Your search keyword '"Mathew Abrams"' showing total 18 results

1. Recommendations for repositories and scientific gateways from a neuroscience perspective

Author

Malin Sandström, Mathew Abrams, Jan G. Bjaalie, Mona Hicks, David N. Kennedy, Arvind Kumar, Jean-Baptiste Poline, Prasun K. Roy, Paul Tiesinga, Thomas Wachtler, and Wojtek J. Goscinski

Subjects

Science

Abstract

Digital services such as repositories and science gateways have become key resources for the neuroscience community, but users often have a hard time orienting themselves in the service landscape to find the best fit for their particular needs. INCF has developed a set of recommendations and associated criteria for choosing or setting up and running a repository or scientific gateway, intended for the neuroscience community, with a FAIR neuroscience perspective.

Published

2022

2. 26th Annual Computational Neuroscience Meeting (CNS*2017): Part 3

Author

Adam J. H. Newton, Alexandra H. Seidenstein, Robert A. McDougal, Alberto Pérez-Cervera, Gemma Huguet, Tere M-Seara, Caroline Haimerl, David Angulo-Garcia, Alessandro Torcini, Rosa Cossart, Arnaud Malvache, Kaoutar Skiker, Mounir Maouene, Gianmarco Ragognetti, Letizia Lorusso, Andrea Viggiano, Angelo Marcelli, Rosa Senatore, Antonio Parziale, S. Stramaglia, M. Pellicoro, L. Angelini, E. Amico, H. Aerts, J. Cortés, S. Laureys, D. Marinazzo, I. Bassez, L. Faes, Hannes Almgren, Adeel Razi, Frederik Van de Steen, Ruth Krebs, Hannelore Aerts, Lida Kanari, Pawel Dlotko, Martina Scolamiero, Ran Levi, Julian Shillcock, Christiaan P.J. de Kock, Kathryn Hess, Henry Markram, Cheng Ly, Gary Marsat, Tom Gillespie, Malin Sandström, Mathew Abrams, Jeffrey S. Grethe, Maryann Martone, Robin De Gernier, Sergio Solinas, Christian Rössert, Marc Haelterman, Serge Massar, Valentina Pasquale, Vito Paolo Pastore, Sergio Martinoia, Paolo Massobrio, Cristiano Capone, Núria Tort-Colet, Maria V. Sanchez-Vives, Maurizio Mattia, Ali Almasi, Shaun L. Cloherty, David B. Grayden, Yan T. Wong, Michael R. Ibbotson, Hamish Meffin, Luke Y. Prince, Krasimira Tsaneva-Atanasova, Jack R. Mellor, Alberto Mazzoni, Manuela Rosa, Jacopo Carpaneto, Luigi M. Romito, Alberto Priori, Silvestro Micera, Rosanna Migliore, Carmen Alina Lupascu, Francesco Franchina, Luca Leonardo Bologna, Armando Romani, Sára Saray, Werner Van Geit, Szabolcs Káli, Alex Thomson, Audrey Mercer, Sigrun Lange, Joanne Falck, Eilif Muller, Felix Schürmann, Dmitrii Todorov, Robert Capps, William Barnett, Yaroslav Molkov, Federico Devalle, Diego Pazó, Ernest Montbrió, Gabriela Mochol, Habiba Azab, Benjamin Y. Hayden, Rubén Moreno-Bote, Pragathi Priyadharsini Balasubramani, Srinivasa V. Chakravarthy, Vignayanandam R. Muddapu, Medorian D. Gheorghiu, Bartul Mimica, Jonathan Withlock, Raul C. Mureșan, Jennifer L. Zick, Kelsey Schultz, Rachael K. Blackman, Matthew V. Chafee, Theoden I. Netoff, Nicholas Roberts, Vivek Nagaraj, Andrew Lamperski, Logan L. Grado, Matthew D. Johnson, David P. Darrow, Davide Lonardoni, Hayder Amin, Stefano Di Marco, Alessandro Maccione, Luca Berdondini, Thierry Nieus, Marcel Stimberg, Dan F. M. Goodman, Thomas Nowotny, Veronika Koren, Valentin Dragoi, Klaus Obermayer, Samy Castro, Mariano Fernandez, Wael El-Deredy, Kesheng Xu, Jean Paul Maidana, Patricio Orio, Weiliang Chen, Iain Hepburn, Francesco Casalegno, Adrien Devresse, Aleksandr Ovcharenko, Fernando Pereira, Fabien Delalondre, Erik De Schutter, Peter Bratby, Andrew R. Gallimore, Guido Klingbeil, Criseida Zamora, Yunliang Zang, Patrick Crotty, Eric Palmerduca, Alberto Antonietti, Claudia Casellato, Csaba Erö, Egidio D’Angelo, Marc-Oliver Gewaltig, Alessandra Pedrocchi, Ilja Bytschok, Dominik Dold, Johannes Schemmel, Karlheinz Meier, Mihai A. Petrovici, Hui-An Shen, Simone Carlo Surace, Jean-Pascal Pfister, Baptiste Lefebvre, Olivier Marre, Pierre Yger, Athanasia Papoutsi, Jiyoung Park, Ryan Ash, Stelios Smirnakis, Panayiota Poirazi, Richard A. Felix, Alexander G. Dimitrov, Christine Portfors, Silvia Daun, Tibor I. Toth, Joanna Jędrzejewska-Szmek, Nadine Kabbani, Kim T. Blackwel, Bahar Moezzi, Natalie Schaworonkow, Lukas Plogmacher, Mitchell R. Goldsworthy, Brenton Hordacre, Mark D. McDonnell, Nicolangelo Iannella, Michael C. Ridding, Jochen Triesch, Reinoud Maex, Karen Safaryan, Volker Steuber, Rongxiang Tang, Yi-Yuan Tang, Darya V. Verveyko, Alexey R. Brazhe, Andrey Yu Verisokin, Dmitry E. Postnov, Cengiz Günay, Gabriella Panuccio, Michele Giugliano, Astrid A. Prinz, Pablo Varona, Mikhail I. Rabinovich, Jack Denham, Thomas Ranner, Netta Cohen, Maria Reva, Nelson Rebola, Tekla Kirizs, Zoltan Nusser, David DiGregorio, Eirini Mavritsaki, Panos Rentzelas, Nikul H. Ukani, Adam Tomkins, Chung-Heng Yeh, Wesley Bruning, Allison L. Fenichel, Yiyin Zhou, Yu-Chi Huang, Dorian Florescu, Carlos Luna Ortiz, Paul Richmond, Chung-Chuan Lo, Daniel Coca, Ann-Shyn Chiang, Aurel A. Lazar, Jennifer L. Creaser, Congping Lin, Peter Ashwin, Jonathan T. Brown, Thomas Ridler, Daniel Levenstein, Brendon O. Watson, György Buzsáki, John Rinzel, Rodica Curtu, Anh Nguyen, Sahand Assadzadeh, Peter A. Robinson, Paula Sanz-Leon, Caroline G. Forlim, Lírio O. B. de Almeida, Reynaldo D. Pinto, Francisco B. Rodríguez, Ángel Lareo, Caroline Garcia Forlim, Aaron Montero, Thiago Mosqueiro, Ramon Huerta, Francisco B. Rodriguez, Vinicio Changoluisa, Vinícius L. Cordeiro, César C. Ceballos, Nilton L. Kamiji, Antonio C. Roque, William W. Lytton, Andrew Knox, Joshua J. C. Rosenthal, Svitlana Popovych, Liqing Liu, Bin A. Wang, Tibor I. Tóth, Christian Grefkes, Gereon R. Fink, Nils Rosjat, Abraham Perez-Trujillo, Andres Espinal, Marco A. Sotelo-Figueroa, Ivan Cruz-Aceves, Horacio Rostro-Gonzalez, Martin Zapotocky, Martina Hoskovcová, Jana Kopecká, Olga Ulmanová, Evžen Růžička, Matthias Gärtner, Sevil Duvarci, Jochen Roeper, Gaby Schneider, Stefan Albert, Katharina Schmack, Michiel Remme, Susanne Schreiber, Michele Migliore, Carmen A. Lupascu, Luca L. Bologna, Stefano M. Antonel, Jean-Denis Courcol, Sami Utku Çelikok, Eva M. Navarro-López, Neslihan Serap Şengör, Rahmi Elibol, Neslihan Serap Sengor, Mustafa Yasir Özdemir, Tianyi Li, Angelo Arleo, Denis Sheynikhovich, Akihiro Nakamura, Masanori Shimono, Youngjo Song, Sol Park, Ilhwan Choi, Jaeseung Jeong, Hee-sup Shin, Sadra Sadeh, Padraig Gleeson, R. Angus Silver, Alexandra Pierri Chatzikalymniou, Frances K. Skinner, Lazaro M. Sanchez-Rodriguez, Roberto C. Sotero, Loreen Hertäg, Owen Mackwood, Henning Sprekeler, Steffen Puhlmann, Simon N. Weber, David Higgins, Laura B. Naumann, Ramakrisnan Iyer, Stefan Mihalas, Valentina Ticcinelli, Tomislav Stankovski, Peter V. E. McClintock, Aneta Stefanovska, Predrag Janjić, Dimitar Solev, Gerald Seifert, Ljupčo Kocarev, Christian Steinhäuser, Mehrdad Salmasi, Stefan Glasauer, Martin Stemmler, Danke Zhang, Chi Zhang, Armen Stepanyants, Julia Goncharenko, Lieke Kros, Neil Davey, Chris de Zeeuw, Freek Hoebeek, Ankur Sinha, Roderick Adams, Michael Schmuker, Maria Psarrou, Maria Schilstra, Benjamin Torben-Nielsen, Christoph Metzner, Achim Schweikard, Tuomo Mäki-Marttunen, Bartosz Zurowski, Daniele Marinazzo, Luca Faes, Sebastiano Stramaglia, Henry O. C. Jordan, Simon M. Stringer, Elżbieta Gajewska-Dendek, Piotr Suffczyński, Nicoladie Tam, George Zouridakis, Luca Pollonini, Mojtaba Madadi Asl, Alireza Valizadeh, Peter A. Tass, Andreas Nold, Wei Fan, Sara Konrad, Heiko Endle, Johannes Vogt, Tatjana Tchumatchenko, Juliane Herpich, Christian Tetzlaff, Jannik Luboeinski, Timo Nachstedt, Manuel Ciba, Andreas Bahmer, Christiane Thielemann, Eric S. Kuebler, Joseph S. Tauskela, Jean-Philippe Thivierge, Rembrandt Bakker, María García-Amado, Marian Evangelio, Francisco Clascá, Paul Tiesinga, Christopher L. Buckley, Taro Toyoizumi, Alexis M. Dubreuil, Rémi Monasson, Alessandro Treves, Davide Spalla, Sophie Rosay, Florence I. Kleberg, Willy Wong, Bruno de Oliveira Floriano, Toshihiko Matsuo, Tetsuya Uchida, Domenica Dibenedetto, Kâmil Uludağ, Abdorreza Goodarzinick, Maximilian Schmidt, Claus C. Hilgetag, Markus Diesmann, Sacha J. van Albada, Michael Fauth, Mark van Rossum, Manuel Reyes-Sánchez, Rodrigo Amaducci, Carlos Muñiz, Irene Elices, David Arroyo, Rafael Levi, Ben Cohen, Carson Chow, Shashaank Vattikuti, Elena Bertolotti, Raffaella Burioni, Matteo di Volo, Alessandro Vezzani, Bayar Menzat, Tim P. Vogels, Nobuhiko Wagatsuma, Susmita Saha, Reena Kapoor, Robert Kerr, John Wagner, Luis C. Garcia del Molino, Guangyu Robert Yang, Jorge F. Mejias, Xiao-Jing Wang, Hanbing Song, Joseph Goodliffe, Jennifer Luebke, Christina M. Weaver, John Thomas, Nishant Sinha, Nikhita Shaju, Tomasz Maszczyk, Jing Jin, Sydney S. Cash, Justin Dauwels, M. Brandon Westover, Maryam Karimian, Michelle Moerel, Peter De Weerd, Thomas Burwick, Ronald L. Westra, Romesh Abeysuriya, Jonathan Hadida, Stamatios Sotiropoulos, Saad Jbabdi, Mark Woolrich, Chama Bensmail, Borys Wrobel, Xiaolong Zhou, Zilong Ji, Xiao Liu, Yan Xia, Si Wu, Xiao Wang, Mingsha Zhang, Netanel Ofer, Orit Shefi, Gur Yaari, Ted Carnevale, Amit Majumdar, Subhashini Sivagnanam, Kenneth Yoshimoto, Elena Y. Smirnova, Dmitry V. Amakhin, Sergey L. Malkin, Aleksey V. Zaitsev, Anton V. Chizhov, Margarita Zaleshina, Alexander Zaleshin, Victor J. Barranca, George Zhu, Quinton M. Skilling, Daniel Maruyama, Nicolette Ognjanovski, Sara J. Aton, Michal Zochowski, Jiaxing Wu, Sara Aton, Scott Rich, Victoria Booth, Maral Budak, Salvador Dura-Bernal, Samuel A. Neymotin, Benjamin A. Suter, Gordon M. G. Shepherd, Melvin A. Felton, Alfred B. Yu, David L. Boothe, Kelvin S. Oie, Piotr J. Franaszczuk, Sergey A. Shuvaev, Batuhan Başerdem, Anthony Zador, Alexei A. Koulakov, Víctor J. López-Madrona, Ernesto Pereda, Claudio R. Mirasso, Santiago Canals, Stefano Masoli, Udaya B. Rongala, Anton Spanne, Henrik Jorntell, Calogero M. Oddo, Alexander V. Vartanov, Anastasia K. Neklyudova, Stanislav A. Kozlovskiy, Andrey A. Kiselnikov, Julia A. Marakshina, Maria Teleńczuk, Bartosz Teleńczuk, Alain Destexhe, Paula T. Kuokkanen, Anna Kraemer, Thomas McColgan, Catherine E. Carr, and Richard Kempter

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurophysiology and neuropsychology, QP351-495

Published

2017

3. Interleukin-6 secretion by astrocytes is dynamically regulated by PI3K-mTOR-calcium signaling.

Author

Simone Codeluppi, Teresa Fernandez-Zafra, Katalin Sandor, Jacob Kjell, Qingsong Liu, Mathew Abrams, Lars Olson, Nathanael S Gray, Camilla I Svensson, and Per Uhlén

Subjects

Medicine, Science

Abstract

After contusion spinal cord injury (SCI), astrocytes become reactive and form a glial scar. While this reduces spreading of the damage by containing the area of injury, it inhibits regeneration. One strategy to improve the recovery after SCI is therefore to reduce the inhibitory effect of the scar, once the acute phase of the injury has passed. The pleiotropic cytokine interleukin-6 (IL-6) is secreted immediately after injury and regulates scar formation; however, little is known about the role of IL-6 in the sub-acute phases of SCI. Interestingly, IL-6 also promotes axon regeneration, and therefore its induction in reactive astrocytes may improve regeneration after SCI. We found that IL-6 is expressed by astrocytes and neurons one week post-injury and then declines. Using primary cultures of rat astrocytes we delineated the molecular mechanisms that regulate IL-6 expression and secretion. IL-6 expression requires activation of p38 and depends on NF-κB transcriptional activity. Activation of these pathways in astrocytes occurs when the PI3K-mTOR-AKT pathway is inhibited. Furthermore, we found that an increase in cytosolic calcium concentration was necessary for IL-6 secretion. To induce IL-6 secretion in astrocytes, we used torin2 and rapamycin to block the PI3K-mTOR pathway and increase cytosolic calcium, respectively. Treating injured animals with torin2 and rapamycin for two weeks, starting two weeks after injury when the scar has been formed, lead to a modest effect on mechanical hypersensitivity, limited to the period of treatment. These data, taken together, suggest that treatment with torin2 and rapamycin induces IL-6 secretion by astrocytes and may contribute to the reduction of mechanical hypersensitivity after SCI.

Published

2014

4. Lithium for pain management and suicidality in spinal cord injury patients: A case report and review of the literature

Author

Katherine Reavis, Mathew Abrams, Gregory Dimas, Nicole Meier, and Adam J. Fusick

Published

2023

5. Organizace standardů pro otevřenou a FAIR neurovědu: International Neuroinformatics Coordinating Facility

Author

Prasun Kumar Roy, Luciano Milanesi, Gary F. Egan, Thomas Wachtler, David N. Kennedy, Paul H. E. Tiesinga, Jeffrey S. Grethe, Tong Boon Tang, Satrajit S. Ghosh, Jan G. Bjaalie, Roman Moucek, Samir Das, Eric Tatt Wei Ho, Linda Lanyon, Mathew Abrams, Trygve B. Leergaard, Maryann E. Martone, Helen S. Mayberg, Stephen C. Strother, Jean-Baptiste Poline, Daniel K. Wójcik, Wojtek Goscinski, and Jeanette Hellgren Kotaleski

Subjects

Neuroinformatics, FAIR principy, Computer science, Process (engineering), Best practice, rganizace standardů, 03 medical and health sciences, 0302 clinical medicine, Underpinning research, neuroinformatika, AIR principles, standards organization, Community standards, Biomedicine, 030304 developmental biology, 0303 health sciences, INCF endorsement process, Neurology & Neurosurgery, FAIR principles, business.industry, INCF, General Neuroscience, tandardy a osvědčené postupy, Neurosciences, Reproducibility of Results, proces schvalování v INCF, neuroinformatics, Standards and best practices, standards and best practices, 1.5 Resources and infrastructure (underpinning), Transparency (behavior), eurovědy, Data sharing, Networking and Information Technology R&D (NITRD), Standards organization, Biochemistry and Cell Biology, business, Neuroscience, Responsible Consumption and Production, 030217 neurology & neurosurgery, Software, Information Systems

Abstract

Velká potřebnost koordinace standardů a osvědčených postupů v neurovědách souvisí s úsilím o to, aby se neurovědy staly disciplínou zaměřenou na data. Globální iniciativy a projekty ve výzkumu mozku jsou připraveny generovat obrovské množství neurovědeckých dat. Zároveň se neurovědy, stejně jako mnohé domény v biomedicíně, potýkají s otázkami transparentnosti, přesnosti a reprodukovatelnosti. Široce používané a validované standardy a osvědčené postupy jsou klíčem k řešení výzev ve výzkumu, který využívá velká i malá data, protože tyto standardy a postupy jsou nezbytné pro integraci různých dat a pro rozvoj robustní, efektivní a udržitelné infrastruktury podporující otevřené a reprodukovatelné neurovědy. Vypracování komunitních standardů a jejich přijetí je však obtížné. Současná situace se vyznačuje nedostatkem robustních, validovaných standardů a množstvím překrývajících se, nedostatečně rozvinutých, nevyzkoušených a nedostatečně využívaných standardů a osvědčených postupů. International Neuroinformatics Coordinating Facility (INCF), nezávislá organizace zaměřená na podporu sdílení dat prostřednictvím koordinace infrastruktury a standardů, nedávno zavedla formální proces pro hodnocení a schvalování komunitních standardů a osvědčených postupů podporující FAIR principy. Tím, že INCF formálně slouží jako standardizační organizace zaměřená na otevřené a FAIR neurovědy, pomáhá hodnotit, propagovat a koordinovat standardy a osvědčené postupy napříč neurovědami. Tento článek poskytuje přehled o tomto procesu a diskutuje o tom, jak můžou neurovědy těžit z existence specializované standardizačního orgánu. There is great need for coordination around standards and best practices in neuroscience to support efforts to make neuroscience a data-centric discipline. Major brain initiatives launched around the world are poised to generate huge stores of neuroscience data. At the same time, neuroscience, like many domains in biomedicine, is confronting the issues of transparency, rigor, and reproducibility. Widely used, validated standards and best practices are key to addressing the challenges in both big and small data science, as they are essential for integrating diverse data and for developing a robust, effective, and sustainable infrastructure to support open and reproducible neuroscience. However, developing community standards and gaining their adoption is difficult. The current landscape is characterized both by a lack of robust, validated standards and a plethora of overlapping, underdeveloped, untested and underutilized standards and best practices. The International Neuroinformatics Coordinating Facility (INCF), an independent organization dedicated to promoting data sharing through the coordination of infrastructure and standards, has recently implemented a formal procedure for evaluating and endorsing community standards and best practices in support of the FAIR principles. By formally serving as a standards organization dedicated to open and FAIR neuroscience, INCF helps evaluate, promulgate, and coordinate standards and best practices across neuroscience. Here, we provide an overview of the process and discuss how neuroscience can benefit from having a dedicated standards body.

Published

2021

6. Traumatic brain injury : progress and challenges in prevention, clinical care, and research

Author

Andrew I R Maas, David K Menon, Geoffrey T Manley, Mathew Abrams, Cecilia Åkerlund, Nada Andelic, Marcel Aries, Tom Bashford, Michael J Bell, Yelena G Bodien, Benjamin L Brett, András Büki, Randall M Chesnut, Giuseppe Citerio, David Clark, Betony Clasby, D Jamie Cooper, Endre Czeiter, Marek Czosnyka, Kristen Dams-O'Connor, Véronique De Keyser, Ramon Diaz-Arrastia, Ari Ercole, Thomas A van Essen, Éanna Falvey, Adam R Ferguson, Anthony Figaji, Melinda Fitzgerald, Brandon Foreman, Dashiell Gantner, Guoyi Gao, Joseph Giacino, Benjamin Gravesteijn, Fabian Guiza, Deepak Gupta, Mark Gurnell, Juanita A Haagsma, Flora M Hammond, Gregory Hawryluk, Peter Hutchinson, Mathieu van der Jagt, Sonia Jain, Swati Jain, Ji-yao Jiang, Hope Kent, Angelos Kolias, Erwin J O Kompanje, Fiona Lecky, Hester F Lingsma, Marc Maegele, Marek Majdan, Amy Markowitz, Michael McCrea, Geert Meyfroidt, Ana Mikolić, Stefania Mondello, Pratik Mukherjee, David Nelson, Lindsay D Nelson, Virginia Newcombe, David Okonkwo, Matej Orešič, Wilco Peul, Dana Pisică, Suzanne Polinder, Jennie Ponsford, Louis Puybasset, Rahul Raj, Chiara Robba, Cecilie Røe, Jonathan Rosand, Peter Schueler, David J Sharp, Peter Smielewski, Murray B Stein, Nicole von Steinbüchel, William Stewart, Ewout W Steyerberg, Nino Stocchetti, Nancy Temkin, Olli Tenovuo, Alice Theadom, Ilias Thomas, Abel Torres Espin, Alexis F Turgeon, Andreas Unterberg, Dominique Van Praag, Ernest van Veen, Jan Verheyden, Thijs Vande Vyvere, Kevin K W Wang, Eveline J A Wiegers, W Huw Williams, Lindsay Wilson, Stephen R Wisniewski, Alexander Younsi, John K Yue, Esther L Yuh, Frederick A Zeiler, Marina Zeldovich, Roger Zemek, InTBIR Participants and Investigators, Maas, A, Menon, D, Manley, G, Abrams, M, Åkerlund, C, Andelic, N, Aries, M, Bashford, T, Bell, M, Bodien, Y, Brett, B, Büki, A, Chesnut, R, Citerio, G, Clark, D, Clasby, B, Cooper, D, Czeiter, E, Czosnyka, M, Dams-O'Connor, K, De Keyser, V, Diaz-Arrastia, R, Ercole, A, van Essen, T, Falvey, É, Ferguson, A, Figaji, A, Fitzgerald, M, Foreman, B, Gantner, D, Gao, G, Giacino, J, Gravesteijn, B, Guiza, F, Gupta, D, Gurnell, M, Haagsma, J, Hammond, F, Hawryluk, G, Hutchinson, P, van der Jagt, M, Jain, S, Jiang, J, Kent, H, Kolias, A, Kompanje, E, Lecky, F, Lingsma, H, Maegele, M, Majdan, M, Markowitz, A, Mccrea, M, Meyfroidt, G, Mikolić, A, Mondello, S, Mukherjee, P, Nelson, D, Nelson, L, Newcombe, V, Okonkwo, D, Orešič, M, Peul, W, Pisică, D, Polinder, S, Ponsford, J, Puybasset, L, Raj, R, Robba, C, Røe, C, Rosand, J, Schueler, P, Sharp, D, Smielewski, P, Stein, M, von Steinbüchel, N, Stewart, W, Steyerberg, E, Stocchetti, N, Temkin, N, Tenovuo, O, Theadom, A, Thomas, I, Espin, A, Turgeon, A, Unterberg, A, Van Praag, D, van Veen, E, Verheyden, J, Vyvere, T, Wang, K, Wiegers, E, Williams, W, Wilson, L, Wisniewski, S, Younsi, A, Yue, J, Yuh, E, Zeiler, F, Zeldovich, M, Zemek, R, RS: MHeNs - R1 - Cognitive Neuropsychiatry and Clinical Neuroscience, Intensive Care, and MUMC+: MA Medische Staf IC (9)

Subjects

NEUROTRAUMA EFFECTIVENESS RESEARCH, OUTCOME PREDICTION, PREHOSPITAL TRIAGE TOOLS, COMMON DATA ELEMENTS, Violence, INTENSIVE-CARE, CEREBRAL PERFUSION-PRESSURE, POSTTRAUMATIC-STRESS-DISORDER, Cost of Illness, LIFE-SUSTAINING THERAPY, CT HEAD RULE, Brain Injuries, Traumatic, Humans, Neurology (clinical), MAJOR TRAUMA, Human medicine, Sports

Abstract

Traumatic brain injury (TBI) has the highest incidence of all common neurological disorders, and poses a substantial public health burden. TBI is increasingly documented not only as an acute condition but also as a chronic disease with long-term consequences, including an increased risk of late-onset neurodegeneration. The first Lancet Neurology Commission on TBI, published in 2017, called for a concerted effort to tackle the global health problem posed by TBI. Since then, funding agencies have supported research both in high-income countries (HICs) and in low-income and middle-income countries (LMICs). In November 2020, the World Health Assembly, the decision-making body of WHO, passed resolution WHA73.10 for global actions on epilepsy and other neurological disorders, and WHO launched the Decade for Action on Road Safety plan in 2021. New knowledge has been generated by large observational studies, including those conducted under the umbrella of the International Traumatic Brain Injury Research (InTBIR) initiative, established as a collaboration of funding agencies in 2011. InTBIR has also provided a huge stimulus to collaborative research in TBI and has facilitated participation of global partners. The return on investment has been high, but many needs of patients with TBI remain unaddressed. This update to the 2017 Commission presents advances and discusses persisting and new challenges in prevention, clinical care, and research.

Published

2022

7. Correction to: A Standards Organization for Open and FAIR Neuroscience: the International Neuroinformatics Coordinating Facility

Author

Wojtek Goscinski, Stephen C. Strother, Roman Moucek, Samir Das, Linda Lanyon, Maryann E. Martone, Eric Tatt Wei Ho, Jan G. Bjaalie, Tong Boon Tang, Gary F. Egan, Jeffrey S. Grethe, Paul H. E. Tiesinga, Luciano Milanesi, Thomas Wachtler, Mathew Abrams, Trygve B. Leergaard, J.B. Poline, Helen S. Mayberg, Satrajit S. Ghosh, David N. Kennedy, Daniel K. Wójcik, Jeanette Hellgren Kotaleski, and Prasun Kumar Roy

Subjects

Engineering management, Engineering, business.industry, General Neuroscience, Neurosciences, Correction, Reproducibility of Results, Neuroinformatics, Standards organization, business, Software, Information Systems

Abstract

There is great need for coordination around standards and best practices in neuroscience to support efforts to make neuroscience a data-centric discipline. Major brain initiatives launched around the world are poised to generate huge stores of neuroscience data. At the same time, neuroscience, like many domains in biomedicine, is confronting the issues of transparency, rigor, and reproducibility. Widely used, validated standards and best practices are key to addressing the challenges in both big and small data science, as they are essential for integrating diverse data and for developing a robust, effective, and sustainable infrastructure to support open and reproducible neuroscience. However, developing community standards and gaining their adoption is difficult. The current landscape is characterized both by a lack of robust, validated standards and a plethora of overlapping, underdeveloped, untested and underutilized standards and best practices. The International Neuroinformatics Coordinating Facility (INCF), an independent organization dedicated to promoting data sharing through the coordination of infrastructure and standards, has recently implemented a formal procedure for evaluating and endorsing community standards and best practices in support of the FAIR principles. By formally serving as a standards organization dedicated to open and FAIR neuroscience, INCF helps evaluate, promulgate, and coordinate standards and best practices across neuroscience. Here, we provide an overview of the process and discuss how neuroscience can benefit from having a dedicated standards body.

Published

2021

8. Teaching Computation in Neuroscience: Notes on the 2019 Society for Neuroscience Professional Development Workshop on Teaching

Author

William, Grisham, Mathew, Abrams, Walt E, Babiec, Adrienne L, Fairhall, Robert E, Kass, Pascal, Wallisch, and Richard, Olivo

Subjects

ComputingMilieux_GENERAL, ComputingMilieux_COMPUTERSANDEDUCATION, Article

Abstract

The 2019 Society for Neuroscience Professional Development Workshop on Teaching reviewed current tools, approaches, and examples for teaching computation in neuroscience. Robert Kass described the statistical foundations that students need to properly analyze data. Pascal Wallisch compared MATLAB and Python as programming languages for teaching students. Adrienne Fairhall discussed computational methods, training opportunities, and curricular considerations. Walt Babiec provided a view from the trenches on practical aspects of teaching computational neuroscience. Mathew Abrams concluded the session with an overview of resources for teaching and learning computational modeling in neuroscience.

Published

2020

9. A standards organization for Open and FAIR neuroscience: the International Neuroinformatics Coordinating Facility

Author

Mathew Abrams, Jan G. Bjaalie, Samir Das, Gary F. Egan, Satrajit S Ghosh, Wojtek J. Goscinski, Jeffrey Sean Grethe, Jeanette Hellgren Kotaleski, Eric Tatt Wei Ho, David N. Kennedy, Linda J. Lanyon, Trygve B. Leergaard, Helen Mayberg, Luciano Milanesi, Roman Mouček, Jean-Baptiste Poline, Prasun K. Roy, Tong Boon Tang, Paul Tiesinga, Thomas Wachtler, Daniel Krzysztof Wójcik, and Maryann Elizabeth Martone

Abstract

There is great need for coordination around standards and best practices in neuroscience to support efforts to make neuroscience a data-centric discipline. Major brain initiatives launched around the world are poised to generate huge stores of neuroscience data. At the same time, neuroscience, like many domains in biomedicine, is confronting the issues of transparency, rigor, and reproducibility. Widely used, validated standards and best practices are key to addressing the challenges in both big and small data science, as they are essential for integrating diverse data and for developing a robust, effective and sustainable infrastructure to support open and reproducible neuroscience. However, developing community standards and gaining their adoption is difficult. The current landscape is characterized both by a lack of robust, validated standards and a plethora of overlapping, underdeveloped, untested and underutilized standards and best practices. The International Neuroinformatics Coordinating Facility (INCF), established in 2005, is an independent organization dedicated to promoting data sharing through the coordination of infrastructure and standards. INCF has recently implemented a formal procedure for evaluating and endorsing community standards and best practices in support of the FAIR principles. By formally serving as a standards organization dedicated to open and FAIR neuroscience, INCF helps evaluate, promulgate and coordinate standards and best practices across neuroscience. Here, we provide an overview of the process and discuss how neuroscience can benefit from having a dedicated standards body.

Published

2019

10. Improved recovery from spinal cord injury in rats with chronic parvovirus serotype-1a infection

Author

Mathew Abrams, Jacob Kjell, and Lars Olson

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, Central nervous system, Antigens, Differentiation, Myelomonocytic, Hindlimb, Motor Activity, Asymptomatic, Neuroprotection, Parvoviridae Infections, Parvovirus, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Antigens, CD, medicine, Animals, Spinal cord injury, Spinal Cord Injuries, Microglia, business.industry, Recovery of Function, General Medicine, Spinal cord, medicine.disease, Rats, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Neurology, Original Article, Female, Neurology (clinical), medicine.symptom, business, 030217 neurology & neurosurgery, Astrocyte

Abstract

Objectives: A vendor informed us that rats shipped to us and used by us in a spinal cord contusion injury experiment were infected by rat parvovirus type 1a (RPV-1a). Our aim was therefore to determine whether this infection may have altered locomotor recovery or tissue pathology. Setting: Stockholm, Sweden. Methods: We induced a moderate contusion injury of the spinal cord in rats received from an (unknown to us) RPV-1a-contaminated facility. We compared the hind limb locomotor function between RPV-1a-infected rats and non-infected controls with the same spinal cord lesions, obtained before (historical control), as well as after infection (future controls). Histologically, we assessed spinal tissue sparing, astrocyte reactivity and the amount of macrophages/activated microglia. Results: RPV-1a-infected rats had significantly better hind limb locomotor recovery compared with both ‘historical' and ‘future' controls. We also observed significantly better tissue sparing and axonal sparing around the injury site, as well as significant reductions in macrophages/activated microglia and astrocyte reactivity in the spinal cords of RPV-1a-infected rats. Conclusion: The results stress the importance of knowing the health status of animals used to study central nervous system trauma and support the notion that acquired infections, even if asymptomatic, may alter response to injury in mammals. Furthermore, the results demonstrate that virus infections may have positive effects on functional recovery after spinal cord injury and indicate that RPV-1a infection may be neuroprotective by dampening secondary damage.

Published

2015

11. Delayed Imatinib Treatment for Acute Spinal Cord Injury: Functional Recovery and Serum Biomarkers

Author

Zsuzsanna Wiesenfeld-Hallin, Ulf Eriksson, Jacob Kjell, Camilla I. Svensson, Lars Olson, Anna Josephson, Mathew Abrams, Katrin Wellfelt, Anja Finn, and Jing-Xia Hao

Subjects

Chemokine, Time Factors, glivec, chemokines, Hindlimb, Rats, Sprague-Dawley, hemic and lymphatic diseases, medicine, Animals, bladder function, Spinal cord injury, Protein Kinase Inhibitors, Spinal Cord Injuries, biology, business.industry, Imatinib, locomotor function, Original Articles, Recovery of Function, Functional recovery, medicine.disease, cytokines, Rats, Disease Models, Animal, Imatinib mesylate, Anesthesia, Acute spinal cord injury, biology.protein, Imatinib Mesylate, Female, Neurology (clinical), business, Bladder function, Biomarkers, medicine.drug

Abstract

With no currently available drug treatment for spinal cord injury, there is a need for additional therapeutic candidates. We took the approach of repositioning existing pharmacological agents to serve as acute treatments for spinal cord injury and previously found imatinib to have positive effects on locomotor and bladder function in experimental spinal cord injury when administered immediately after the injury. However, for imatinib to have translational value, it needs to have sustained beneficial effects with delayed initiation of treatment, as well. Here, we show that imatinib improves hind limb locomotion and bladder recovery when initiation of treatment was delayed until 4 h after injury and that bladder function was improved with a delay of up to 24 h. The treatment did not induce hypersensitivity. Instead, imatinib-treated animals were generally less hypersensitive to either thermal or mechanical stimuli, compared with controls. In an effort to provide potential biomarkers, we found serum levels of three cytokines/chemokines—monocyte chemoattractant protein-1, macrophage inflammatory protein (MIP)-3α, and keratinocyte chemoattractant/growth-regulated oncogene (interleukin 8)—to increase over time with imatinib treatment and to be significantly higher in injured imatinib-treated animals than in controls during the early treatment period. This correlated to macrophage activation and autofluorescence in lymphoid organs. At the site of injury in the spinal cord, macrophage activation was instead reduced by imatinib treatment. Our data strengthen the case for clinical trials of imatinib by showing that initiation of treatment can be delayed and by identifying serum cytokines that may serve as candidate markers of effective imatinib doses.

Published

2015

12. Toward standard practices for sharing computer code and programs in neuroscience

Author

David Willshaw, Michael Hanke, Jean-Baptiste Poline, Yaroslav O. Halchenko, R. Angus Silver, Christophe Pouzat, Ben Marwick, Padraig Gleeson, Linda Lanyon, Mathew Abrams, Thomas Wachtler, Shoaib Sufi, Andrew P. Davison, Stephen J. Eglen, Department of Neuroscience, Physiology and Pharmacology, University College of London [London] (UCL), Unité de Neurosciences Information et Complexité [Gif sur Yvette] (UNIC), Centre National de la Recherche Scientifique (CNRS), Institut des Neurosciences Paris-Saclay (NeuroPSI), Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS), Mathématiques Appliquées Paris 5 (MAP5 - UMR 8145), Université Paris Descartes - Paris 5 (UPD5)-Institut National des Sciences Mathématiques et de leurs Interactions (INSMI)-Centre National de la Recherche Scientifique (CNRS), Eglen, Stephen [0000-0001-8607-8025], Apollo - University of Cambridge Repository, University of Washington [Seattle], Psychology and Brain Sciences, Dartmouth College [Hanover], Otto-von-Guericke University [Magdeburg] (OVGU), University of Glasgow, VA Medical Center, G-Node, Department Biology II, Ludwig-Maximilians-Universität München (LMU), Service NEUROSPIN (NEUROSPIN), Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Université Paris-Saclay-Direction de Recherche Fondamentale (CEA) (DRF (CEA)), and Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)

Subjects

0301 basic medicine, Source code, Computer science, media_common.quotation_subject, [SDV.NEU.NB]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/Neurobiology, Documentation, Article, neuroscience, 03 medical and health sciences, 0302 clinical medicine, ComputingMilieux_MISCELLANEOUS, media_common, [STAT.AP]Statistics [stat]/Applications [stat.AP], SIMPLE (military communications protocol), [SDV.NEU.PC]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/Psychology and behavior, Information Dissemination, General Neuroscience, Neurosciences, Computational Biology, [SDV.NEU.SC]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/Cognitive Sciences, scientific community, Data sharing, 030104 developmental biology, Neuroscience, 030217 neurology & neurosurgery, Software

Abstract

Computational techniques are central in many areas of neuroscience, and are relatively easy to share. This paper describes why computer programs underlying scientific publications should be shared, and lists simple steps for sharing. Together with ongoing efforts in data sharing, this should aid reproducibility of research.

Published

2017

13. Response to the report, 'A re-assessment of treatment with a tyrosine kinase inhibitor (imatinib) on tissue sparing and functional recovery after spinal cord injury' by Sharp et al

Author

Ingrid Nilsson, Ulf Eriksson, Simone Codeluppi, Lars Olson, Sebastian A. Lewandowski, Jacob Kjell, and Mathew Abrams

Subjects

Oncology, medicine.medical_specialty, medicine.drug_class, Urinary Bladder, Piperazines, Tyrosine-kinase inhibitor, Developmental Neuroscience, Internal medicine, medicine, Animals, Protein Kinase Inhibitors, Spinal cord injury, Spinal Cord Injuries, business.industry, Imatinib, Recovery of Function, medicine.disease, Functional recovery, Nerve Regeneration, Pyrimidines, Neurology, Anesthesia, Benzamides, Female, Tissue sparing, business, medicine.drug

Abstract

Article history: Received 31 March 2014 Revised 24 April 2014 Accepted 25 April 2014 Available online 11 May 2014 studies (Benowitz, 2012; Bunge and Pearse, 2012; Erschbamer et al., 2012), pointing out weaknesses in the re-assessment studies including incomplete replication of the basis of the original experiments, too much variability, too little power and other suboptimal circumstances. In the following, we wish to comment on the reassessment (Sharp et al., 2014a) of our imatinib study (Abrams et al., 2012). We assisted the re-assessment team by responding to questions about details

Published

2014

14. Spatial and Cellular Characterization of mTORC1 Activation after Spinal Cord Injury Reveals Biphasic Increase Mainly Attributed to Microglia/Macrophages

Author

Jacob Kjell, Simone Codeluppi, Mathew Abrams, and Anna Josephson

Subjects

Cell type, proliferation, S6, mTORC1, Biology, Mechanistic Target of Rapamycin Complex 1, Pathology and Forensic Medicine, Rats, Sprague-Dawley, astrocyte, medicine, Animals, Phosphorylation, Spinal cord injury, Spinal Cord Injuries, Cell Proliferation, Neurons, Microglia, General Neuroscience, Macrophages, Ribosomal Protein S6 Kinases, TOR Serine-Threonine Kinases, oligodendrocyte progenitor cell, neutrophil, Spinal cord, medicine.disease, Immunohistochemistry, neuron, Disease Models, Animal, medicine.anatomical_structure, Spinal Cord, Multiprotein Complexes, Female, Neurology (clinical), Neuron, biological phenomena, cell phenomena, and immunity, Neuroscience, Intracellular, Astrocyte, Research Article

Abstract

Mechanistic target of rapamycin complex 1 (mTORC1) is an intracellular kinase complex that regulates energy homeostasis and transcription. Modulation of mTORC1 has proven beneficial in experimental spinal cord injury, making this molecular target a candidate for therapeutic intervention in spinal cord injury. However, both inactivation and activation of mTORC1 have been reported beneficial for recovery. To obtain a more complete picture of mTORC1 activity, we aimed to characterize the spatiotemporal activation pattern of mTORC1 and identify activation in particular cell types after contusion spinal cord injury in rats. To be able to provide a spatial characterization of mTORC1 activation, we monitored activation of downstream target S6. We found robust mTORC1 activation both at the site of injury and in spinal segments rostral and caudal to the injury. There was constitutive mTORC1 activation in neurons that was biphasically reduced caudally after injury. We found biphasic mTORC1 activation in glial cells, primarily activated microglia/macrophages. Furthermore, we found mTORC1 activation in proliferating cells, suggesting this may be a function affected by mTORC1 modulation. Our results reveal potential windows of opportunity for therapeutic interference with mTORC1 signaling and immune cells as targets for inhibition of mTORC1 in spinal cord injury.

Published

2014

15. Rat Substrains Differ in the Magnitude of Spontaneous Locomotor Recovery and in the Development of Mechanical Hypersensitivity after Experimental Spinal Cord Injury

Author

Mathew Abrams, Anna Josephson, Jacob Kjell, Katalin Sándor, and Camilla I. Svensson

Subjects

Strain (injury), Stimulation, Motor Activity, Rats, Sprague-Dawley, medicine, Animals, Spinal cord injury, Spinal Cord Injuries, business.industry, Outcome measures, Recovery of Function, Original Articles, medicine.disease, Spinal cord, Immunohistochemistry, Pathophysiology, Rats, Disease Models, Animal, medicine.anatomical_structure, Hyperalgesia, Anesthesia, Female, Neurology (clinical), medicine.symptom, Bladder function, business

Abstract

A number of different rodent experimental models of spinal cord injury have been used in an attempt to model the pathophysiology of human spinal cord injury. As a result, interlaboratory comparisons of the outcome measures can be difficult. Further complicating interexperiment comparisons is the fact that the rodent response to different experimental models is strain-dependent. Moreover, the literature is abundant with examples in which the same injury model and strain result in divergent functional outcomes. The objective of this research was to determine whether substrain differences influence functional outcome in experimental spinal cord injury. We induced mild contusion spinal cord injuries in three substrains of Sprague-Dawley rats purchased from three different European breeders (Scanbur, Charles River, and Harlan) and evaluated the impact of injury on spontaneous locomotor function, hypersensitivity to mechanical stimulation, and bladder function. We found that Harlan rats regained significantly more hindlimb function than Charles River and Scanbur rats. We also observed substrain differences in the recovery of the ability to empty the bladder and development of hypersensitivity to mechanical stimulation. The Harlan substrain did not show any signs of hypersensitivity in contrast to the Scanbur and Charles River substrains, which both showed transient reduction in paw withdrawal thresholds. Lastly, we found histological differences possibly explaining the observed behavioral differences. We conclude that in spite of being the same strain, there might be genetic differences that can influence outcome measures in experimental studies of spinal cord injury of Sprague-Dawley rats from different vendors.

Published

2013

16. Towards standard practices for sharing computer code and programs in neuroscience

Author

Thomas Wachtler, Ben Marwick, Padraig Gleeson, David Willshaw, Christophe Pouzat, Michael Hanke, Linda Lanyon, Shoaib Sufi, Jean-Baptiste Poline, Yaroslav O. Halchenko, Andrew P. Davison, Stephen J. Eglen, Mathew Abrams, and R. Angus Silver

Subjects

0303 health sciences, Source code, business.industry, Computer science, media_common.quotation_subject, Scientific article, Reuse, computer.software_genre, 03 medical and health sciences, 0302 clinical medicine, Software, Scripting language, business, Function (engineering), Neuroscience, computer, 030217 neurology & neurosurgery, 030304 developmental biology, media_common

Abstract

Many areas of neuroscience are now critically dependent on computational tools to help understand the large volumes of data being created. Furthermore, computer models are increasingly being used to help predict and understand the function of the nervous system. Many of these computations are complex and often cannot be concisely reported in the methods section of a scientific article. In a few areas there are widely used software packages for analysis (e.g., SPM, FSL, AFNI, BrainVoyager, FreeSurfer in neuroimaging) or simulation (e.g. NEURON, NEST, Brian). However, we often write new computer programs to solve specific problems in the course of our research. Some of these programs may be relatively small scripts that help analyze all of our data, and these rarely get described in papers. As authors, how best can we maximize the chances that other scientists can reproduce our computations or reuse our methods on their data? Is our research reproducible? Our article lists practical suggestions to maximise the reproducibility of our work.

Published

2016

17. Interleukin-6 secretion by astrocytes is dynamically regulated by PI3K-mTOR-calcium signaling

Author

Qingsong Liu, Simone Codeluppi, Mathew Abrams, Camilla I. Svensson, Per Uhlén, Teresa Fernandez-Zafra, Katalin Sandor, Lars Olson, Nathanael S. Gray, and Jacob Kjell

Subjects

Male, Cell signaling, Critical Care and Emergency Medicine, lcsh:Medicine, Signal transduction, Rats, Sprague-Dawley, Phosphatidylinositol 3-Kinases, Molecular Cell Biology, Neurobiology of Disease and Regeneration, Medicine and Health Sciences, Neurological signaling, AKT signaling cascade, Axon, Spinal Cord Injury, lcsh:Science, Trauma Medicine, Cells, Cultured, Calcium signaling, Mammals, Immunological signaling, Multidisciplinary, TOR Serine-Threonine Kinases, Signaling cascades, Animal Models, Cell biology, medicine.anatomical_structure, Neurology, Research Design, Vertebrates, Research Article, Clinical Research Design, Central nervous system, Nerve Tissue Proteins, Biology, Research and Analysis Methods, Rodents, Spinal Cord Diseases, Glial scar, Model Organisms, medicine, Animals, Secretion, Animal Models of Disease, Calcium Signaling, Spinal Cord Injuries, PI3K/AKT/mTOR pathway, TOR signaling, Biology and life sciences, Interleukin-6, Regeneration (biology), lcsh:R, Organisms, Rats, Gene Expression Regulation, Astrocytes, Immunology, lcsh:Q, Molecular Neuroscience, Neuroscience

Abstract

After contusion spinal cord injury (SCI), astrocytes become reactive and form a glial scar. While this reduces spreading of the damage by containing the area of injury, it inhibits regeneration. One strategy to improve the recovery after SCI is therefore to reduce the inhibitory effect of the scar, once the acute phase of the injury has passed. The pleiotropic cytokine interleukin-6 (IL-6) is secreted immediately after injury and regulates scar formation; however, little is known about the role of IL-6 in the sub-acute phases of SCI. Interestingly, IL-6 also promotes axon regeneration, and therefore its induction in reactive astrocytes may improve regeneration after SCI. We found that IL-6 is expressed by astrocytes and neurons one week post-injury and then declines. Using primary cultures of rat astrocytes we delineated the molecular mechanisms that regulate IL-6 expression and secretion. IL-6 expression requires activation of p38 and depends on NF-κB transcriptional activity. Activation of these pathways in astrocytes occurs when the PI3K-mTOR-AKT pathway is inhibited. Furthermore, we found that an increase in cytosolic calcium concentration was necessary for IL-6 secretion. To induce IL-6 secretion in astrocytes, we used torin2 and rapamycin to block the PI3K-mTOR pathway and increase cytosolic calcium, respectively. Treating injured animals with torin2 and rapamycin for two weeks, starting two weeks after injury when the scar has been formed, lead to a modest effect on mechanical hypersensitivity, limited to the period of treatment. These data, taken together, suggest that treatment with torin2 and rapamycin induces IL-6 secretion by astrocytes and may contribute to the reduction of mechanical hypersensitivity after SCI.

Published

2014

18. INCF Workshop Report: New Perspectives on Workflows and Data Management for the Analysis of Electrophysiological Data

Author

Michael, Denker, primary, Mathew, Abrams, additional, Thomas, Wachtler, additional, Andrew, Davison, additional, and Sonja, Grün, additional

Published

2014