Ort: Max-Planck-Institut für Kognitions- und Neurowissenschaften
Der Workshop hatte zum Ziel, weltbekannte Experten aus dem verschiedenen Gebieten der Entwicklungspsychologie zusammenzubringen. [mehr]

Dr. Roland Benoit

Gastvortrag

Rosalyn J. Moran, PhD

Gastvortrag

Dr. Felix Hasler | Why depression is not just like diabetes. Promises and disappointments of biological psychiatry

Cognitive Neurology Lecture

Dr. Robert Gütig | Spiking neurons can discover predictive features by aggregate-label learning

Gastvortrag

Prof. Hartwig Siebner | Causal brain mapping: How gets the brain a handle on its actions?

Gastvortrag

Prof. Thomas Hummel | Does it matter when the sense of smell is lost?

Gastvortrag

Dr. Lorenzo Stafford | Smelling, eating and eating! A journey through our oldest sense and its link to a very modern epidemic

Cognitive Neurology Lecture

Sarah Garfinkel | The dynamic relationship between body, brain and negative emotion

Cognitive Neurology Lecture

Prof. George Chrousos | The Neuroendocrinology of Stress: From the Stoics and Epicureans to Modern Medicine

Gastvortrag

Tom Fritz | From empirical music research to intervention in therapy

Institutskolloquium: Institutskolloquium (intern)

Prof. Anil K. Seth | Towards a neuroscience of consciousness: from phenomenology to mechanism

Gastvortrag

PD Dr. Stefanie Höhl | Dynamics of social learning in early development

Gastvortrag

Dr. Leonardo Cerliani | Structures of connectivity

Gastvortrag

Girls' Day 2016

Wissenschaft für alle

Sebastian Halder, PhD | Increasing accuracy and speed of BCI paradigms and applications

Gastvortrag
Brain-computer interfaces (BCIs) provide a non-muscular communication channel for patients with latestage motoneuron disease (e.g., amyotrophic lateral sclerosis (ALS)) or otherwise motor impaired people. Unfortunately, about a third of the potential users of BCIs are unable to use these systems with sufficient accuracy. Particularly worrisome, this number increases with the degree of impairment of the users. Thus, it is important to (1) develop new methods and BCI paradigms to increase accuracy, (2) determine possible causes for a lack of aptitude and (3) ensure that BCI applications have minimized complexity. In this talk novel auditory BCI paradigms and BCI applications that address these issues will be presented and possible approaches for the further development of communication methods for completely paralysed users discussed. [mehr]

PD Dr Thomas Knösche | Estimation of brain connectivity from EEG and MEG

Institutskolloquium (intern)

Dr. Vadim Nikulin | Multimodal investigation of spatio-temporal brain dynamics: neuroscientific and clinical perspectives

Gastvortrag

Dr. Stefan Haufe | What can non-invasive neurophysiology tell us about brain connectivity?

Gastvortrag

Prof. Dr Dan Zahavi | Empathy and we-intentionality: A role for phenomenology?

Gastvortrag
In my talk, I will give a brief introduction to recent attempts of facilitating a dialogue between phenomenology and cognitive (neuro)science, and then in more detail present some ideas about the nature of empathy and second-person engagement and discuss how both might play a role in collective intentionality and affective sharing. [mehr]

Prof. Marc Schönwiesner | Measuring auditory cortex plasticity with fMRI

Gastvortrag

Alexandra Jesse, Ph.D. | Speech perception in face-to-face communication

Gastvortrag

Dr. Elinor Tzvi-Minker | Motor learning and the diseased brain: what can we learn from patients with cerebellar ataxia?

Gastvortrag

Dr. Christian Benedict | Energy balance out of balance following sleep loss

Gastvortrag

Maria Nazarova, PhD | Multimodal assessment of the motor system in normal subjects and stroke patients

Gastvortrag

Elena Azañon Gracia | Remapping touch from skin to space

Gastvortrag

Dr. Michael A. Skeide | Institutskolloquium

Institutskolloquium (intern)

Prof. Shu-Chen Li | Neurocognitive aging of the frontal-striatal-hippocampal circuitry: Implications for memory, spatial learning and goal-directed behavior in old age

Gastvortrag
The efficacy of various neurotransmitter systems declines with advancing age. Of particular interest, various pre- and post-synaptic components of the frontal and striatal dopaminergic systems show substantial negative age-related differences across the adult life span. Furthermore, anatomical and functional changes in the frontal and hippocampal regions are also hallmarks of brain aging. This talk will selectively highlight findings from recent neuroimaging, pharmacological and genetic studies about aging of the frontal-hippocampal-striatal circuitry and the implications for memory, spatial learning, and sequential decision-making in old age. [mehr]
Abstract reasoning relies on a sequence of cognitive steps involving phases of task encoding, the structuring of solution steps, and their execution. On the neural level, metabolic neuroimaging studies have associated a distributed cognitive control or multiple-demand (MD) network with various aspects of abstract reasoning, and lesions within this network have been highly predictive for loss of fluid intelligence. By means of fMRI, I have specified the link between MD functions and fluid intelligence: low fluid intelligence has been associated with poor foregrounding of task-critical information across the MD system, accompanied by impaired performance. A second line of my research concerns the millisecond-by-millisecond neural dynamics in MD cortices. Evoked EEG-MEG source analyses revealed independent activation dynamics in frontal and parietal cortices within the first second of an abstract reasoning process. Oscillatory source power analyses allowed dissociating the memory and executive control functions underlying differential reasoning strategies. Together, my multi-method neuroimaging approach has provided insights into the anatomical, spatio-temporal, and oscillatory neural signatures of human abstract reasoning and fluid intelligence. [mehr]
The efficient processing of social information from the environment is critical for survival. For example, direct gaze captures attention and is rapidly detected in a visual search task, a phenomenon known as the eye contact effect (Senju & Johnson 2009). Similarly, fearful stimuli has been shown to also capture attention and be detected faster than non-fearful stimuli. We thus used eye contact as a typical example of social information and fearful faces as an example of threat. Using behavioral measures like eye movements and skin conductance responses, in combination with neural measures from functional magnetic resonance imaging, we investigated whether and to what extent the processing of such information depends on awareness. In a series of experiments, we first showed that gaze direction can be processed unconsciously and typically developed (TD) adults have a bias towards faces with direct gaze even when these faces are presented outside of awareness. Interestingly, individuals with autism spectrum disorder (ASD) have an unconscious avoidance of direct gaze. Neurally, faces with direct gaze require less neural activity to reach awareness compared to faces with an averted gaze providing a neural basis for the access of direct gaze to awareness. Finally, we observed that eye movements were not biased towards an aversively conditioned fearful face when presented outside of awareness. These results suggest that eye gaze information is initially processed through a subcortical, ‘quick and dirty’ pathway involving the amygdala and superior colliculus. Further they indicate that eye avoidance in ASD is an involuntary and automatic effect. Finally, they show that awareness might be necessary to observe the commonly reported attentional bias towards aversive stimuli providing a limit for the unconscious processing of social stimuli. [mehr]

Prof. Helmut Heinsen | From in situ post-mortem imaging to 7T: a Latin American path to translational medicine

Gastvortrag
The University of Sao Paulo (USP) operates the first and unique 7T scanner in South America in cooperation with the Autopsy Service of Sao Paulo (SVO). The latter institution performs 13.000 to 15.000 autopsies per annum within post-mortem times of less than 24h. In about 80% of the cases the next of kins of diseased individuals consent a donation of organs and brains for a comprehensive scientific investigation comprising in situ post-mortem 7T MRI scanning and subsequent histological examination [1. 2]. The introduction of 7T scanners has considerably enhanced the resolution of magnetic resonance images. However. compared with histological techniques. resolution and diagnostic range of advanced scanners are still limited. We are using a modified celloidin method that greatly facilitates cutting and Nissl staining of in situ post-mortem scanned complete human brains within a short time and acceptable costs [3]. Some examples including basic research. diagnostic tools. and therapeutic interventions are shown to demonstrate the feasibility and range of combined imaging-histological examination of complete human brains [4]. In this way data from virtual and histological reality have the potential to considerably extend our knowledge on normal and pathological brain structure and function.1 de Oliveira KC. Nery FG. Ferreti RE. Lima MC. Cappi C. Machado-Lima A. Polichiso L. Carreira LL. Avila C. Alho ATet al (2012) Brazilian psychiatric brain bank: a new contribution tool to network studies. Cell Tissue Bank 13: 315-326 2 Grinberg LT. Ferretti RE. Farfel JM. Leiti R. Pasqualucci CA. Rosemberg S. Nitrini R. Saldiva PHN. Filho WJ (2007) Brain bank of the Brazilian aging brain study group - a milestone reached and more than 1.600 collected brains. Cell Tissue Banking 8: 151 3 Heinsen H. Arzberger T. Schmitz C (2000) Celloidin mounting (embedding without infiltration) - a new. simple and reliable method for producing serial sections of high thickness through complete human brains and its application to stereological and immunohistochemical investigations. J Chem Neuroanat 20: 49-59 4 Theofilas P. Polichiso L. Wang XH. Lima LC. Alho ATL. Leite REP. Suemoto CK. Pasqualucci CA. Jacob W. Heinsen Het al (2014) A novel approach for integrative studies on neurodegenerative diseases in human brains. J Neurosci Methods 226: 171-183 [mehr]

Seung-Goo Kim | Auditory cortex in musicians with absolute pitch

Institutskolloquium (intern)
Understanding changes in cerebral and cerebellar motor representation during long-term motor training might help to develop most effective training procedures. For brain damage after stroke, these neuroplastic processes are different than those observed in healthy volunteers. Several factors modify training progress and motor representation in these patients. This talk will summarize recent findings on these issues and will focus predominantly on upper limb motor training. [mehr]

Dr Chris Lewis | Cortical feedback and repetition enhance sensory coding in primary visual cortex

Gastvortrag
Identical sensory stimulation results in highly dynamic response patterns in primary sensory cortex, despite the physical constancy of external factors. This response modulation is thought to be partly attributable to activity intrinsic to the brain itself, such as behavioral state and previous experience. Two prominent factors contributing to intrinsic brain activity are feedback signals from higher order areas and the history of coactivation amoung sensory cells. I will discuss a series of experiments that investigate the effects of cortical feedback and stimulus repetition on sensory coding in the primary visual cortex. We find that both feedback activity and sensory experience increase the amount of sensory information retrievable from population responses without changing the average activity of single cells or the mean activity across the population. Specifically, the information is encoded in the distributed pattern of activity across the population, as predicted by population coding and Hebbian plasticity. These findings suggest that early sensory cortices provide a highly flexible representation of external variables which reflects both the current state of higher order brain areas, as well as the history of previous stimulation. Time permitting, I will also discuss recent progress in our attempts to increase the spatial coverage of in vivo electrophysiology, while simultaneously acquiring signals at multiple spatial scales: from single neurons to whole brain areas. [mehr]

Haakon G. Engen | Endogenous emotion generation: Neural architecture and self-regulatory implications

Institutskolloquium (intern)

Dr Vitória Piai | Context-driven word retrieval: electrophysiology in healthy speakers and stroke survivors

Gastvortrag

Dr Patrick Freund | Tracking diaschisis across the neuroaxis: insights from neuroimaging

Kognitive-Neurologie-Vortrag
Recovery from spinal cord injury – and its attendant neurodegenerative processes – can follow a complicated trajectory spanning several years after trauma, where the ensuing diaschisis (meaning "shocked throughout") affects the entire neuroaxis. With potential treatments targeting repair of the injured spinal cord, there is an imperative to improve clinical trial design and efficiency, optimise patient stratification in the context of disease heterogeneity and identify potential trial outcome measures. The ability to track trauma-induced structural changes across the neuroaxis provides the opportunity to quantify pathological processes driving diaschisis and recovery-related plasticity. During my talk I will present evidence of progressive volume and microstructural changes (myelin and iron content) following acute spinal cord injury using state-of-the-art computational anatomy and post-processing tools. Further I will show latest developments of high-resolution MRI sequences and optimized post-processing methods to assess at the voxel level spinal cord grey and white matter changes. Finally, I will outline an integrative framework, which attempts to identify subgroups of neurologic disorders beyond standard clinical phenotyping – and to improve functional outcome with individualized treatment (i.e., precision neurology). This framework, franchised under the term “Embodied Neurology”, pays special emphasis on the reciprocal information flow between the body, spinal cord and brain. Spinal cord injury is a particularly interesting model in the context of EN as a focal traumatic lesion in the spinal cord has far reaching consequences in terms of both cortical reorganization at distant sites (cf. functional diaschisis) and the functional architecture within and beyond the spinal cord (cf. structural diaschisis). To establish EN there is a pressing need for further developments in neuroimaging with the aim to unify structural and functional biophysical models in order to link pathology to phenomenology with greater precision. [mehr]

Prof. Shu-Chen Li | Neurocognitive aging of the frontal-striatal-hippocampal circuitry: Implications for memory, spatial learning and goal-directed behavior in old age

Gastvortrag
The efficacy of various neurotransmitter systems declines with advancing age. Of particular interest, various pre- and post-synaptic components of the frontal and striatal dopaminergic systems show substantial negative age-related differences across the adult life span. Furthermore, anatomical and functional changes in the frontal and hippocampal regions are also hallmarks of brain aging. This talk will selectively highlight findings from recent neuroimaging, pharmacological and genetic studies about aging of the frontal-hippocampal-striatal circuitry and the implications for memory, spatial learning, and sequential decision-making in old age. [mehr]

Prof. Thomas Klockgether | Clinical and biological characteristics of ataxia disorders

Gastvortrag
In Clinical Neurology, ataxia denotes a syndrome of motor incoordination that typically results from dysfunction of the cerebellum and its afferent and efferent connections. Ataxia is also used to denote a group of neurodegenerative diseases of the cerebellum and its connections that are clinically characterized by progressive motor incoordination. Many of the ataxias have genetic causes, but there are also sporadic degenerative ataxias and ataxias which are due to acquired non-genetic causes. Overall, there is an enormous degree of heterogeneity among the ataxias with an estimated number of more than 150 different, molecularly defined diseases. Our research is focusing on the common, autosomal dominantly inherited spinocerebellar ataxias (SCA) which are caused by translated CAG repeat expansion mutations that code for an elongated polyglutamine tract within the respective proteins. To define the phenotype and natural history of these disorders we recruited a cohort of more than 500 patients and followed them over more than 8 years. Multivariate models allowed to explain up to 60% of the variability of the ataxia severity at baseline. Modelling of disease progression revealed genotype-specific patterns and identified biological factors that determine the rate of progression. MRI studies showed progressive grey and white matter tissue loss in cerebellum, brainstem and basal ganglia. Studies of a cohort of more than 300 apparently healthy SCA mutation carriers showed that first signs of impaired coordination and tissue loss of the brainstem or cerebellum occur more than 10 years before the clinical onset of ataxia. These observation led to a refined disease model of ataxia disorders that considers ataxia as a late disease stage which is preceded by extended asymptomatic and preclinical disease stages that offer a time window for early therapeutic intervention. Although CAG repeat expansion mutations are now known for more than two decades the mechanism how these mutations cause neurodegeneration remain far from clear. There is one component which is due to the toxic properties of proteins or protein fragments that contain elongated polyglutamine tracts. However, there are additional components that depend on the protein context of the polyglutamine tract and are disease specific. Currently, there is no treatment for SCA. Experimental work in cells and animals aims to reduce levels of mutant proteins using RNA interference (RNAi)and antisense oligonucleotides (AONs). An alternative approach is protein modification through AON-mediated exon skipping. As there are many obstacles to translate these approaches into clinical application there is renewed interest in finding drugs that interfere with cerebellar neuronal activity and thereby symptomatically improve ataxia. [mehr]

Dr Adrian Fischer | Dissociating reward- and information-based learning using EEG and fMRI

Gastvortrag
Human decision making often involves weighting of values obtained via the rewarding quality of experience, but can uniquely incorporate more abstract aspects such as information about possible long-term consequences. While the former is computationally simple and efficient, the latter requires utilization of a model about the world. I will present results of two studies aiming to disentangle unique learning mechanisms for both propensities. The first will focus on the cortical temporal dynamics of learning from reward compared to information revealed in the human EEG. The second will focus on regional specificity of neural correlates of learning from model-free and model-based outcomes that dissociate ventral from dorsal striatum in the fMRI. [mehr]

Yasser Iturria Medina, PhD | Multifactorial modeling of neurodegenerative progression

Kognitive-Neurologie-Vortrag

PhD Hadas Okon-Singer | Factors modulating emotional reactions: Attention, personality and neural architecture

Kognitive-Neurologie-Vortrag

Ruud Berkers | Modulatory influences on neural learning systems and long-term memory formation

Institutskolloquium (intern)
The search for the structures underlying human cognition, and their corresponding neural substrates, has preoccupied many psychologists and neuroscientists in recent decades. How should scientists best carve up the many dimensions of cognition, emotion, and action into distinct functions or faculties? Do the terms "working memory" and "executive control" reflect the same or different underlying processes? Are there such things as "basic" emotions, and if so, how many? Such questions are difficult to answer but important to ask. Unfortunately, none of them will be directly addressed in this talk. Instead, I will focus on a number of important methodological and conceptual issues surrounding our collective efforts to study the structure of the human mind via brain imaging methods. These include low sensitivity and specificity, poor construct validity, and a lack of isomorphism between constructs at different levels of description. Drawing on a series of recent studies, I demonstrate how large-scale meta-analyses of thousands of published fMRI studies can help us overcome many, but perhaps not all, of these issues. I conclude with a speculative discussion of the short-term and long-term prospects for a fully realized cognitive neuroscience of the human mind. [mehr]

Lieneke Janssen | Breaking bad habits – A meditation on the neurocognitive mechanisms of compulsive behaviour

Gastvortrag
We all have our habits, good and bad. But only for some, habits go from bad to worse and behaviour becomes compulsive, as we see for example in addiction or clinical overeating. How is it that a useful mechanism such as our habit system can come to work against us? Why does it happen for only some and not others when faced with tempting rewards? And how can we get back in control? In my doctoral studies I aimed to increase our understanding of this by investigating the neural and cognitive mechanisms underlying compulsive gambling (in gambling addiction) and eating behaviour (in a non-clinical population). Building on an extensive body of addiction literature, I used a variety of experimental paradigms to tap into different aspects of compulsive behaviour. I focussed in particular on altered reward processing and loss of control over automatic tendencies triggered by reward-related stimuli. Furthermore, I investigated the effects of a pharmacological (dopamine) and a behavioural (mindfulness) intervention on reward processing. [mehr]

Dr Michael Gaebler | The Leipzig Study for Mind-Body-Emotion Interactions (LEMON) – pt. 1: interactions between the cardiovascular system and the central nervous system

Institutskolloquium (intern)
What makes our experience of music possible – and effortless – is an intricate puzzle of cognitive processes, involving a subtle interplay of what psychologists refer to as bottom-up and top-down components. The key concept of expectation can be construed at the centre of a complex feedback loop between these components, relaying information in both directions, and at different time scales. This framework holds not just for music we hear (an exogenous/bottom-up process) but also for music we create in our minds (endogenous/top-down). One mode of acquiring musical knowledge is implicit learning, which gradually gets to shape our sensory preferences, e.g. for certain combinations of simultaneous notes over others (consonant over dissonant chords – or indeed, in some contexts, vice-versa!), and also our unfolding expectations relating to e.g. what musical event might come next. These expectations form the core of a set of intuitions that have been formalised as models of musical structure, most notably Schenkerian analysis. Such models can inspire quantifiable predictions about the temporal nature of our expectation – for instance, with regards to the moment in time when we feel a piece is "beginning to end". The sum of these intuitions endows us with a template that on the one hand enables us to make sense of music that we hear; but equally, also to (re)create music in our own minds – a process known as musical imagery, which shares commonalities with music perception not only at the cognitive level (e.g. both can be conjectured to stem from a single generative model) but also at the neuronal level. In this talk, I will describe three distinct studies from the Dresden Music Cognition Lab, that address – using behavioural and neuroimaging methods – individual elements of the expectation-mediated loop outlined above, namely (i) the (local) perception of consonance and dissonance; (ii) the (non-local) perception of hierarchical musical structures; and (iii) the role of harmonic function in imagined music. I will then attempt to integrate these findings into the larger questions of how expectation guides our listening and imagery of music, and how the brain is wired to make these processes run smoothly in the background. Keywords: Musical imagery, Schenkerian analysis, consonance and dissonance; decoding fMRI, multivariate pattern analysis, time series analyses. [mehr]

Dr Til Ole Bergmann | On the function of neuronal oscillations: insights from transcranial brain stimulation and electrophysiology

Gastvortrag

Prof. Niels Birbaumer | Brain computer interfaces in paralyis and voluntary brain regulation

Gastvortrag

Dr Melanie Boly | Quantifying consciousness

Gastvortrag
Behavioral reports have traditionally been the gold standard for evaluating the presence of consciousness. However, it is becoming clear that consciousness can be present even in the absence of overt behavior and in unresponsive subjects. I will present neurophysiological evidence supporting the presence of consciousness in dissociated states from several domains. Measures of cortical integration and differentiation have recently proven to be the most reliable marker of consciousness irrespective of behavior and have been validated in a large number of different conditions. The most common dissociation between consciousness and behavior occurs every night during dreaming sleep. Recent work using both within-state, no-task paradigms and TMS-EEG shows that consciousness can be present during non REM sleep when the front of the brain shows high amplitude slow waves, as long as a posterior cortical hot zone is activated. Studies using different anesthetics have also shown that fully unresponsive subjects anesthetized with ketamine (as compared to propofol or xenon) retrospectively report intense dreams, which are again associated with high complexity responses to TMS, despite the occurrence of slow waves. High complexity responses can also be observed in about 20% of patients in a vegetative state suggesting, in line with previous findings using active paradigms, that a number of completely unresponsive patients may retain consciousness. Finally, a number of studies in healthy awake volunteers have emphasized frequent dissociations between consciousness and task-related cognitive functions. Overall, recent findings show that the anatomical neural correlates of consciousness are primarily localized to a posterior cortical hot zone that includes sensory areas, rather than to a fronto-parietal network involved in task monitoring and reporting. I will end by discussing promising avenues of future research. [mehr]

Claudia Roswandowitz | Who is speaking? Cognitive and neural mechanisms of voice-identity processing

Institutskolloquium (intern)
The neuropsychology of familiar people recognition through face and voice will be surveyed from the clinical and the cognitive point of view, taking into account modality-specific (prosopagnosia and phonagnosia) and multimodal person recognition disorders. Our starting assumption was that many patients with right temporal lobe atrophy are incorrectly labelled as prosopagnosics, because faces are often considered as the most important channel used to recognize familiar people. In fact a multimodal familiar person recognition disorder may more accurately characterise the deficit in these patients. The clinical and the cognitive implications of this starting point will be developed and some current research perspectives will be exposed. [mehr]

PhD Kerrin Pine | Acquisition of ultra-high resolution quantitative maps for in-vivo histology

Institutskolloquium (intern)
To better understand the normal and diseased human brain, reliable knowledge at the microstructural level is key. While ex-vivo histology remains the standard, advances in magnetic resonance imaging are making it increasingly possible to directly estimate histological markers and microstructural characteristics of brain tissue non-invasively. We have previously established methods for quantitative mapping of MR parameters at standard resolutions. However, to achieve the goal of integrating multi-modal MRI data into a unified model of MRI contrasts, cortical anatomy and tissue microstructure, unprecedented imaging resolutions will be required. As well as showing some of our latest 400 µm quantitative data, in this presentation I will outline our plans for developing in-vivo histology, and from an MR physics perspective highlight some of the technical challenges. Critical to achieving the necessary data quality are higher field strengths, RF coils, optical prospective motion correction and the retrospective correction of instrumental and physiological artefacts. While there is still much development to be done, data we are now acquiring holds promise for future studies of the microstructure and structure-function relationship of the living human brain. [mehr]

Girls' Day 2017 | Auf ins Gehirn!

Wissenschaft für alle
Building on recent advances in mapping the distinct areas and interconnected systems of the cerebral cortex, this workshop aims to explore the significance of their spatial arrangement. What principles underlie cortical organization on a broad scale, and how do these patterns provide insight into the mechanisms of cortical development and function? To explore these questions, we invite perspectives from neuroimaging, computational modeling, comparative neuroanatomy, genetics, machine learning and cognitive neuroscience to a shared discussion. [mehr]
This follow-up event will provide the opportunity for collaborative interaction between participants to address the themes of the prior workshop through hands-on software development and data analysis. [mehr]

Lange Nacht der Wissenschaften

Wissenschaft für alle
Die vollständigen Inhalte sind nur in englischer Sprache verfügbar. Nutzen Sie bitte das Flaggensymbol im oberen rechten Bereich, um zur englischen Version zu wechseln. [mehr]

Max-Planck-Tag Schülercampus

Wissenschaft für alle

Lange Nacht der Wissenschaften

Lange Nacht der Wissenschaften Leipzig : Wissenschaft für alle

Lange Nacht der Wissenschaften

Wissenschaft für alle
Am 23. Juni 2023 öffnen viele Leipziger Forschungseinrichtungen ihre Türen. So auch unser Institut: Besuchen Sie uns und erfahren Sie, wie wir mit Hilfe der Magnetresonanztomografie das Gehirn erforschen, wie wir Virtual Reality einsetzen, was wir über die Verarbeitung von Schmerz wissen oder welche Meilensteine Kinder in ihrer Entwicklung zurücklegen. Freuen Sie sich mit uns auf ein breitgefächertes Programm, das ihnen Einblick in die zahlreichen Facetten der neurowissenschaftlichen Forschung verschafft: [mehr]
The 10th international Summer School in Biomedical Engineering continues a series of summer schools that addresses state of the art techniques for measurement, data processing, source reconstruction, brain stimulation, multimodal data integration, and generative modeling. (nur in englischer Sprache) [mehr]
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