Tag: Obleser

ERC Consolidator Grant awarded to Jonas Obleser

Post author By Jonas
Post date 2015/03/19

It is with great pleasure that we can report on a new major grant for the Auditory Cognition group / Obleser lab: In the 2014 call by the European Research Council (ERC), Jonas Obleser has very recently been awarded an ERC Consolidator grant (for researchers 7–12 years post their PhD), worth 1.97 million €. The grant has been awarded to fund a project entitled “The listening challenge: How ageing brains adapt”. The project will last for five years.

Read the official ERC press release here.

Tags Obleser

EEG / MEG Neural Oscillations Neural Phase Papers Publications

Strauß again — in Journal of Neuroscience

Post author By Jonas
Post date 2015/02/19

Alumna Dr. Antje Strauß just got another paper on:

Alpha Phase Determines Successful Lexical Decision in Noise

by Antje Strauß, Molly Henry, Mathias Scharinger, and Jonas Obleser

appeared in Journal of Neuroscience. Check the abstract below;

Abstract

Psychophysical target detection has been shown to be modulated by slow oscillatory brain phase. However, thus far, only low-level sensory stimuli have been used as targets. The current human electroencephalography (EEG) study examined the influence of neural oscillatory phase on a lexical-decision task performed for stimuli embedded in noise. Neural phase angles were compared for correct versus incorrect lexical decisions using a phase bifurcation index (BI), which quantifies differences in mean phase angles and phase concentrations between correct and incorrect trials. Neural phase angles in the alpha frequency range (8–12 Hz) over right anterior sensors were approximately antiphase in a prestimulus time window, and thus successfully distinguished between correct and incorrect lexical decisions. Moreover, alpha-band oscillations were again approximately antiphase across participants for correct versus incorrect trials during a later peristimulus time window (∼500 ms) at left-central electrodes. Strikingly, lexical decision accuracy was not predicted by either event-related potentials (ERPs) or oscillatory power measures. We suggest that correct lexical decisions depend both on successful sensory processing, which is made possible by the alignment of stimulus onset with an optimal alpha phase, as well as integration and weighting of decisional information, which is coupled to alpha phase immediately following the critical manipulation that differentiated words from pseudowords. The current study constitutes a first step toward characterizing the role of dynamic oscillatory brain states for higher cognitive functions, such as spoken word recognition.

Tags bifurcation index, decision weighting, erp, Henry, Journal of Neuroscience, lexical decision, Obleser, Scharinger, sensory selection, Strauß

EEG / MEG Neural Oscillations Neural Phase Papers Publications

New Paper out in Psychophysiology — Wilsch et al.

Post author By Jonas
Post date 2015/02/18

A new paper on

Slow-delta phase concentration marks improved temporal expectations based on the passage of time

by AC PhD Anna Wilsch, alumni postdocs Molly Henry & Björn Herrmann, AC head Jonas Obleser along with Burkhard Maess appeared in Psychophysiology.

Check the online source, or take a quick look on the abstract below.

Abstract

Temporal expectations enhance neural encoding precision, reflected in optimized alignment of slow neural oscillatory phase, and facilitate subsequent stimulus processing. If an event’s exact occurrence time is unknown, temporal expectations arise solely from the passage of time. Here, we show that this specific type of temporal expectation is also reflected in neural phase organization. While undergoing magnetoencephalography, participants performed an auditory-delayed matching-to-sample task with two syllables (S1, S2). Critically, S1-onset time varied in the 0.6–1.8‑s (i.e., 0.6−1.7 Hz) range. Increasing S1-onset times led to increased slow-delta (0.6−0.9 Hz) phase coherence over right frontotemporal sensors during S1 encoding. Moreover, individuals with higher slow-delta coherence showed decreased alpha power (8−13 Hz) during subsequent memory retention. In sum, temporal expectations based on the passage of time optimize the precise alignment of neural oscillatory phase with an expected stimulus.

References

Wilsch A1, Henry MJ, Herrmann B, Maess B, Obleser J. Slow-delta phase concentration marks improved temporal expectations based on the passage of time. Psychophysiology. 2015 Feb 16. PMID: 25684032. [Open with Read]

Tags delayed match-to-sample, Henry, Herrmann, Maess, Obleser, phase coherence, Psychophysiology, slow-delta, temporal expectations, Wilsch

Editorial Notes

2015 — Embracing Change in the Obleser Lab

Post author By Jonas
Post date 2015/02/09

Time flies: The Auditory Cognition group aka The Obleser Lab has just entered its fifth year. We took off properly in early 2011, so this is a good point in time to briefly recap. We have had four exciting and very productive years so far, and this fifth year is bringing a lot of exciting turn-over as well. First, new faces have joined our group:

Dr. Sophie Herbst a psychologist with keen interests in time perception joined us as a postdoc, coming from Niko Busch’s lab at the Charité Berlin.

Dipl.-Ing. (FH) Lorenz Fiedler joined us to help us build real-time links between EEG and hearing aids, as planned in our Volkswagen project.

Second, a few great talents have moved on with the beginning of 2015:

Antje Strauß just received her Dr. rer. nat. (PhD) from the University of Leipzig and is now at the GIPSA lab, University of Grenoble, France.

Dr. Molly Henry and Dr. Björn Herrmann have both taken up new Postdoctoral jobs at the University of Western Ontario, London, Ontario, CA. They will be working with Jessica Grahn and Ingrid Johnsrude, respectively.

Dr. Alex Brandmeyer could not resist a fantastic offer by Dolby Systems Inc., San Francisco to join them as a research scientist.

Earlier in autumn 2014 already, Julia Erb had taken up a postdoc position with Elia Formisano at the University of Maastricht.

… the best of luck and many thanks to all the new AC alumni!

Lastly, Jonas as head of the group has just been appointed Professor for Research Methods and Statistics at the (newly-founded) Department of Psychology, University of Lübeck, Germany.

These great news also imply that the Auditory Cognition group as a whole will, as conceived by the Max Planck Society when providing this five-year start-up funding, slowly transplant to a new place, namely: Lübeck, over the year to come. Watch this space! Yet, the labels “auditorycognition.com” and “obleserlab.com” will surely remain active and move with us.

Tags Brandmeyer, Busch, Charité, Dolby, Erb, Fiedler, Formisano, GIPSA, Grahn, Henry, Herbst, Herrmann, Johnsrude, Lübeck, Obleser, Strauß, Volkswagen

Auditory Cortex Auditory Neuroscience Clinical relevance Degraded Acoustics EEG / MEG Executive Functions Hearing Loss Media Neural Oscillations Papers Publications Speech

Max Planck Society reports on Wöstmann et al.’s Neural alpha dynamics

Post author By Jonas
Post date 2015/02/02

Some days ago the Max Planck Society put out a news feature on our most recent Journal of Neuroscience paper (see our post):

Aufmerksam zuhören — Hirn-Wellen zeigen Mühen des Hörens im Alter an

Summary

Ältere Menschen klagen oft über Hörschwierigkeiten, besonders wenn mehrere Personen durcheinander sprechen. Forscher am Max-Planck-Institut für Kognitions- und Neurowissenschaften in Leipzig haben herausgefunden, dass der Grund hierfür nicht nur im Ohr, sondern ebenso in veränderten Aufmerksamkeitsprozessen im Gehirn älterer Menschen zu finden ist. Eine besondere Bedeutung kommt dabei den Alpha-Wellen zu, deren Anpassung an veränderte Hörsituationen das Sprachverständnis in Alltagssituationen verbessert.

It nicely wraps up Malte’s experiment on alpha dynamics in younger and older listeners. Check the link above for the full article (German).

References

Wöstmann M1, Herrmann B2, Wilsch A2, Obleser J3. Neural alpha dynamics in younger and older listeners reflect acoustic challenges and predictive benefits. J Neurosci. 2015 Jan 28;35(4):1458–67. PMID: 25632123. [Open with Read]

Tags Herrmann, Journal of Neuroscience, Max Planck Society, Obleser, Wilsch, Wöstmann

Degraded Acoustics EEG / MEG Linguistics Neural Oscillations Neural Phase Papers Perception Publications Speech

New paper in press in the Journal of Neuroscience: Strauß, Henry, Scharinger, & Obleser

Post author By Jonas
Post date 2015/01/15

Congratulations to just-graduated former AC PhD student and fresh GIPSA/Grenoble Postdoc Antje Strauß, who today had the last data set from her PhD thesis accepted as a paper in The Journal of Neuroscience. We are all very happy!

The paper is entitled “Alpha phase determines successful lexical decision in noise” and contains arguably the first data set to extend principles of (alpha, 8–12 Hz) pre-stimulus phase dependence from low-level psychophysics to more complex language or cognitive processes, here: lexical decision.

A big hello to AC friend and colleague Niko Busch, by the way, whose bifurcation index measure served our purposes very well here!

We will update accordingly, but meanwhile, here is the abstract and my favourite figure from the paper.

Abstract

Psychophysical target detection has been shown to be modulated by slow oscillatory brain phase. However, thus far, only low-level sensory stimuli have been used as targets. The current human electroencephalography study examined the influence of neural oscillatory phase on a lexical-decision task performed for stimuli embedded in noise. Neural phase angles were compared for correct versus incorrect lexical decisions using a phase bifurcation index, which quantifies differences in mean phase angles and phase concentrations between correct and incorrect trials. Neural phase angles in the alpha frequency range (8–12 Hz) over right anterior sensors were approximately anti-phase in a pre-stimulus time window, and thus successfully distinguished between correct and incorrect lexical decisions. Moreover, alpha-band oscillations were again approximately anti-phase across participants for correct versus incorrect trials during a later peri-stimulus time-window (around 500 ms) at left-central electrodes. Strikingly, lexical decision accuracy was not predicted by either ERPs or oscillatory power measures. We suggest that correct lexical decisions depend both on successful sensory processing, which is made possible by the alignment of stimulus onset with an optimal alpha phase, as well as integration and weighting of decisional information, which is coupled to alpha phase immediately following the critical manipulation that differentiated words from pseudowords. The current study constitutes a first step towards characterizing the role of dynamic oscillatory brain states for higher cognitive functions such as spoken word recognition.

Tags alpha, Henry, Journal of Neuroscience, Obleser, Scharinger, Strauß

Ageing Auditory Cortex Auditory Neuroscience Clinical relevance Degraded Acoustics EEG / MEG Executive Functions Hearing Loss Neural Oscillations Papers Publications Speech

New paper in press in the Journal of Neuroscience: Wöstmann, Herrmann, Wilsch, & Obleser [UPDATED #2]

Post author By Jonas
Post date 2014/12/03

Congratulations to AC PhD student Malte Wöstmann for his newly accepted paper in the Journal of Neuroscience!

Wöstmann M, Herrmann B, Wilsch A, & Obleser J.

Neural alpha dynamics in younger and older listeners reflect acoustic challenges and predictive benefits

J Neurosci, in press.

Here is the abstract and my favourite figure from Malte’s paper.

Abstract

Speech comprehension in multi-talker situations is a notorious real-life challenge, particularly for older listeners. Younger listeners exploit stimulus-inherent acoustic detail, but are they also actively predicting upcoming information? And further, how do older listeners deal with acoustic and predictive information? To understand the neural dynamics of listening difficulties and according listening strategies, we contrasted neural responses in the alpha-band (~10 Hz) in younger (20−30 years, n = 18) and healthy older (60−70 years, n = 20) participants under changing task demands in a two-talker paradigm. Electroencephalograms were recorded while humans listened to two spoken digits against a distracting talker and decided whether the second digit was smaller or larger. Acoustic detail (temporal fine structure) and predictiveness (the degree to which the first digit predicted the second) varied orthogonally. Alpha power at widespread scalp sites decreased with increasing acoustic detail (during target digit presentation) but also with increasing predictiveness (in-between target digits). For older compared to younger listeners, acoustic detail had a stronger impact on task performance and alpha power modulation. This suggests that alpha dynamics plays an important role in the changes in listening behavior that occur with age. Lastly, alpha power variations resulting from stimulus manipulations (of acoustic detail and predictiveness) as well as task-independent overall alpha power were related to subjective listening effort. The present data show that alpha dynamics is a promising neural marker of individual difficulties as well as age-related changes in sensation, perception, and comprehension in complex communication situations.

Update #2

German radio broadcaster MDR Info did an interview & feature on Malte’s Experiment. Check out the stream below:

References

Wöstmann M1, Herrmann B2, Wilsch A2, Obleser J3. Neural alpha dynamics in younger and older listeners reflect acoustic challenges and predictive benefits. J Neurosci. 2015 Jan 28;35(4):1458–67. PMID: 25632123. [Open with Read]

Tags acoustic detail, Herrmann, Journal of Neuroscience, Obleser, prediction, Wilsch, Wöstmann

fMRI Linguistics Papers Publications Speech

New paper in NeuroImage by Scharinger, Henry, & Obleser [UPDATED]

Post author By Jonas
Post date 2014/11/28

A new paper is about to appear in Neuroimage on

Acoustic cue selection and discrimination under degradation: Differential contributions of the inferior parietal and posterior temporal cortices

by Mathias Scharinger, Molly J. Henry, Jonas Obleser

Abstract

Categorizing sounds is vital for adaptive human behavior. Accordingly, changing listening situations (external noise or peripheral hearing loss in aging) that may be accompanied by changes in discriminability, require listeners to flexibly adjust their categorization strategies, sometimes by changes in utilizing available acoustic cues.
In this functional Magnetic Resonance Imaging (fMRI) study, we investigate the categorization of novel, non-speech auditory stimuli that varied in overall discriminability. Moreover, we manipulate the relative informativeness of a duration versus a spectral-peak cue by adding spectral degradation in the middle of the experiment. The results demonstrate different roles of temporal and parietal brain areas for auditory categorization: Temporal cortex activation, in particular in posterior parts of the right superior temporal gyrus, scaled with discriminability, while left parietal cortex activation was associated with changes in cue utilization after the application of spectral degradation.
This work extends previous research on auditory categorization. Importantly, the involvement of the left inferior parietal lobule in changes of cue utilization supports its role in domain-general processes that support categorization. Further, the sensitivity of the right posterior superior temporal gyrus to stimulus discriminability adds to previous findings regarding its role in auditory processing.

[UPDATE] Link added.

References

Scharinger M1, Henry MJ2, Obleser J2. Acoustic cue selection and discrimination under degradation: Differential contributions of the inferior parietal and posterior temporal cortices. Neuroimage. 2015 Feb 1;106:373–81. PMID: 25481793. [Open with Read]

Tags acoustic cues, auditory categorization, Henry, listening strategies, NeuroImage, Obleser, parietal cortex, planum temporale, Scharinger

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