Your search keyword '"Jung, Fabienne"' showing total 11 results

1. Dopamine substitution alters effective connectivity of cortical prefrontal, premotor, and motor regions during complex bimanual finger movements in Parkinson's disease

Author

Nettersheim, Felix Sebastian, Loehrer, Philipp Alexander, Weber, Immo, Jung, Fabienne, Dembek, Till Anselm, Pelzer, Esther Annegret, Dafsari, Haidar Salimi, Huber, Carlo Andreas, Tittgemeyer, Marc, and Timmermann, Lars

Published

2019

2. Model-based feature construction for multivariate decoding

Author

Brodersen, Kay H., Haiss, Florent, Ong, Cheng Soon, Jung, Fabienne, Tittgemeyer, Marc, Buhmann, Joachim M., Weber, Bruno, and Stephan, Klaas E.

Published

2011

3. Model-based prediction of muscarinic receptor function from auditory mismatch negativity responses

Author

Schöbi, Dario, primary, Jung, Fabienne, additional, Frässle, Stefan, additional, Endepols, Heike, additional, Moran, Rosalyn J., additional, Friston, Karl J., additional, Tittgemeyer, Marc, additional, Heinzle, Jakob, additional, and Stephan, Klaas Enno, additional

Published

2020

4. Ageing changes effective connectivity of motor networks during bimanual finger coordination

Author

Loehrer, Philipp Alexander, primary, Nettersheim, Felix Sebastian, additional, Jung, Fabienne, additional, Weber, Immo, additional, Huber, Carlo, additional, Dembek, Till Anselm, additional, Pelzer, Esther Annegret, additional, Fink, Gereon Rudolf, additional, Tittgemeyer, Marc, additional, and Timmermann, Lars, additional

Published

2016

5. Mismatch Responses in the Awake Rat: Evidence from Epidural Recordings of Auditory Cortical Fields

Author

Jung, Fabienne, Stephan, Klaas, Backes, Heiko, Moran, Rosalyn, Gramer, Markus, Kumagai, Tetsuya, Graf, Rudolf, Endepols, Heike, Tittgemeyer, Marc, University of Zurich, and Jung, Fabienne

Subjects

Central Nervous System, Male, Anatomy and Physiology, lcsh:Medicine, 610 Medicine & health, 1100 General Agricultural and Biological Sciences, behavioral disciplines and activities, Neurological System, 170 Ethics, Model Organisms, 1300 General Biochemistry, Genetics and Molecular Biology, Reaction Time, Animals, 10237 Institute of Biomedical Engineering, Wakefulness, lcsh:Science, Biology, Auditory Cortex, 1000 Multidisciplinary, lcsh:R, Electroencephalography, Animal Models, Sensory Systems, Rats, Electrophysiology, Auditory System, Acoustic Stimulation, Evoked Potentials, Auditory, Rat, Medicine, lcsh:Q, Sensory Perception, Research Article, Neuroscience, Psychoacoustics

Abstract

Detecting sudden environmental changes is crucial for the survival of humans and animals. In the human auditory system the mismatch negativity (MMN), a component of auditory evoked potentials (AEPs), reflects the violation of predictable stimulus regularities, established by the previous auditory sequence. Given the considerable potentiality of the MMN for clinical applications, establishing valid animal models that allow for detailed investigation of its neurophysiological mechanisms is important. Rodent studies, so far almost exclusively under anesthesia, have not provided decisive evidence whether an MMN analogue exists in rats. This may be due to several factors, including the effect of anesthesia. We therefore used epidural recordings in awake black hooded rats, from two auditory cortical areas in both hemispheres, and with bandpass filtered noise stimuli that were optimized in frequency and duration for eliciting MMN in rats. Using a classical oddball paradigm with frequency deviants, we detected mismatch responses at all four electrodes in primary and secondary auditory cortex, with morphological and functional properties similar to those known in humans, i.e., large amplitude biphasic differences that increased in amplitude with decreasing deviant probability. These mismatch responses significantly diminished in a control condition that removed the predictive context while controlling for presentation rate of the deviants. While our present study does not allow for disambiguating precisely the relative contribution of adaptation and prediction error processing to the observed mismatch responses, it demonstrates that MMN-like potentials can be obtained in awake and unrestrained rats., PLoS ONE, 8 (4), ISSN:1932-6203

Published

2013

6. Ageing changes effective connectivity of motor networks during bimanual finger coordination

Author

Loehrer, Philipp Alexander, Nettersheim, Felix Sebastian, Jung, Fabienne, Weber, Immo, Huber, Carlo, Dembek, Till Anselm, Pelzer, Esther Annegret, Fink, Gereon Rudolf, Tittgemeyer, Marc, Timmermann, Lars, Loehrer, Philipp Alexander, Nettersheim, Felix Sebastian, Jung, Fabienne, Weber, Immo, Huber, Carlo, Dembek, Till Anselm, Pelzer, Esther Annegret, Fink, Gereon Rudolf, Tittgemeyer, Marc, and Timmermann, Lars

Abstract

Bimanual finger coordination declines with age. However, relatively little is known about the neurophysiological alterations in the motor-system causing this decline. In the present study, we used 128 channel electroencephalography (EEG) to evaluate causal interactions of cortical, motor-related brain areas. Right-handed young and elderly subjects performed complex temporally and spatially coupled as well as temporally coupled and spatially uncoupled finger tappings. Employing dynamic causal modelling (DCM) for induced responses, we inferred task-induced effective connectivity within a core motor network comprising bilateral primary motor cortex (M1), lateral premotor cortex (1PM), supplementary motor area (SMA), and prefrontal cortex (PFC). Behavioural analysis showed significantly increased error rates and performance times for elderly subjects, confirming that motor functions decrease with ageing. Additionally, DCM analysis revealed that this age-related decline can be associated with specific alterations of interhemispheric and prefrontal to premotor connectivity. Young and elderly subjects exhibited inhibitory left to right M1-M1 coupling during performance of temporally and spatially coupled movements. Effects of ageing on interhemispheric connectivity particularly emerged when movements became spatially uncoupled. Here, elderly participants still expressed inhibitory left to right M1-M1 coupling, whereas no such connection was present in the young. Furthermore, ageing affected prefrontal to premotor connectivity. In all conditions, elderly subjects showed significant couplings from left PFC to left 1PM. In contrast, young participants exhibited left PFC to SMA connections. These results demonstrate that (i) in spatially uncoupled movements interhemispheric MI-connectivity increases with age and (ii) support the idea that ageing is associated with enhanced lateral prefrontal to premotor coupling (PFC to IPM) and hypoactivation of a medial pathway (PFC to SMA)

Published

2016

7. Neural correlates of sensorimotor gating: a metabolic positron emission tomography study in awake rats

Author

Rohleder, Cathrin, primary, Jung, Fabienne, additional, Mertgens, Hanna, additional, Wiedermann, Dirk, additional, Sué, Michael, additional, Neumaier, Bernd, additional, Graf, Rudolf, additional, Leweke, F. Markus, additional, and Endepols, Heike, additional

Published

2014

8. Dynamic Causal Models and Physiological Inference: A Validation Study Using Isoflurane Anaesthesia in Rodents

Author

Moran, Rosalyn J., Jung, Fabienne, Kumagai, Tetsuya, Endepols, Heike, Graf, Rudolf, Dolan, Raymond J., Friston, Karl J., Stephan, Klaas Enno, Tittgemeyer, Marc, Moran, Rosalyn J., Jung, Fabienne, Kumagai, Tetsuya, Endepols, Heike, Graf, Rudolf, Dolan, Raymond J., Friston, Karl J., Stephan, Klaas Enno, and Tittgemeyer, Marc

Abstract

Generative models of neuroimaging and electrophysiological data present new opportunities for accessing hidden or latent brain states. Dynamic causal modeling (DCM) uses Bayesian model inversion and selection to infer the synaptic mechanisms underlying empirically observed brain responses. DCM for electrophysiological data, in particular, aims to estimate the relative strength of synaptic transmission at different cell types and via specific neurotransmitters. Here, we report a DCM validation study concerning inference on excitatory and inhibitory synaptic transmission, using different doses of a volatile anaesthetic agent (isoflurane) to parametrically modify excitatory and inhibitory synaptic processing while recording local field potentials (LFPs) from primary auditory cortex (A1) and the posterior auditory field (PAF) in the auditory belt region in rodents. We test whether DCM can infer, from the LFP measurements, the expected drug-induced changes in synaptic transmission mediated via fast ionotropic receptors; i.e., excitatory (glutamatergic) AMPA and inhibitory GABAA receptors. Cross- and auto-spectra from the two regions were used to optimise three DCMs based on biologically plausible neural mass models and specific network architectures. Consistent with known extrinsic connectivity patterns in sensory hierarchies, we found that a model comprising forward connections from A1 to PAF and backward connections from PAF to A1 outperformed a model with forward connections from PAF to A1 and backward connections from A1 to PAF and a model with reciprocal lateral connections. The parameter estimates from the most plausible model indicated that the amplitude of fast glutamatergic excitatory postsynaptic potentials (EPSPs) and inhibitory postsynaptic potentials (IPSPs) behaved as predicted by previous neurophysiological studies. Specifically, with increasing levels of anaesthesia, glutamatergic EPSPs decreased linearly, whereas fast GABAergic IPSPs displayed a nonlinea

Published

2011

9. Dynamic causal models and physiological inference: A validation study using isoflurane anaesthesia in rodents

Author

Moran, Rosalyn J, Jung, Fabienne, Kumagai, Tetsuya, Endepols, Heike, Graf, Rudolf, Dolan, Raymond J, Friston, Karl J, Stephan, Klaas E, Tittgemeyer, Marc, Moran, Rosalyn J, Jung, Fabienne, Kumagai, Tetsuya, Endepols, Heike, Graf, Rudolf, Dolan, Raymond J, Friston, Karl J, Stephan, Klaas E, and Tittgemeyer, Marc

Abstract

Generative models of neuroimaging and electrophysiological data present new opportunities for accessing hidden or latent brain states. Dynamic causal modeling (DCM) uses Bayesian model inversion and selection to infer the synaptic mechanisms underlying empirically observed brain responses. DCM for electrophysiological data, in particular, aims to estimate the relative strength of synaptic transmission at different cell types and via specific neurotransmitters. Here, we report a DCM validation study concerning inference on excitatory and inhibitory synaptic transmission, using different doses of a volatile anaesthetic agent (isoflurane) to parametrically modify excitatory and inhibitory synaptic processing while recording local field potentials (LFPs) from primary auditory cortex (A1) and the posterior auditory field (PAF) in the auditory belt region in rodents. We test whether DCM can infer, from the LFP measurements, the expected drug-induced changes in synaptic transmission mediated via fast ionotropic receptors; i.e., excitatory (glutamatergic) AMPA and inhibitory GABAA receptors. Cross- and auto-spectra from the two regions were used to optimise three DCMs based on biologically plausible neural mass models and specific network architectures. Consistent with known extrinsic connectivity patterns in sensory hierarchies, we found that a model comprising forward connections from A1 to PAF and backward connections from PAF to A1 outperformed a model with forward connections from PAF to A1 and backward connections from A1 to PAF and a model with reciprocal lateral connections. The parameter estimates from the most plausible model indicated that the amplitude of fast glutamatergic excitatory postsynaptic potentials (EPSPs) and inhibitory postsynaptic potentials (IPSPs) behaved as predicted by previous neurophysiological studies. Specifically, with increasing levels of anaesthesia, glutamatergic EPSPs decreased linearly, whereas fast GABAergic IPSPs displayed a nonlinea

Published

2011

10. Dynamic Causal Models and Physiological Inference: A Validation Study Using Isoflurane Anaesthesia in Rodents

Author

Moran, Rosalyn J., primary, Jung, Fabienne, additional, Kumagai, Tetsuya, additional, Endepols, Heike, additional, Graf, Rudolf, additional, Dolan, Raymond J., additional, Friston, Karl J., additional, Stephan, Klaas E., additional, and Tittgemeyer, Marc, additional

Published

2011

11. POST.

Author

Jung, Fabienne and Baker, Terry

Abstract

Several letters to the editor are presented in response to articles in previous issues including "Let It All Out" in the February 2008 issue, "If Looks Could Chill" and one on the migration of homosexual community.

Published

2008