Sentences with phrase «basic brain systems»

First, basic brain systems that are responsible for survival, such as feeding, protection, reproduction, or social contact, are conducive for basic emotions and result in motivations that are responsible for a specific behavior, e.g., searching for food [41].

You can strongly disagree, disagree, agree or strongly agree with these statements to see to what degree you express the traits linked to each one of those basic brain systems.

Recent research shows basic anatomy that has eluded scientists and clinicians up until this point: the brain has a lymphatic system, one of the primary purposes of which is to connect it to the immune system.

SISSA Trieste researcher, Moses Sokunbi, has reviewed the literature on feedback control systems and neurofeedback in order to provide some insights into how the basic principles of feedback control systems are the building blocks of the advanced brain - computer interfacing technique popularly dubbed «neurofeedback.»

The system seems to allow mantis shrimp to quickly identify basic colours without the need for much brain processing.

«This system also offers a new paradigm to study basic questions of how the brain encodes information.

«A growing body of evidence suggests that immune system activation, such as that caused by bacterial and viral infections, can play important roles in many brain disorders,» explained William Carlezon, PhD, chief of the Division of Basic Neuroscience at McLean Hospital, and senior author of the paper.

«Look at a gazelle — all of its software is in its brain,» says James Kuffner, an associate professor at C.M.U.'s Robotics Institute, one of six teams of robotics researchers (along with the Florida University System's Institute for Human and Machine Cognition, M.I.T., Stanford University, the University of Southern California and the University of Pennsylvania) that DARPA asked to improve on the same basic LittleDog quadruped robot platform, built for them by Boston Dynamics.

Instead of a brain, hydra have the most basic nervous system in nature, a nerve net in which neurons spread throughout its body.

Instead of a brain, it has the most basic nervous system in nature, a net of neurons spread throughout its body.

The slow and gradual addition of new nerve cells may be like a fine - tuning system, allowing adults to incorporate fresh information without altering our basic brain circuitry.

Alain Destexhe, Research Director of Unité de Neurosciences CNRS, Gif - sur - Yvette, France Bruno Weber, Professor of Multimodal Experimental Imaging, Universitaet Zuerich, Switzerland Carmen Gruber Traub, Fraunhofer, Germany Costas Kiparissides, Certh, Greece Cyril Poupon, Head of the Nuclear Magnetic Resonance Imaging and Spectroscopy unit of NeuroSpin, University Paris Saclay, Gif - sur - Yvette, France David Boas, Professor of Radiology at Massachusetts General Hospital, Harvard Medical School, University of Pennsylvania Hanchuan Peng, Associate Investigator at Allen Brain Institute, Seattle, US Huib Manswelder, Head of Department of Integrative Neurophysiology Center for Neurogenomics and Cognitive Research, VU University, Amsterdam Jan G. Bjaalie, Head of Neuroinformatics division, Institute of Basic Medical Sciences, University of Oslo, Norway Jean - François Mangin, Research Director Neuroimaging at CEA, Gif - sur - Yvette, France Jordi Mones, Institut de la Macula y la Retina, Barcelona, Spain Jurgen Popp, Scientific Director of the Leibniz Institute of Photonic Technology, Jena, Germany Katharina Zimmermann, Hochshule, Germany Katrin Amunts, Director of the Institute Structural and functional organisation of the brain, Forschungszentrum Juelich, Germany Leslie M. Loew, Professor at University of Connecticut Health Center, Connecticut, US Marc - Oliver Gewaltig, Section Manager of Neurorobotics, Simulation Neuroscience Division - Ecole Polytechnique fédérale de Lausanne (EPFL), Geneve, Switzerland Markus Axer, Head of Fiber architecture group, Institute of Neuroscience and Medicine (INM - 1) at Forschungszentrum Juelich, Germany Mickey Scheinowitz, Head of Regenerative Therapy Department of Biomedical Engineering and Neufeld Cardiac Research Institute, Tel - Aviv University, Israel Pablo Loza, Institute of Photonic Sciences, Castelldefels, Spain Patrick Hof, Mount Sinai Hospital, New York, US Paul Tiesinga, Professor at Faculty of Science, Radboud University, Nijmegen, Netherlands Silvestro Micera, Director of the Translational Neural Engineering (TNE) Laboratory, and Associate Professor at the EPFL School of Engineering and the Centre for Neuroprosthetics Timo Dicksheid, Group Leader of Big Data Analytics, Institute Structural and functional organisation of the brain, Forschungszentrum Juelich, Germany Trygve Leergaard, Professor of Neural Systems, Institute of Basic Medical Sciences, University of Oslo, Norway Viktor Jirsa, Director of the Institute de Neurosciences des Systèmes and Director of Research at the CNRS, Marseille, FBrain Institute, Seattle, US Huib Manswelder, Head of Department of Integrative Neurophysiology Center for Neurogenomics and Cognitive Research, VU University, Amsterdam Jan G. Bjaalie, Head of Neuroinformatics division, Institute of Basic Medical Sciences, University of Oslo, Norway Jean - François Mangin, Research Director Neuroimaging at CEA, Gif - sur - Yvette, France Jordi Mones, Institut de la Macula y la Retina, Barcelona, Spain Jurgen Popp, Scientific Director of the Leibniz Institute of Photonic Technology, Jena, Germany Katharina Zimmermann, Hochshule, Germany Katrin Amunts, Director of the Institute Structural and functional organisation of the brain, Forschungszentrum Juelich, Germany Leslie M. Loew, Professor at University of Connecticut Health Center, Connecticut, US Marc - Oliver Gewaltig, Section Manager of Neurorobotics, Simulation Neuroscience Division - Ecole Polytechnique fédérale de Lausanne (EPFL), Geneve, Switzerland Markus Axer, Head of Fiber architecture group, Institute of Neuroscience and Medicine (INM - 1) at Forschungszentrum Juelich, Germany Mickey Scheinowitz, Head of Regenerative Therapy Department of Biomedical Engineering and Neufeld Cardiac Research Institute, Tel - Aviv University, Israel Pablo Loza, Institute of Photonic Sciences, Castelldefels, Spain Patrick Hof, Mount Sinai Hospital, New York, US Paul Tiesinga, Professor at Faculty of Science, Radboud University, Nijmegen, Netherlands Silvestro Micera, Director of the Translational Neural Engineering (TNE) Laboratory, and Associate Professor at the EPFL School of Engineering and the Centre for Neuroprosthetics Timo Dicksheid, Group Leader of Big Data Analytics, Institute Structural and functional organisation of the brain, Forschungszentrum Juelich, Germany Trygve Leergaard, Professor of Neural Systems, Institute of Basic Medical Sciences, University of Oslo, Norway Viktor Jirsa, Director of the Institute de Neurosciences des Systèmes and Director of Research at the CNRS, Marseille, Fbrain, Forschungszentrum Juelich, Germany Leslie M. Loew, Professor at University of Connecticut Health Center, Connecticut, US Marc - Oliver Gewaltig, Section Manager of Neurorobotics, Simulation Neuroscience Division - Ecole Polytechnique fédérale de Lausanne (EPFL), Geneve, Switzerland Markus Axer, Head of Fiber architecture group, Institute of Neuroscience and Medicine (INM - 1) at Forschungszentrum Juelich, Germany Mickey Scheinowitz, Head of Regenerative Therapy Department of Biomedical Engineering and Neufeld Cardiac Research Institute, Tel - Aviv University, Israel Pablo Loza, Institute of Photonic Sciences, Castelldefels, Spain Patrick Hof, Mount Sinai Hospital, New York, US Paul Tiesinga, Professor at Faculty of Science, Radboud University, Nijmegen, Netherlands Silvestro Micera, Director of the Translational Neural Engineering (TNE) Laboratory, and Associate Professor at the EPFL School of Engineering and the Centre for Neuroprosthetics Timo Dicksheid, Group Leader of Big Data Analytics, Institute Structural and functional organisation of the brain, Forschungszentrum Juelich, Germany Trygve Leergaard, Professor of Neural Systems, Institute of Basic Medical Sciences, University of Oslo, Norway Viktor Jirsa, Director of the Institute de Neurosciences des Systèmes and Director of Research at the CNRS, Marseille, Fbrain, Forschungszentrum Juelich, Germany Trygve Leergaard, Professor of Neural Systems, Institute of Basic Medical Sciences, University of Oslo, Norway Viktor Jirsa, Director of the Institute de Neurosciences des Systèmes and Director of Research at the CNRS, Marseille, France

Jan G. Bjaalie, Head of Neuroinformatics division, Institute of Basic Medical Sciences, University of Oslo, Norway Trygve Leergaard, Professor of Neural Systems, Institute of Basic Medical Sciences, University of Oslo, Norway Hanchuan Peng, Hanchuan Peng, Associate Investigator at Allen Brain Institute, Seattle, US Bruno Weber, Professor of Multimodal Experimental Imaging, Universitaet Zuerich, Switzerland

Target Identification and Validation: The focus of basic neuroscience research at Boston Children's Hospital encompasses genetic - molecular research and systems - circuits - behavior research to advance understanding of the developing brain.

Janelia scientists are working on some of science's most challenging problems: discovering the basic rules and mechanisms of the brain's information - processing system and developing optical, biological, and computational technologies for creating and interpreting biological images.

Because the BHR also includes longitudinal data from many healthy adults, the collaboration may also increase knowledge about the basic functioning of the olfactory system beyond its role in brain disorders.

Ms. Miller is currently the Deputy Executive Director for Programs and Finance at the Society for Neuroscience (SfN), a professional society of basic scientists and physicians who study the brain and nervous system.

Take for example terms such as «core» (which basically is everything except your arms, legs and head), «CNS» — Central Nervous System (which is your brain and spinal cord), «GPP» — short for General Physical Preparedness (or basic fitness training), or «posterior kinetic chain» which is just a term for hamstrings, glutes and and the lower back!

Organizations such as the Heart - Math institute have enormous depths of free research and articles on the topic, but the basic idea is that your heart is a primary generator of rhythm in your body, and the heart can directly influence brain processes that control your nervous system, cognitive function and emotion.

It is possible, yet not as widely studied at the moment, to combine and develop the known and unknown connections between the body and mind systems through the basic brain learning principle of pattern recognition.

Vitamin B12 is one of the basic nutrients we need for the normal function of the brain, the nervous system, and the formation of red blood cells.

The basic sensations of hunger, pain and satiety are examples of signals that require efficient bidirectional communication between the enteric nervous system and the brain.

Protecting Children From Toxic Stress New York Times, October 30, 2013» «What the science is telling us now is how experience gets into the brain as it's developing its basic architecture and how it gets into the cardiovascular system and the immune system,» explains Jack P. Shonkoff, director of the Center on the Developing Child at Harvard University, where the term toxic stress was coined.»

If you scour veterinary literature, you won't find many double - blind clinical studies on therapy lasers; however, if you search PubMed for clinical evidence on the efficacy of laser therapy, you'll be inundated with thousands of articles on its various applications — ranging from its basic usages to the vastly more extreme and bizarre: things like treating diabetic ulcers, traumatic brain injuries, peripheral nervous system failures, mal - union fractures, and more.

Sure we understand the basics of weather and climate, just as we understand the basics of nutrition, the human immune system, and how the brain works.

The handout describes some of the basic principles of brain neurodevelopment involving use - dependent development of brain systems and the resulting self - organization of brain systems through a process of phased sequencing of system component activation.

Executive functions refer to systems in the brain that increasingly come to control information processing and behaviour in the course of development.1, 4 Commonly, three basic executive functions are distinguished: working memory (also called updating), inhibitory control and flexibility (also called shifting), but there is a debate whether these functions are already distinguishable in young children.5 Working memory refers to the ability to hold a limited amount of information temporarily active for processing and updating.

He will explore how early attachment patterns are somatically imprinted onto the development of the brain and nervous system as well as share basic PACT interviewing techniques.