Zobrazeno 1 - 10
of 32
pro vyhledávání: '"Marc Thioux"'
Publikováno v:
Brain Sciences, Vol 14, Iss 7, p 726 (2024)
Recent evidence suggests a connection between hyperacusis and the motor system of the brain. For instance, our recent study reported that hyperacusis in participants with tinnitus and hearing loss is associated with smaller gray matter volumes in the
Externí odkaz:
https://doaj.org/article/b870090f39b44322a168001a1b9d0020
Publikováno v:
Brain Sciences, Vol 14, Iss 6, p 544 (2024)
Tinnitus is a common phantom auditory percept believed to be related to plastic changes in the brain due to hearing loss. However, tinnitus can also occur in the absence of any clinical hearing loss. In this case, since there is no hearing loss, the
Externí odkaz:
https://doaj.org/article/fb1cc44211234692849da37a1b38efbf
Publikováno v:
NeuroImage: Clinical, Vol 38, Iss , Pp 103425- (2023)
Hyperacusis is a disorder in loudness perception characterized by increased sensitivity to ordinary environmental sounds and associated with otologic conditions, including hearing loss and tinnitus (the phantom perception of sound) as well as neurolo
Externí odkaz:
https://doaj.org/article/2e36ce16b1ae42f99261900e2245b96f
Autor:
Steve C.N. Hui, Mark Mikkelsen, Helge J. Zöllner, Vishwadeep Ahluwalia, Sarael Alcauter, Laima Baltusis, Deborah A. Barany, Laura R. Barlow, Robert Becker, Jeffrey I. Berman, Adam Berrington, Pallab K. Bhattacharyya, Jakob Udby Blicher, Wolfgang Bogner, Mark S. Brown, Vince D. Calhoun, Ryan Castillo, Kim M. Cecil, Yeo Bi Choi, Winnie C.W. Chu, William T. Clarke, Alexander R. Craven, Koen Cuypers, Michael Dacko, Camilo de la Fuente-Sandoval, Patricia Desmond, Aleksandra Domagalik, Julien Dumont, Niall W. Duncan, Ulrike Dydak, Katherine Dyke, David A. Edmondson, Gabriele Ende, Lars Ersland, C. John Evans, Alan S.R. Fermin, Antonio Ferretti, Ariane Fillmer, Tao Gong, Ian Greenhouse, James T. Grist, Meng Gu, Ashley D. Harris, Katarzyna Hat, Stefanie Heba, Eva Heckova, John P. Hegarty, II, Kirstin-Friederike Heise, Shiori Honda, Aaron Jacobson, Jacobus F.A. Jansen, Christopher W. Jenkins, Stephen J. Johnston, Christoph Juchem, Alayar Kangarlu, Adam B. Kerr, Karl Landheer, Thomas Lange, Phil Lee, Swati Rane Levendovszky, Catherine Limperopoulos, Feng Liu, William Lloyd, David J. Lythgoe, Maro G. Machizawa, Erin L. MacMillan, Richard J. Maddock, Andrei V. Manzhurtsev, María L. Martinez-Gudino, Jack J. Miller, Heline Mirzakhanian, Marta Moreno-Ortega, Paul G. Mullins, Shinichiro Nakajima, Jamie Near, Ralph Noeske, Wibeke Nordhøy, Georg Oeltzschner, Raul Osorio-Duran, Maria C.G. Otaduy, Erick H. Pasaye, Ronald Peeters, Scott J. Peltier, Ulrich Pilatus, Nenad Polomac, Eric C. Porges, Subechhya Pradhan, James Joseph Prisciandaro, Nicolaas A Puts, Caroline D. Rae, Francisco Reyes-Madrigal, Timothy P.L. Roberts, Caroline E. Robertson, Jens T. Rosenberg, Diana-Georgiana Rotaru, Ruth L O'Gorman Tuura, Muhammad G. Saleh, Kristian Sandberg, Ryan Sangill, Keith Schembri, Anouk Schrantee, Natalia A. Semenova, Debra Singel, Rouslan Sitnikov, Jolinda Smith, Yulu Song, Craig Stark, Diederick Stoffers, Stephan P. Swinnen, Rongwen Tain, Costin Tanase, Sofie Tapper, Martin Tegenthoff, Thomas Thiel, Marc Thioux, Peter Truong, Pim van Dijk, Nolan Vella, Rishma Vidyasagar, Andrej Vovk, Guangbin Wang, Lars T. Westlye, Timothy K. Wilbur, William R. Willoughby, Martin Wilson, Hans-Jörg Wittsack, Adam J. Woods, Yen-Chien Wu, Junqian Xu, Maria Yanez Lopez, David K.W. Yeung, Qun Zhao, Xiaopeng Zhou, Gasper Zupan, Richard A.E. Edden
Publikováno v:
NeuroImage, Vol 241, Iss , Pp 118430- (2021)
Purpose: Heating of gradient coils and passive shim components is a common cause of instability in the B0 field, especially when gradient intensive sequences are used. The aim of the study was to set a benchmark for typical drift encountered during M
Externí odkaz:
https://doaj.org/article/48f8d08362cc4df585976e00c9c0c63f
Publikováno v:
Brain Sciences, Vol 12, Iss 9, p 1192 (2022)
Previous voxel-based morphometry (VBM) studies investigating tinnitus have reported structural differences in a variety of spatially distinct gray matter regions. However, the results have been highly inconsistent and sometimes contradictory. In the
Externí odkaz:
https://doaj.org/article/ee215e9d31a14a56ab385efa704355ba
Publikováno v:
Brain Sciences; Volume 12; Issue 9; Pages: 1192
Brain Sciences, 12(9):1192. MDPI AG
Brain Sciences, 12(9):1192. MDPI AG
Previous voxel-based morphometry (VBM) studies investigating tinnitus have reported structural differences in a variety of spatially distinct gray matter regions. However, the results have been highly inconsistent and sometimes contradictory. In the
Autor:
Helge J. Zöllner, Pallab K. Bhattacharyya, Feng Liu, Camilo de la Fuente-Sandoval, Debra Singel, Nolan Vella, Vince D. Calhoun, Peter Truong, Ruth O'Gorman Tuura, Timothy K. Wilbur, Anouk Schrantee, Heline Mirzakhanian, Natalia Semenova, Shinichiro Nakajima, Kim M. Cecil, Katarzyna Hat, Catherine Limperopoulos, A Fillmer, Eric C. Porges, William T. Clarke, Christopher Jenkins, Koen Cuypers, Ronald Peeters, Xiaopeng Zhou, Yulu Song, James J. Prisciandaro, Muhammad G. Saleh, Craig E.L. Stark, Aleksandra Domagalik, Erin L. MacMillan, Stephen J. Johnston, Laima Baltusis, Stephan P. Swinnen, Laura Barlow, David J. Lythgoe, Jamie Near, Diederick Stoffers, Julien Dumont, Jeffrey I. Berman, Rishma Vidyasagar, Caroline Rae, A. V. Manzhurtsev, Robert Becker, María L. Martinez-Gudino, Stefanie Heba, Richard J. Maddock, Qun Zhao, Ian Greenhouse, Wibeke Nordhøy, Adam J. Woods, Deborah A. Barany, Mark Mikkelsen, Nicolaas A.J. Puts, David A. Edmondson, Sofie Tapper, Lars Ersland, Pim van Dijk, Jolinda Smith, Niall W. Duncan, Kirstin Heise, Junqian Xu, Costin Tanase, Tao Gong, William Lloyd, Ralph Noeske, Karl Landheer, Antonio Ferretti, Paul G. Mullins, Jacobus F.A. Jansen, Shiori Honda, Maria Yanez Lopez, Meng Gu, John P. Hegarty, Jack J. Miller, Thomas Thiel, Vishwadeep Ahluwalia, Patricia Desmond, Maro G. Machizawa, Jakob Udby Blicher, James T. Grist, Hans Jörg Wittsack, C. John Evans, Eva Heckova, Timothy P.L. Roberts, Martin Tegenthoff, Alayar Kangarlu, Ulrike Dydak, David K.W. Yeung, Diana Georgiana Rotaru, Lars T. Westlye, Jens T. Rosenberg, Adam Berrington, Francisco Reyes-Madrigal, Georg Oeltzschner, Richard A.E. Edden, Scott Peltier, Ashley D. Harris, Yeo Bi Choi, Marc Thioux, Mark S. Brown, Ulrich Pilatus, Marta Moreno-Ortega, Michael Dacko, Keith Schembri, Gabriele Ende, Guangbin Wang, Winnie C.W. Chu, Martin Wilson, Adam B. Kerr, Ryan Sangill, Alexander R. Craven, Rouslan Sitnikov, Kristian Sandberg, Katherine Dyke, Erick H. Pasaye, Swati Rane Levendovszky, Steve C.N. Hui, Yen Chien Wu, Rong-Wen Tain, Maria Concepcion Garcia Otaduy, Phil Lee, Andrej Vovk, Wolfgang Bogner, Gasper Zupan, Raul Osorio-Duran, Sarael Alcauter, Ryan Castillo, W. R. Willoughby, Christoph Juchem, Subechhya Pradhan, Caroline E. Robertson, Thomas Lange, Aaron Jacobson, Nenad Polomac, Alan S.R. Fermin
Publikováno v:
NeuroImage, 241. Academic Press
Neuroimage, 241:118430. ACADEMIC PRESS INC ELSEVIER SCIENCE
NeuroImage, 241:118430. Academic Press Inc.
Hui, S C N, Mikkelsen, M, Zöllner, H J, Ahluwalia, V, Alcauter, S, Baltusis, L, Barany, D A, Barlow, L R, Becker, R, Berman, J I, Berrington, A, Bhattacharyya, P K, Blicher, J U, Bogner, W, Brown, M S, Calhoun, V D, Castillo, R, Cecil, K M, Choi, Y B, Chu, W C W, Clarke, W T, Craven, A R, Cuypers, K, Dacko, M, de la Fuente-Sandoval, C, Desmond, P, Domagalik, A, Dumont, J, Duncan, N W, Dydak, U, Dyke, K, Edmondson, D A, Ende, G, Ersland, L, Evans, C J, Fermin, A S R, Ferretti, A, Fillmer, A, Gong, T, Greenhouse, I, Grist, J T, Gu, M, Harris, A D, Hat, K, Heba, S, Heckova, E, Hegarty, J P, Heise, K F, Honda, S, Jacobson, A, Jansen, J F A, Johnston, S J, Jenkins, C W, Juchem, C, Kangarlu, A, Kerr, A B, Landheer, K, Lange, T, Lee, P, Levendovszky, S R, Limperopoulos, C, Liu, F, Lloyd, W, Lythgoe, D J, Machizawa, M G, MacMillan, E L, Maddock, R J, Manzhurtsev, A V, Martinez-Gudino, M L, Miller, J J, Mirzakhanian, H, Moreno-Ortega, M, Mullins, P G, Nakajima, S L, Near, J, Noeske, R, Nordhøy, W, Oeltzschner, G, Osorio-Duran, R, Otaduy, M C G, Pasaye, E H, Peeters, R, Peltier, S J, Pilatus, U, Polomac, N, Porges, E C, Pradhan, S, Prisciandaro, J J, Puts, N A, Rae, C D, Reyes-Madrigal, F, Roberts, T P L, Robertson, C E, Rosenberg, J T, Rotaru, D G, O'Gorman Tuura, R L, Saleh, M G, Sandberg, K, Sangill, R, Schembri, K, Schrantee, A, Semenova, N A, Singel, D, Sitnikov, R, Smith, J, Song, Y, Stark, C, Stoffers, D, Swinnen, S P, Tain, R, Tanase, C, Tapper, S, Tegenthoff, M, Thiel, T, Thioux, M, Truong, P, van Dijk, P, Vella, N, Vidyasagar, R, Vovk, A, Wang, G, Westlye, L T, Wilbur, T K, Willoughby, W R, Wilson, M, Wittsack, H J, Woods, A J, Wu, Y C, Xu, J, Lopez, M Y, Yeung, D K W, Zhao, Q, Zhou, X, Zupan, G & Edden, R A E 2021, ' Frequency drift in MR spectroscopy at 3T ', NeuroImage, vol. 241, 118430 . https://doi.org/10.1016/j.neuroimage.2021.118430
NeuroImage
NeuroImage, Vol 241, Iss, Pp 118430-(2021)
Neuroimage
Neuroimage, 241:118430. Elsevier Science
Neuroimage, 241:118430. ACADEMIC PRESS INC ELSEVIER SCIENCE
NeuroImage, 241:118430. Academic Press Inc.
Hui, S C N, Mikkelsen, M, Zöllner, H J, Ahluwalia, V, Alcauter, S, Baltusis, L, Barany, D A, Barlow, L R, Becker, R, Berman, J I, Berrington, A, Bhattacharyya, P K, Blicher, J U, Bogner, W, Brown, M S, Calhoun, V D, Castillo, R, Cecil, K M, Choi, Y B, Chu, W C W, Clarke, W T, Craven, A R, Cuypers, K, Dacko, M, de la Fuente-Sandoval, C, Desmond, P, Domagalik, A, Dumont, J, Duncan, N W, Dydak, U, Dyke, K, Edmondson, D A, Ende, G, Ersland, L, Evans, C J, Fermin, A S R, Ferretti, A, Fillmer, A, Gong, T, Greenhouse, I, Grist, J T, Gu, M, Harris, A D, Hat, K, Heba, S, Heckova, E, Hegarty, J P, Heise, K F, Honda, S, Jacobson, A, Jansen, J F A, Johnston, S J, Jenkins, C W, Juchem, C, Kangarlu, A, Kerr, A B, Landheer, K, Lange, T, Lee, P, Levendovszky, S R, Limperopoulos, C, Liu, F, Lloyd, W, Lythgoe, D J, Machizawa, M G, MacMillan, E L, Maddock, R J, Manzhurtsev, A V, Martinez-Gudino, M L, Miller, J J, Mirzakhanian, H, Moreno-Ortega, M, Mullins, P G, Nakajima, S L, Near, J, Noeske, R, Nordhøy, W, Oeltzschner, G, Osorio-Duran, R, Otaduy, M C G, Pasaye, E H, Peeters, R, Peltier, S J, Pilatus, U, Polomac, N, Porges, E C, Pradhan, S, Prisciandaro, J J, Puts, N A, Rae, C D, Reyes-Madrigal, F, Roberts, T P L, Robertson, C E, Rosenberg, J T, Rotaru, D G, O'Gorman Tuura, R L, Saleh, M G, Sandberg, K, Sangill, R, Schembri, K, Schrantee, A, Semenova, N A, Singel, D, Sitnikov, R, Smith, J, Song, Y, Stark, C, Stoffers, D, Swinnen, S P, Tain, R, Tanase, C, Tapper, S, Tegenthoff, M, Thiel, T, Thioux, M, Truong, P, van Dijk, P, Vella, N, Vidyasagar, R, Vovk, A, Wang, G, Westlye, L T, Wilbur, T K, Willoughby, W R, Wilson, M, Wittsack, H J, Woods, A J, Wu, Y C, Xu, J, Lopez, M Y, Yeung, D K W, Zhao, Q, Zhou, X, Zupan, G & Edden, R A E 2021, ' Frequency drift in MR spectroscopy at 3T ', NeuroImage, vol. 241, 118430 . https://doi.org/10.1016/j.neuroimage.2021.118430
NeuroImage
NeuroImage, Vol 241, Iss, Pp 118430-(2021)
Neuroimage
Neuroimage, 241:118430. Elsevier Science
Purpose Heating of gradient coils and passive shim components is a common cause of instability in the B0 field, especially when gradient intensive sequences are used. The aim of the study was to set a benchmark for typical drift encountered during MR
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::3f0176f67d3624334313dcf9c4e2bef5
https://pure.knaw.nl/portal/en/publications/7f80381b-8eed-42a1-b6e8-42e54de1b237
https://pure.knaw.nl/portal/en/publications/7f80381b-8eed-42a1-b6e8-42e54de1b237
Autor:
Remco J. Renken, Marc Thioux, Yuanyuan Xin, Katharina S. Goerlich, André Aleman, Manon van Asselt
Publikováno v:
Alzheimer's & Dementia. 16
Publikováno v:
Schizophrenia Bulletin
Background One of the most prominent deficits in schizophrenia is impairment in executive function. This impairment is associated to aberrant function of the dorso-lateral prefrontal cortex (DLPFC)(Weinberger et al. 1986) and the fronto-parietal netw
The mentalizing network and the putative mirror neuron system (pMNS) are two important large scale brain networks for social cognition, with very little overlap between them. Evidence suggests however that the two networks can collaborate for underst
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::e0e6904118b9742a5d604c739a7e30b6