and should, as a minimum, include general practitioners with easy access to dementia specialists (Good Practice statement). Individuals with dementia and agitation and/or aggression should be treated with atypical antipsychotics only after all non-pharmacological measures have been proven to be without benefit or in the case of severe s

Published

2020

28. Social cognition impairment in genetic frontotemporal dementia within the GENFI cohort

Author

Russell, LL, Greaves, CV, Bocchetta, M, Nicholas, J, Convery, RS, Moore, K, Cash, DM, van Swieten, J.C., Jiskoot, Lize, Moreno, F, Sanchez-Valle, R, Borroni, B, Laforce, R, Jr, Masellis, M, Tartaglia, MC, Graff, C, Rotondo, E, Galimberti, D, Rowe, JB, Finger, E, Synofzik, M, Vandenberghe, R, Mendonça, A, Tagliavini, F, Santana, I, Ducharme, S, Butler, C, Gerhard, A, Levin, J, Danek, A, Otto, M, Warren, JD, Rohrer, JD, Rossor, MN, Fox, NC, Woollacott, IOC, Shafei, R, Heller, C, Guerreiro, R, Bras, J, Thomas, DL, Mead, S, Meeter, Lieke, Panman, J, Papma, J, Poos, J, van Minkelen, Rick, Al Pijnenburg, Y, Barandiaran, M, Indakoetxea, B, Gabilondo, A, Tainta, M, de Arriba, M, Gorostidi, A, Zulaica, M, Villanua, J, Diaz, Z, Borrego-Ecija, S, Olives, J, Lladó, A, Balasa, M, Antonell, A, Bargallo, N, Premi, E, Cosseddu Mpsych, M, Gazzina, S, Padovani, A, Gasparotti, R, Archetti, S, Black, S, Mitchell, S, Rogaeva, E, Freedman, M, Keren, R, Tang-Wai, D, Öijerstedt, L, Andersson, C, Jelic, V, Thonberg, H, Arighi, A, Fenoglio, C, Scarpini, E, Fumagalli, G, Cope, T, Timberlake, C, Rittman, T, Shoesmith, C, Bartha, R, Rademakers, R, Wilke, C, Karnarth, HO, Bender, B, Bruffaerts, R, Vandamme, P, Vandenbulcke, M, Ferreira, CB, Miltenberger, G, Maruta Mpsych, C, Verdelho, A, Afonso, S, Taipa, R, Caroppo, P, Di Fede, G, Giaccone, G, Muscio, C, Prioni, S, Redaelli, V, Rossi, G, Tiraboschi, P, Duro Npsych, D, Almeida, M R, Castelo-Branco, M, Leitão, MJ, Tabuas-Pereira, M, Santiago, B, Gauthier, S, Rosa-Neto, P, Veldsman, M, Thompson, P, Langheinrich, T, Prix, C, Hoegen, T, Wlasich, E, Loosli, S, Schonecker, S, Semler, E, Anderl-Straub, S, Russell, LL, Greaves, CV, Bocchetta, M, Nicholas, J, Convery, RS, Moore, K, Cash, DM, van Swieten, J.C., Jiskoot, Lize, Moreno, F, Sanchez-Valle, R, Borroni, B, Laforce, R, Jr, Masellis, M, Tartaglia, MC, Graff, C, Rotondo, E, Galimberti, D, Rowe, JB, Finger, E, Synofzik, M, Vandenberghe, R, Mendonça, A, Tagliavini, F, Santana, I, Ducharme, S, Butler, C, Gerhard, A, Levin, J, Danek, A, Otto, M, Warren, JD, Rohrer, JD, Rossor, MN, Fox, NC, Woollacott, IOC, Shafei, R, Heller, C, Guerreiro, R, Bras, J, Thomas, DL, Mead, S, Meeter, Lieke, Panman, J, Papma, J, Poos, J, van Minkelen, Rick, Al Pijnenburg, Y, Barandiaran, M, Indakoetxea, B, Gabilondo, A, Tainta, M, de Arriba, M, Gorostidi, A, Zulaica, M, Villanua, J, Diaz, Z, Borrego-Ecija, S, Olives, J, Lladó, A, Balasa, M, Antonell, A, Bargallo, N, Premi, E, Cosseddu Mpsych, M, Gazzina, S, Padovani, A, Gasparotti, R, Archetti, S, Black, S, Mitchell, S, Rogaeva, E, Freedman, M, Keren, R, Tang-Wai, D, Öijerstedt, L, Andersson, C, Jelic, V, Thonberg, H, Arighi, A, Fenoglio, C, Scarpini, E, Fumagalli, G, Cope, T, Timberlake, C, Rittman, T, Shoesmith, C, Bartha, R, Rademakers, R, Wilke, C, Karnarth, HO, Bender, B, Bruffaerts, R, Vandamme, P, Vandenbulcke, M, Ferreira, CB, Miltenberger, G, Maruta Mpsych, C, Verdelho, A, Afonso, S, Taipa, R, Caroppo, P, Di Fede, G, Giaccone, G, Muscio, C, Prioni, S, Redaelli, V, Rossi, G, Tiraboschi, P, Duro Npsych, D, Almeida, M R, Castelo-Branco, M, Leitão, MJ, Tabuas-Pereira, M, Santiago, B, Gauthier, S, Rosa-Neto, P, Veldsman, M, Thompson, P, Langheinrich, T, Prix, C, Hoegen, T, Wlasich, E, Loosli, S, Schonecker, S, Semler, E, and Anderl-Straub, S

Published

2020

29. Attentional responses to unattended stimuli in human parietal cortex

Author

Vandenberghe, R., Geeraerts, S., Molenberghs, P., Lafosse, C., Vandenbulcke, M., Peeters, K., Peeters, R., Van Hecke, P., and Orban, G. A.

Published

2005

30. Right anterior temporal activity during word and picture semantics in primary progressive aphasia: SC304

Author

Vandenberghe, R. R., Vandenbulcke, M., Peeters, R., Porke, K., and Vanhecke, P.

Published

2004

31. Psychotrauma- en stressorgerelateerde stoornissen

Author

Zelst, W.H. van, Hendriks, G.J., Oude Voshaar, R.C., Oude Voshaar, R., Mast, R. van der, Stek, M., Verhey, F., Vandenbulcke, M., Oude Voshaar, R., Mast, R. van der, Stek, M., Verhey, F., Vandenbulcke, M., Interdisciplinair Centrum voor Psychopathologie en Emotieregulatie, and Clinical Cognitive Neuropsychiatry Research Program (CCNP)

Subjects

Experimental Psychopathology and Treatment

Abstract

Item does not contain fulltext

Published

2018

32. P.406 Hippocampal volume increase in electroconvulsive therapy is independent of amyloid deposition in late-life depression

Author

Laroy, M., primary, Emsell, L., additional, Vansteelandt, K., additional, De Winter, F.L., additional, Dols, A., additional, Stek, M., additional, Sienaert, P., additional, Vandenbulcke, M., additional, and Bouckaert, F., additional

Published

2020

33. P.301 Hippocampal subfield volumetric changes following electroconvulsive therapy in patients with late-life depression

Author

Laroy, M., primary, Emsell, L., additional, Germann, J., additional, Dols, A., additional, Stek, M., additional, Chakravarty, M.M., additional, Sienaert, P., additional, Vandenbulcke, M., additional, and Bouckaert, F., additional

Published

2019

34. Association between hippocampal volume change and change in memory following electroconvulsive therapy in late‐life depression

Author

Laroy, M., primary, Bouckaert, F., additional, Vansteelandt, K., additional, Obbels, J., additional, Dols, A., additional, Emsell, L., additional, Stek, M., additional, Vandenbulcke, M., additional, and Sienaert, P., additional

Published

2019

35. Angststoornissen

Author

Hendriks, G.J., Zelst, W.H. van, Oude Voshaar, R.C., Oude Voshaar, R., Mast, R. van der, Stek, M., Verhey, F., and Vandenbulcke, M.

Published

2018

36. Persoonlijkheidsonderzoek bij ouderen

Author

Videler, A.C., van Dijk, S.D.M., Wilting, R.M.H.J., Oude Voshaar, R., van der Mast, R., Stek, M., Verhey, F., Vandenbulcke, M., Geestelijke Gezondheidszorg, and Tranzo, Scientific center for care and wellbeing

Published

2018

37. Mild cognitive impairment and sedentary behavior: A multinational study

Author

Vancampfort D, Stubbs B, Lara E, Vandenbulcke M, Swinnen N, Smith L, Firth J, Herring MP, Hallgren M, and Koyanagi A

Subjects

Sedentary, mental disorders, Sitting, Mild cognitive impairment, Dementia

Abstract

BACKGROUND: Sedentary behavior (SB) is associated with poor cognitive performance. However, the contribution of sedentary time to risk of mild cognitive impairment (MCI) remains unclear. This study assessed the association of SB with MCI in six low- and middle-income countries. METHODS: The Study on Global Ageing and Adult Health (SAGE) survey included 34,129 adults aged =50?years [mean (SD) age 62.1 (15.6) years; 51.7% females]. SB was self-reported and expressed as a categorical variable [

Published

2018

38. Neurobiologische ontwikkelingsstoornissen

Author

Geurts, H., Meeusen, R., Oud Voshaar, R., van der Mast, R., Stek, M., Verhey, F., Vandenbulcke, M., and Brein en Cognitie (Psychologie, FMG)

Published

2018

39. ResPECT - een decennium Vlaams-Nederlands onderzoek naar elektroconvulsietherapie

Author

Sienaert, P., Stek, M. L., Comijs, H., De Winter, F. L., Dols, A., Eikelenboom, P., Emsell, L., Kho, K. H., Kok, R. M., Obbels, J., Oudega, M. L., Rhebergen, D., Vandenbulcke, M., Van Den Heuvel, O. A., Van Exel, E., Vansteelandt, K., Verwijk, E., Bouckaert, F., and Spaans, H. P.

Subjects

behavioral disciplines and activities

Abstract

BACKGROUND There is increasing clinical and scientific interest in electroconvulsive therapy (ECT). AIM To provideanoverviewofthe main research findingsofthe Flemish-Dutch research consortium ResPECT. METHOD We report on our review of the relevant literature. RESULTS Our studies confirm that ECT is one of the most efficient treatments for depression in later life and for depression with psychotic features. Older people with age-related brain pathology can respond well to ECT. It is still preferable to apply a standard pulse-width because this increases the efficacy of the treatment and minimises the cognitive impact. Even vulnerable older people can react favourably to ECT. CONCLUSION Recent findings of the ResPECT consortium are providing new insights that are applicable in daily clinical practice. Research into mechanisms of action can also increase our understanding of the pathophysiology of severe depression.

Published

2017

40. Long-term neurocognitive functioning after electroconvulsive therapy in patients with late-life depression

Author

Obbels, J., primary, Verwijk, E., additional, Vansteelandt, K., additional, Dols, A., additional, Bouckaert, F., additional, Schouws, S., additional, Vandenbulcke, M., additional, Emsell, L., additional, Stek, M., additional, and Sienaert, P., additional

Published

2018

41. The course of apathy in late-life depression treated with electroconvulsive therapy; a prospective cohort study

Author

Carlier, A., primary, van Exel, E., additional, Dols, A., additional, Bouckaert, F., additional, Sienaert, P., additional, ten Kate, M., additional, Wattjes, M.P., additional, Vandenbulcke, M., additional, Stek, M.L., additional, and Rhebergen, D., additional

Published

2018

42. Angststoornissen

Author

Oude Voshaar, R., Mast, R. van der, Stek, M., Verhey, F., Vandenbulcke, M., Hendriks, G.J., Zelst, W.H. van, Oude Voshaar, R.C., Oude Voshaar, R., Mast, R. van der, Stek, M., Verhey, F., Vandenbulcke, M., Hendriks, G.J., Zelst, W.H. van, and Oude Voshaar, R.C.

Abstract

Item does not contain fulltext

Published

2018

43. Volume of the Human Hippocampus and Clinical Response Following Electroconvulsive Therapy

Author

Oltedal, L., Narr, K.L., Abbott, C., Anand, A., Argyelan, M., Bartsch, H., Dannlowski, U., Dols, A., Eijndhoven, P.F. van, Emsell, L., Erchinger, V.J., Espinoza, R., Hahn, T., Hanson, L.G., Hellemann, G., Jorgensen, M.B., Kessler, U., Oudega, M.L., Paulson, O.B., Redlich, R., Sienaert, P., Stek, M.L., Tendolkar, I., Vandenbulcke, M., Oedegaard, K.J., Dale, A.M., Oltedal, L., Narr, K.L., Abbott, C., Anand, A., Argyelan, M., Bartsch, H., Dannlowski, U., Dols, A., Eijndhoven, P.F. van, Emsell, L., Erchinger, V.J., Espinoza, R., Hahn, T., Hanson, L.G., Hellemann, G., Jorgensen, M.B., Kessler, U., Oudega, M.L., Paulson, O.B., Redlich, R., Sienaert, P., Stek, M.L., Tendolkar, I., Vandenbulcke, M., Oedegaard, K.J., and Dale, A.M.

Abstract

Contains fulltext : 196725.pdf (publisher's version ) (Open Access), BACKGROUND: Hippocampal enlargements are commonly reported after electroconvulsive therapy (ECT). To clarify mechanisms, we examined if ECT-induced hippocampal volume change relates to dose (number of ECT sessions and electrode placement) and acts as a biomarker of clinical outcome. METHODS: Longitudinal neuroimaging and clinical data from 10 independent sites participating in the Global ECT-Magnetic Resonance Imaging Research Collaboration (GEMRIC) were obtained for mega-analysis. Hippocampal volumes were extracted from structural magnetic resonance images, acquired before and after patients (n = 281) experiencing a major depressive episode completed an ECT treatment series using right unilateral and bilateral stimulation. Untreated nondepressed control subjects (n = 95) were scanned twice. RESULTS: The linear component of hippocampal volume change was 0.28% (SE 0.08) per ECT session (p < .001). Volume change varied by electrode placement in the left hippocampus (bilateral, 3.3 +/- 2.2%, d = 1.5; right unilateral, 1.6 +/- 2.1%, d = 0.8; p < .0001) but not the right hippocampus (bilateral, 3.0 +/- 1.7%, d = 1.8; right unilateral, 2.7 +/- 2.0%, d = 1.4; p = .36). Volume change for electrode placement per ECT session varied similarly by hemisphere. Individuals with greater treatment-related volume increases had poorer outcomes (Montgomery-Asberg Depression Rating Scale change -1.0 [SE 0.35], per 1% volume increase, p = .005), although the effects were not significant after controlling for ECT number (slope -0.69 [SE 0.38], p = .069). CONCLUSIONS: The number of ECT sessions and electrode placement impacts the extent and laterality of hippocampal enlargement, but volume change is not positively associated with clinical outcome. The results suggest that the high efficacy of ECT is not explained by hippocampal enlargement, which alone might not serve as a viable biomarker for treatment outcome.

Published

2018

44. Psychotrauma- en stressorgerelateerde stoornissen

Author

Oude Voshaar, R., Mast, R. van der, Stek, M., Verhey, F., Vandenbulcke, M., Zelst, W.H. van, Hendriks, G.J., Oude Voshaar, R.C., Oude Voshaar, R., Mast, R. van der, Stek, M., Verhey, F., Vandenbulcke, M., Zelst, W.H. van, Hendriks, G.J., and Oude Voshaar, R.C.

Abstract

Item does not contain fulltext

Published

2018

45. Unraveling the genetic role of SORT1 in the Belgian frontotemporal dementia population

Author

Philtjens, S., Wauters, E., Mossevelde, S., Zee, J., Langenhove, T., Engelborghs, S., Vandenbulcke, M., Versteven, M., Peeters, K., Mattheijssens, M., Den Broeck, M., Cras, P., Rik Vandenberghe, Deyn, P. P., Cruts, M., Broeckhoven, C., Clinical sciences, and Neurology

Subjects

Medicine(all), Belgium, frontotemporal dementia, SORT1

Published

2016

46. Transcriptome analysis in FTD patients: genes, pathways and networks

Author

Coster, W., Mossevelde, S., Engelborghs, S., Vandenbulcke, M., Mateiu, L., Mattheijssens, M., Peeters, K., Vandenberghe, R., Cras, P., Deyn, P. P., Cruts, M., Christine Van Broeckhoven, Clinical sciences, Neurology, and Pathologic Biochemistry and Physiology

Subjects

Medicine(all), FTD patients

Published

2016

47. Exploring resting state connectivity in ECT patients with psychotic depression

Author

Oudega, M., primary, van der Werf, Y.D., additional, Dols, A., additional, Boeckaert, F., additional, Vandenbulcke, M., additional, Sienaert, P., additional, Stek, M.L., additional, Rhebergen, D., additional, van den Heuvel, O.A., additional, and van Exel, E., additional

Published

2017

48. Early and late onset depression in late life: a prospective study on clinical and structural brain characteristics and response to electroconvulsive therapy

Author

Dols, A., primary, Boeckaert, F., additional, Sienaert, P., additional, Rhebergen, D., additional, Comijs, H.C., additional, Oudega, M., additional, van Exel, E., additional, Vandenbulcke, M., additional, and Stek, M.L., additional

Published

2017

49. The Identification of High-Penetrant Loss-of-Function Mutations in ABCA7 in Alzheimer’s Disease

Author

Cuyvers, E., De Roeck, A., Van den Bossche, T., Van Cauwenberghe, C., Bettens, K., Vermeulen, S., Mattheijssens, M., Peeters, K, Engelborghs, Sebastiaan, Vandenbulcke, M., Vandenberghe, R., De Deyn, P.p., Van Broeckhoven, C., Sleegers, K., Clinical sciences, and Neurology

Subjects

Medicine(all), Alzheimer's disease

Published

2015

50. Rare Variants in PLD3 do Not Increase Risk in a Belgian Cohort of Early-Onset Alzheimer Dementia Patients

Author

Cacace, R., Van den Bossche, T., Engelborghs, Sebastiaan, Vandenbulcke, M., Vandenberghe, R., De Deyn, P.p., Cras, P., Sleegers, K., Van Broeckhoven, C., Clinical sciences, and Neurology

Subjects

Medicine(all), Blood, CSF

Published

2015