Concept
Resting potential
Related people (40)
Wulfram Gerstner
Wulfram Gerstner is Director of the Laboratory of Computational Neuroscience LCN at the EPFL. His research in computational neuroscience concentrates on models of spiking neurons and spike-timing dependent plasticity, on the problem of neuronal coding in single neurons and populations, as well as on the link between biologically plausible learning rules and behavioral manifestations of learning. He teaches courses for Physicists, Computer Scientists, Mathematicians, and Life Scientists at the EPFL. After studies of Physics in Tübingen and at the Ludwig-Maximilians-University Munich (Master 1989), Wulfram Gerstner spent a year as a visiting researcher in Berkeley. He received his PhD in theoretical physics from the Technical University Munich in 1993 with a thesis on associative memory and dynamics in networks of spiking neurons. After short postdoctoral stays at Brandeis University and the Technical University of Munich, he joined the EPFL in 1996 as assistant professor. Promoted to Associate Professor with tenure in February 2001, he is since August 2006 a full professor with double appointment in the School of Computer and Communication Sciences and the School of Life Sciences. Wulfram Gerstner has been invited speaker at numerous international conferences and workshops. He has served on the editorial board of the Journal of Neuroscience,
Network: Computation in Neural Systems', Journal of Computational Neuroscience', and `Science'.Hubert Girault
Education: 1979 - Engineering diploma from Grenoble Institute of Technology. FRANCE. 1982 - PhD- Department of Chemistry, University of Southampton. Thesis entitled : Interfacial studies using drop image processing techniques. Positions : 1982 - 1984 SERC Research Fellow. University of Southampton. 1984 - 1985 CNRS Research Fellow. University of Southampton. 1985 - 1992 Lecturer in Physical Chemistry, University of Edinburgh. 1992 - Professor of Physical Chemistry, Ecole Polytechnique Fédérale de Lausanne. 2011 - 2014 Dean of Bachelor and Master studies Hubert Girault is the author of 2 textbooks, the co-author of about 600 scientific publications with more than 20'000 citations and the co-inventor of more than 15 patents. During his academic career, he has supervised 70 PhD students. 30 alumni of his laboratory are now Professors. Honours: Faraday medal 2006, Royal Society of Chemistry, Fellow of the International Society of Electrochemistry 2007, Reilley Award 2015. Fellow of the Electrochemical Society (USA), Shikata International medal, Polarography Society of Japan. Associate editor of Chemical Science
Carl Petersen
Carl Petersen studied physics as a bachelor student in Oxford (1989-1992). During his PhD studies under the supervision of Prof. Sir Michael Berridge in Cambridge (1992-1996), he investigated cellular and molecular mechanisms of calcium signalling. In his first postdoctoral period (1996-1998), he joined the laboratory of Prof. Roger Nicoll at the University of California San Francisco (UCSF) to investigate synaptic transmission and plasticity in the hippocampus. During a second postdoctoral period, in the laboratory of Prof. Bert Sakmann at the Max Planck Institute for Medical Research in Heidelberg (1999-2003), he began working on the primary somatosensory barrel cortex, investigating cortical circuits and sensory processing. Carl Petersen joined the Brain Mind Institute of the Faculty of Life Sciences at the Ecole Polytechnique Federale de Lausanne (EPFL) in 2003, setting up the Laboratory of Sensory Processing to investigate the functional operation of neuronal circuits in awake mice during quantified behavior. In 2019, Carl Petersen became the Director of the EPFL Brain Mind Institute, with the goal to promote quantitative multidisciplinary research into neural structure, function, dysfunction, computation and therapy through technological advances.
Henry Markram
Henry Markram started a dual scientific and medical career at the University of Cape Town, in South Africa. His scientific work in the 80s revealed the polymodal receptive fields of pontomedullary reticular formation neurons in vivo and how acetylcholine re-organized these sensory maps.
He moved to Israel in 1988 and obtained his PhD at the Weizmann Institute where he discovered a link between acetylcholine and memory mechanisms by being the first to show that acetylcholine modulates the NMDA receptor in vitro studies, and thereby gates which synapses can undergo synaptic plasticity. He was also the first to characterize the electrical and anatomical properties of the cholinergic neurons in the medial septum diagonal band.
He carried out a first postdoctoral study as a Fulbright Scholar at the NIH, on the biophysics of ion channels on synaptic vesicles using sub-fractionation methods to isolate synaptic vesicles and patch-clamp recordings to characterize the ion channels. He carried out a second postdoctoral study at the Max Planck Institute, as a Minerva Fellow, where he discovered that individual action potentials propagating back into dendrites also cause pulsed influx of Ca2 into the dendrites and found that sub-threshold activity could also activated a low threshold Ca2 channel. He developed a model to show how different types of electrical activities can divert Ca2 to activate different intracellular targets depending on the speed of Ca2 influx an insight that helps explain how Ca2 acts as a universal second messenger. His most well known discovery is that of the millisecond watershed to judge the relevance of communication between neurons marked by the back-propagating action potential. This phenomenon is now called Spike Timing Dependent Plasticity (STDP), which many laboratories around the world have subsequently found in multiple brain regions and many theoreticians have incorporated as a learning rule. At the Max-Planck he also started exploring the micro-anatomical and physiological principles of the different neurons of the neocortex and of the mono-synaptic connections that they form - the first step towards a systematic reverse engineering of the neocortical microcircuitry to derive the blue prints of the cortical column in a manner that would allow computer model reconstruction.
He received a tenure track position at the Weizmann Institute where he continued the reverse engineering studies and also discovered a number of core principles of the structural and functional organization such as differential signaling onto different neurons, models of dynamic synapses with Misha Tsodyks, the computational functions of dynamic synapses, and how GABAergic neurons map onto interneurons and pyramidal neurons. A major contribution during this period was his discovery of Redistribution of Synaptic Efficacy (RSE), where he showed that co-activation of neurons does not only alter synaptic strength, but also the dynamics of transmission. At the Weizmann, he also found the tabula rasa principle which governs the random structural connectivity between pyramidal neurons and a non-random functional connectivity due to target selection. Markram also developed a novel computation framework with Wolfgang Maass to account for the impact of multiple time constants in neurons and synapses on information processing called liquid computing or high entropy computing.
In 2002, he was appointed Full professor at the EPFL where he founded and directed the Brain Mind Institute. During this time Markram continued his reverse engineering approaches and developed a series of new technologies to allow large-scale multi-neuron patch-clamp studies. Markrams lab discovered a novel microcircuit plasticity phenomenon where connections are formed and eliminated in a Darwinian manner as apposed to where synapses are strengthening or weakened as found for LTP. This was the first demonstration that neural circuits are constantly being re-wired and excitation can boost the rate of re-wiring.
At the EPFL he also completed the much of the reverse engineering studies on the neocortical microcircuitry, revealing deeper insight into the circuit design and built databases of the blue-print of the cortical column. In 2005 he used these databases to launched the Blue Brain Project. The BBP used IBMs most advanced supercomputers to reconstruct a detailed computer model of the neocortical column composed of 10000 neurons, more than 340 different types of neurons distributed according to a layer-based recipe of composition and interconnected with 30 million synapses (6 different types) according to synaptic mapping recipes. The Blue Brain team built dozens of applications that now allow automated reconstruction, simulation, visualization, analysis and calibration of detailed microcircuits. This Proof of Concept completed, Markrams lab has now set the agenda towards whole brain and molecular modeling.
With an in depth understanding of the neocortical microcircuit, Markram set a path to determine how the neocortex changes in Autism. He found hyper-reactivity due to hyper-connectivity in the circuitry and hyper-plasticity due to hyper-NMDA expression. Similar findings in the Amygdala together with behavioral evidence that the animal model of autism expressed hyper-fear led to the novel theory of Autism called the Intense World Syndrome proposed by Henry and Kamila Markram. The Intense World Syndrome claims that the brain of an Autist is hyper-sensitive and hyper-plastic which renders the world painfully intense and the brain overly autonomous. The theory is acquiring rapid recognition and many new studies have extended the findings to other brain regions and to other models of autism.
Markram aims to eventually build detailed computer models of brains of mammals to pioneer simulation-based research in the neuroscience which could serve to aggregate, integrate, unify and validate our knowledge of the brain and to use such a facility as a new tool to explore the emergence of intelligence and higher cognitive functions in the brain, and explore hypotheses of diseases as well as treatments.
Sylvie Roke
2011 present: Julia Jacobi Chair in photomedicine, École Polytechnique Fédérale Lausanne (EPFL), CH. 2005 2012: Max Planck Research Group Leader (W2 /C3) of a centrally announced open theme independent research group. Host: The Max-Planck Institute for Metals Research, Stuttgart, DE. 2005 2005: Alexander von Humboldt Fellow, dept. of Applied Physical Chemistry, Heidelberg University, DE. 2004 2005: Postdoctoral Fellow, FOM-Institute for Plasma Physics, NL.
Philippe Renaud
Philippe Renaud is Professor at the Microsystem Laboratory (LMIS4) at EPFL. He is also the scientific director of the EPFL Center of MicroNanoTechnology (CMI). His main research area is related to micronano technologies in biomedical applications (BioMEMS) with emphasis on cell-chips, nanofluidics and bioelectronics. Ph. Renaud is invloved in many scientifics papers in his research area. He received his diploma in physics from the University of Neuchâtel (1983) and his Ph.D. degree from the University of Lausanne (1988). He was postdoctoral fellow at University of California, Berkeley (1988-89) and then at the IBM Zürich Research Laboratory in Switzerland (1990-91). In 1992, he joined the Sensors and Actuators group of the Swiss Center for Electronics and Microtechnology (CSEM) at Neuchâtel, Switzerland. He was appointed assistant professor at EPFL in 1994 and full professor in 1997. In summer 1996, he was visiting professor at the Tohoku University, Japan. Ph. Renaud is active in several scientific committee (scientific journals, international conferences, scientific advisory boards of companies, PhD thesis committee). He is also co-founder of the Nanotech-Montreux conference. Ph. Renaud is committed to valorization of basic research through his involvement in several high-tech start-up companies.
Christos Comninellis
Christos Comninellis, of Greek origin, born in 1945, received his Bachelor of Science in chemistry (distinction with honor) in 1970 from the University of Alexandria.
From 1971 to 1975, he worked as a chemist at the Institute of chemical engineering at the EPFL, where he achieved his PhD in technical sciences in 1979 for his research on the electrochemical fluorination of organic compounds in anhydrous hydrogen fluoride.
Appointed professor in 1996, he teaches at the Faculty of Basic Sciences (FSB) of the Swiss Federal Institute of Technology, Lausanne (EPFL)
Applied Chemistry.
Transport Phenomena.
Chemical and Electrochemical Technologies Related to the Environment.
Electrochemical Engineering.
He also holds a teaching position at the Haute Ecole Valaisanne Sion (HEVs).
His research work is focused on environmental electrochemistry, electrocatalysis, fuel cell and electrochemical promotion in catalysis. An applied research for the utilization of electrochemical techniques in industry for the protection of the environment is a constant concern within his activities. As a result, the collaboration with the industry enabled the development of oxidation processes with regeneration of the oxidant using a new type of bipolar electrochemical reactor.
Christos Comninellis has published over 170 scientific papers, directed 17 doctoral theses and holds 14 patents. He has participated in over 130 international symposia, giving five plenary lectures during the last five years. He has been president of the Evaluation Committee of the FSB since the beginning of 2004 and is member of the jury of the EPFL prize for outstanding PhD-thesis.
Nico de Rooij
Nico de Rooij is Professor Emeritus of EPFL and previous Vice-President of CSEM SA. He was Professor of Microengineering at EPFL and Head of the Sensors, Actuators and Microsystems Laboratory (
SAMLAB
) from 2009 to 2016. At
CSEM SA
he was responsible for the EPFL CSEM coordination from 2012 to 2016. His research activities include the design, micro fabrication and application of miniaturized silicon based sensors, actuators, and microsystems. He authored and coauthored over 400 published
journal papers
in these areas.
He was Professor at the University of Neuchatel and Head of the Sensors, Actuators and Microsystems Laboratory (SAMLAB) from 1982 to 2008. Since October 1990 till October 1996 and again from October 2002 until June 2008, he has been the director of the Institute of Microtechnology of the University of Neuchatel (IMT UniNE). He lectured at the Swiss Federal Institute of Technology, Zurich (ETHZ), and since 1989, he has been a part-time professor at the Swiss Federal Institute of Technology, Lausanne (EPFL). He has been appointed Vice-President of the CSEM SA in February 2008 and headed the newly created Microsystems Technology Division of CSEM SA, from 2008 until 2012. He was Director of EPFL's Institute of Microengineering (EPFL STI IMT) from 2009 to 2012, following the transfer of IMT Uni-NE to EPFL.
Dr. de Rooij is a Fellow of the IEEE and Fellow of the Institute of Physics (UK). He recieved the IEEE
Jun-Ichi Nishizawa Gold Medal
, the Schlumberger Prize as well as the
MNE Fellow Award 2016
. He was awarded a Visiting Investigatorship Program (VIP) in MEMS/NEMS Systems by the
A*STAR Science and Engineering Council (SERC)
, Singapore, hosted by
SIMTech
, for the period 2005-2008.
Prof. de Rooij is Corresponding Member of the
Royal Netherlands Academy of Arts and Sciences
and Individual Member of the
Swiss Academy of Engineering Sciences
.
He has been serving on the Editorial Boards of the
IEEE/ASME Journal of Microelectromechanical Systems (IEEE JMEMS)
,
the IEEE proceedings
,
the Journal of Micromechanics and Microengineering, JM & M,
,
the Sensors and Actuators
,and
Sensors and Materials
. He was Member of the Information and Communication technology jury of the BBVA Foundation Frontiers of Knowledge Awards from 2009 to 2012.
Dr. de Rooij is (or was) Member of numerous international steering committees of conference series as well as
technical paper review panels including the steering committee of the International Conference on Solid-State
Sensors and Actuators and of Eurosensors. He acted as European Program Chairman of Transducers '87 and General Chairman of Transducers '89, Montreux, Switzerland.
He has supervised more than 70 Ph.D. students, who have successfully completed their
Ph.D. thesis.
He received his M.Sc. degree in physical chemistry from the State University of Utrecht, The Netherlands, in 1975, and a Ph.D. degree from Twente University of Technology, The Netherlands, in 1978. From 1978 to 1982, he worked at the Research and Development Department of Cordis Europa N.V., The Netherlands.
Hilal Lashuel
2012-2013 Visiting Professor, Standford University. Stanford School of Medicine
2011- Associate Professor of Life Sciences-Brain Mind Institute-EPFL
Dir. Laboratory of Chemical Biology of Neurodegeneration
2005-2011 Assistant Professor of Life Sciences-Brain Mind Institute-EPFL
Dir. Laboratory of Molecular Neurobiology and Neuroproteomics
2005-2008 Director- EPFL Proteomic Core Facility
2002-2004 Instructor of Neurology- Harvard Medical School and Brigham and Women's
Hospital
2001-2002 Sabbatical Fellow- Laboratory for Drug Discovery in Neurodegeneration
Harvard Medical School,
2001-2002 Post-doctoral Fellow- Center for Neurologic Diseases
Harvard Medical School and Brigham and Women's Hospital
Advisor- Prof. Peter T. Lansbury
2000-2001 Research Scientist, The Picower Institute for Medical Research, Great Neck
New York
1994-2000 PhD Student; Texas A&M University and the Scripps Research Institute
Advisor- Prof. Jeffery W. Kelly
1990-1994 B.S. City University of New York, Brooklyn College
Dr. Hilal A. Lashuel received his B.Sc. degree in chemistry from the City University of New York in 1994 and completed his doctoral studies at Texas A&M University and the Scripps Research Institute in 2000. After obtaining his doctoral degree, he became a research fellow at the Picower Institute for Medical Research in Long Island New York. In 2001, he moved to Harvard Medical School and the Brigham and Women's Hospital as a research fellow in the Center for Neurologic Diseases and was later promoted to an instructor in neurology at Harvard Medical School. During his tenure (2001-2004) at Harvard Medical School his work focused on understanding the mechanisms of protein misfolding and fibrillogenesis and the role of these processes in the pathogenesis of Parkinson's and Alzheimer's disease. In 2005 Dr. Lashuel moved Switzerland to join the Brain Mind Institute at the Swiss Federal Institute of Technology Lausanne as a tenure-track assistant professor in neurosciences. Currently, Dr. Lashuel is an associate professor of life sciences and the director of the laboratory of molecular and chemical biology of neurodegeneration. (http://lashuel-lab.epfl.ch/).
Research efforts in the Lashuels laboratory focus on understanding the molecular mechanisms of neurodegeneration and developing novel strategies to diagnose and treat neurodegenerative diseases such as Alzheimers and Parkinsons disease. Research in the Lashuel lab is funded by several international funding agencies and foundations, including the Swiss National Science Foundation, European FP7 program (Marie Curie and ERC grants), Human Science Frontiers, Strauss Foundation, Cure the Huntingtons disease foundation and Michael J Fox foundation and is supported by collaborations with pharmaceutical and biotech companies (http://lashuel-lab.epfl.ch/page-50538-en.html), Nestle, Merck-Serono, AC Immune and Johnson and Johnson.
Dr. Lashuels research has resulted in the characterization of novel quaternary structure intermediates on the amyloid pathway, identification of potential therapeutic targets, and new hypotheses concerning the mechanisms of pathogenesis in Alzheimers disease, Parkinsons disease and related disorders. Dr. Lashuel scientific contribution to this field includes i) more than100 publications in major peer reviewed journals including Nature journals, Cell, PNAS, JBC, J. Neuroscience JACS, and Angewandtie Chemie; ii) three patents on novel strategies for preventing protein aggregation and treating autoimmune and inflammatory diseases; iii) more than 150 invited lectures since 2002 and more than 5500 citations (7800 citation-Google Scholar) since 1996. Dr. Lashuel has received several pre-doctoral and post-doctoral awards and fellowships and was the recipient of two prestigious awards given to young investigators; Human Science Frontiers young investigator research award and the European Research Council (ERC) starting independent researcher grant and the ERC proof of concept award (2013) These awards provide more than $2.5 Million to Dr. Lashuel to translate some of his ideas and projects into novel strategies for diagnosing and treating neurodegenerative diseases such as Alzheimers and Parkinsons disease. Dr. Lashuel has chaired and co-organized several international conferences and serves as an academic editor for PLoS ONE, an associate editor for frontiers of molecular neuroscience, member of the Editorial advisory board of ChemBioChem and ad hoc reviewer for several international scientific journals and funding agencies.
Theo Lasser
De nationalité allemande, né en 1952 à Lauchheim (Baden-Württemberg). Après des études de physique à l'Université Fridericiana de Karlsruhe, il y obtient son diplôme de physique en 1978.
En 1979, il rejoint l'Institut de Recherches franco-allemand à Saint-Louis (France) comme collaborateur scientifique. En 1986, il rejoint la division de recherche de Carl Zeiss à Oberkochen (Allemagne) où il développe principalement divers systèmes laser pour des applications médicales. Dès 1990, il dirige le laboratoire laser de la division médicale. En 1993, il prend la direction de l'unité "laser d'ophtalmologie". Dès le début 1995, il est chargé de restructurer et regrouper les nombreuses activités d'ophtalmologie chez Carl Zeiss et de les transférer à Jena. Durant cette période, il réalise des nouveaux instruments de réfraction, des biomicroscopes et des caméras rétiniennes.
Dès janvier 1998, il dirige la recherche de Carl Zeiss à Jena où il initie de nouveaux projets en microscopie, en microtechnique et en recherche médicale. En juillet 1998, il est nommé professeur ordinaire en optique biomédicale à l'Institut d'optique appliquée. Au sein du Département de microtechnique, son activité de recherche porte sur la photonique biomédicale. Il participe à l'enseignement d'optique et d'instrumentation biomédicale.
Short CV
1972 Physics University of Karlsruhe (Germany)
1979 l'Institut de Recherches franco-allemand à Saint-Louis (France)
1986 central research division Carl Zeiss, Oberkochen (Germany)
1990 Med - Division, ophthalmic lasers
1994 Ophthalmology division, Carl Zeiss Jena
1998 Head of Central research Carl Zeiss Jena
1998 full Professor Ecole Polytechnique Federale Lausanne, Switzerland