Your search keyword '"Van Yper L"' showing total 12 results

1. Electrophysiological and psychophysical measures of amplitude modulation discrimination in cochlear implant users

Author

Vickers, DA, Moore, BCJ, Boyle, P, Schlittenlacher, J, Van Yper, L, and Undurraga, J

Subjects

sense organs

Abstract

Cochlear implants (CIs) work by dividing the incoming acoustic signal into a limited number of frequency channels, extracting the slowly varying amplitude envelope in each channel and using this to modulate the level of electrical pulses delivered to the auditory nerve fibres. The amplitude modulation (AM) cues that are transmitted are crucial for speech understanding and an individual's abilities to perceive different rates of AM is related to speech perception. The use of these cues can be affected by interference from adjacent channels caused by current spread which is further exacerbated if traumatic electrode placement or poor neural survival occurs. We have tested eleven adult CI users with a psychophysical measure of across-channel modulation interference (AMCI), to determine discrimination of different rates of AM in the presence of interferers and an electrophysiological correlate, the electrically-evoked auditory change complex (eACC).The eACC is a cortical potential in response to a change in an ongoing stimulus,i.e. AM rate change. Ability to discriminate AM rate (based on AMCI and eACC) is related to speech perception. If eACC to AM rate changes can be developed it can be used with children and also to identify poorly discriminated CI electrodes, to guide re-mapping., Medical Research Council Senior Fellowship (MR/2002537/1)

Published

2021

2. Analysis methods for measuring passive auditory fNIRS responses generated by a block-design paradigm

Author

Luke, R, Larson, E, Shader, MJ, Innes-Brown, H, Van Yper, L, Lee, AKC, Sowman, PF, McAlpine, D, Luke, R, Larson, E, Shader, MJ, Innes-Brown, H, Van Yper, L, Lee, AKC, Sowman, PF, and McAlpine, D

Abstract

Significance: Functional near-infrared spectroscopy (fNIRS) is an increasingly popular tool in auditory research, but the range of analysis procedures employed across studies may complicate the interpretation of data. Aim: We aim to assess the impact of different analysis procedures on the morphology, detection, and lateralization of auditory responses in fNIRS. Specifically, we determine whether averaging or generalized linear model (GLM)-based analysis generates different experimental conclusions when applied to a block-protocol design. The impact of parameter selection of GLMs on detecting auditory-evoked responses was also quantified. Approach: 17 listeners were exposed to three commonly employed auditory stimuli: noise, speech, and silence. A block design, comprising sounds of 5 s duration and 10 to 20 s silent intervals, was employed. Results: Both analysis procedures generated similar response morphologies and amplitude estimates, and both indicated that responses to speech were significantly greater than to noise or silence. Neither approach indicated a significant effect of brain hemisphere on responses to speech. Methods to correct for systemic hemodynamic responses using short channels improved detection at the individual level. Conclusions: Consistent with theoretical considerations, simulations, and other experimental domains, GLM and averaging analyses generate the same group-level experimental conclusions. We release this dataset publicly for use in future development and optimization of algorithms.

Published

2021

3. Recognition and cortical haemodynamics of vocal emotions-an fNIRS perspective

Author

Ryssa Moffat, Baskent, Deniz, McAlpine, D., van Yper, L., Luke, R., and Neurolinguistics and Language Development (NLD)

Subjects

PROSODIC PERCEPTION, PROSODIC CUES, functional near-infrared spectroscopy, fNIRS, Vocal emotion recognition

Abstract

Normal-hearing listeners rely heavily on variations in the fundamental frequency (F0) of speech to identify vocal emotions. Without reliable F0 cues, as is the case for cochlear implant users, listeners’ ability to extract emotional meaning from speech is reduced. This thesis describes the development of an objective measure of vocal emotion recognition. The program of three experiments investigates: 1) NH listeners’ abilities to use F0, intensity, and speech-rate cues to recognise emotions; 2) cortical activity associated with individual vocal emotions assessed using functional near-infrared spectroscopy (fNIRS); 3) cortical activity evoked by vocal emotions in natural speech and in speech with uninformative F0 using fNIRS.

Published

2022

4. The neural representation of an auditory spatial cue in the primate cortex.

Author

Undurraga JA, Luke R, Van Yper L, Monaghan JJM, and McAlpine D

Subjects

Humans, Male, Animals, Female, Adult, Electroencephalography, Macaca mulatta physiology, Magnetoencephalography, Acoustic Stimulation, Young Adult, Auditory Perception physiology, Auditory Cortex physiology, Sound Localization physiology, Cues

Abstract

Humans make use of small differences in the timing of sounds at the two ears-interaural time differences (ITDs)-to locate their sources. Despite extensive investigation, however, the neural representation of ITDs in the human brain is contentious, particularly the range of ITDs explicitly represented by dedicated neural detectors. Here, using magneto- and electro-encephalography (MEG and EEG), we demonstrate evidence of a sparse neural representation of ITDs in the human cortex. The magnitude of cortical activity to sounds presented via insert earphones oscillated as a function of increasing ITD-within and beyond auditory cortical regions-and listeners rated the perceptual quality of these sounds according to the same oscillating pattern. This pattern was accurately described by a population of model neurons with preferred ITDs constrained to the narrow, sound-frequency-dependent range evident in other mammalian species. When scaled for head size, the distribution of ITD detectors in the human cortex is remarkably like that recorded in vivo from the cortex of rhesus monkeys, another large primate that uses ITDs for source localization. The data solve a long-standing issue concerning the neural representation of ITDs in humans and suggest a representation that scales for head size and sound frequency in an optimal manner., Competing Interests: Declaration of interests The authors declare no competing interests., (Crown Copyright © 2024. Published by Elsevier Inc. All rights reserved.)

Published

2024

5. Speech Comprehension by Cochlear Implant Users Assessed with Evoked Potentials and Response Times.

Author

Deshpande P, Van Yper L, Christiansen S, Brandt C, Debener S, and Neher T

Abstract

Introduction: Cochlear implant (CI) users differ greatly in their rehabilitation outcomes, including speech understanding in noise. This variability may be related to brain changes associated with intact senses recruiting cortical areas from stimulation-deprived senses. Numerous studies have demonstrated such cross-modal reorganization in individuals with untreated hearing loss. How it is affected by regular use of hearing devices remains unclear, however. To shed light on this, the current study measured cortical responses reflecting comprehension abilities in experienced CI users and normal-hearing controls., Methods: Using multichannel electroencephalography, we tested CI users who had used their devices for at least 12 months and closely matched controls (N = 2 × 13). Cortical responses reflecting comprehension abilities - the N400 and late positive complex (LPC) components - were evoked using congruent and incongruent digit-triplet stimuli. The participants' task was to assess digit-triplet congruency by means of timed button presses. All measurements were performed in speech-shaped noise 15 dB above individually measured speech recognition thresholds. Three stimulus presentation modes were used: auditory-only, visual-only, and visual-then-auditory., Results: The analyses revealed no group differences in the N400 and LPC responses. In terms of response times, the CI users were slower and differentially affected by the three stimulus presentation modes relative to the controls., Conclusion: Compared to normal-hearing controls, experienced CI users may need more time to comprehend speech in noise. Response times can serve as a proxy for speech comprehension by CI users., (© 2024 S. Karger AG, Basel.)

Published

2024

6. The P300 Auditory Evoked Potential: A Physiological Measure of the Engagement of Cognitive Systems Contributing to Listening Effort?

Author

Kestens K, Van Yper L, Degeest S, and Keppler H

Subjects

Humans, Middle Aged, Young Adult, Cognition, Evoked Potentials, Auditory, Hearing physiology, Listening Effort, Hearing Loss, Speech Perception physiology

Abstract

Objectives: This study aimed to explore the potential of the P300 (P3b) as a physiological measure of the engagement of cognitive systems contributing to listening effort., Design: Nineteen right-handed young adults (mean age: 24.79 years) and 20 right-handed older adults (mean age: 58.90 years) with age-appropriate hearing were included. The P300 was recorded at Fz, Cz, and Pz using a two-stimulus oddball paradigm with the Flemish monosyllabic numbers "one" and "three" as standard and deviant stimuli, respectively. This oddball paradigm was conducted in three listening conditions, varying in listening demand: one quiet and two noisy listening conditions (+4 and -2 dB signal to noise ratio [SNR]). At each listening condition, physiological, behavioral, and subjective tests of listening effort were administered. P300 amplitude and latency served as a potential physiological measure of the engagement of cognitive systems contributing to listening effort. In addition, the mean reaction time to respond to the deviant stimuli was used as a behavioral listening effort measurement. Last, subjective listening effort was administered through a visual analog scale. To assess the effects of listening condition and age group on each of these measures, linear mixed models were conducted. Correlation coefficients were calculated to determine the relationship between the physiological, behavioral, and subjective measures., Results: P300 amplitude and latency, mean reaction time, and subjective scores significantly increased as the listening condition became more taxing. Moreover, a significant group effect was found for all physiological, behavioral, and subjective measures, favoring young adults. Last, no clear relationships between the physiological, behavioral, and subjective measures were found., Conclusions: The P300 was considered a physiological measure of the engagement of cognitive systems contributing to listening effort. Because advancing age is associated with hearing loss and cognitive decline, more research is needed on the effects of all these variables on the P300 to further explore its usefulness as a listening effort measurement for research and clinical purposes., Competing Interests: The authors have no conflicts of interest to disclose., (Copyright © 2023 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2023

7. Cortical haemodynamic responses predict individual ability to recognise vocal emotions with uninformative pitch cues but do not distinguish different emotions.

Author

Moffat R, Başkent D, Luke R, McAlpine D, and Van Yper L

Subjects

Humans, Cues, Auditory Perception, Emotions physiology, Speech Perception physiology, Neurovascular Coupling, Cochlear Implants

Abstract

We investigated the cortical representation of emotional prosody in normal-hearing listeners using functional near-infrared spectroscopy (fNIRS) and behavioural assessments. Consistent with previous reports, listeners relied most heavily on F0 cues when recognizing emotion cues; performance was relatively poor-and highly variable between listeners-when only intensity and speech-rate cues were available. Using fNIRS to image cortical activity to speech utterances containing natural and reduced prosodic cues, we found right superior temporal gyrus (STG) to be most sensitive to emotional prosody, but no emotion-specific cortical activations, suggesting that while fNIRS might be suited to investigating cortical mechanisms supporting speech processing it is less suited to investigating cortical haemodynamic responses to individual vocal emotions. Manipulating emotional speech to render F0 cues less informative, we found the amplitude of the haemodynamic response in right STG to be significantly correlated with listeners' abilities to recognise vocal emotions with uninformative F0 cues. Specifically, listeners more able to assign emotions to speech with degraded F0 cues showed lower haemodynamic responses to these degraded signals. This suggests a potential objective measure of behavioural sensitivity to vocal emotions that might benefit neurodiverse populations less sensitive to emotional prosody or hearing-impaired listeners, many of whom rely on listening technologies such as hearing aids and cochlear implants-neither of which restore, and often further degrade, the F0 cues essential to parsing emotional prosody conveyed in speech., (© 2023 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.)

Published

2023

8. Characterizing Cochlear implant artefact removal from EEG recordings using a real human model.

Author

Undurraga JA, Van Yper L, Bance M, McAlpine D, and Vickers D

Abstract

Electroencephography (EEG) recordings from CI listeners are contaminated by electrical artefacts that make it difficult to extract neural responses. Previously, we have removed these artefacts by means of interpolation and spatial filtering. However, the extent to which this method can effectively reduce electrical artefacts has not been fully investigated. Here, we assessed the effectiveness of interpolation and spatial filtering to remove electrical artefacts using recordings from a human head specimen implanted with a CI.•Electrical artefacts were obtained using amplitude-modulated (AM'ed) pulse trains presented at several pulse rates (100-to-902 pps) or using high rate pulse trains (902 pps) in which either a pair of electrodes or AM frequencies alternated periodically at a rate of 1Hz.•By adding auditory change complex (ACC), auditory steady-state response (ASSR), or auditory change following response (AC-FR) template waveforms to the contaminated recordings, we show that interpolation allows for effective artefact removal for pulse rates below 400 pps whilst interpolation and spatial filtering are effective at higher pulse rates, with minimal distortions for ACC and AC-FR, and with a degree of amplitude- and phase-distortions for ASSR.•Recordings from CI listeners agreed with simulations, demonstrating that reliable responses can be recovered., Competing Interests: The authors confirm that there are no conflicts of interest., (© 2021 The Authors.)

Published

2021

9. Analysis methods for measuring passive auditory fNIRS responses generated by a block-design paradigm.

Author

Luke R, Larson E, Shader MJ, Innes-Brown H, Van Yper L, Lee AKC, Sowman PF, and McAlpine D

Abstract

Significance: Functional near-infrared spectroscopy (fNIRS) is an increasingly popular tool in auditory research, but the range of analysis procedures employed across studies may complicate the interpretation of data. Aim: We aim to assess the impact of different analysis procedures on the morphology, detection, and lateralization of auditory responses in fNIRS. Specifically, we determine whether averaging or generalized linear model (GLM)-based analysis generates different experimental conclusions when applied to a block-protocol design. The impact of parameter selection of GLMs on detecting auditory-evoked responses was also quantified. Approach: 17 listeners were exposed to three commonly employed auditory stimuli: noise, speech, and silence. A block design, comprising sounds of 5 s duration and 10 to 20 s silent intervals, was employed. Results: Both analysis procedures generated similar response morphologies and amplitude estimates, and both indicated that responses to speech were significantly greater than to noise or silence. Neither approach indicated a significant effect of brain hemisphere on responses to speech. Methods to correct for systemic hemodynamic responses using short channels improved detection at the individual level. Conclusions: Consistent with theoretical considerations, simulations, and other experimental domains, GLM and averaging analyses generate the same group-level experimental conclusions. We release this dataset publicly for use in future development and optimization of algorithms., (© 2021 The Authors.)

Published

2021

10. Neural encoding of spectro-temporal cues at slow and near speech-rate in cochlear implant users.

Author

Undurraga JA, Van Yper L, Bance M, McAlpine D, and Vickers D

Subjects

Acoustic Stimulation, Cues, Humans, Speech, Cochlear Implants, Speech Perception

Abstract

The ability to process rapid modulations in the spectro-temporal structure of sounds is critical for speech comprehension. For users of cochlear implants (CIs), spectral cues in speech are conveyed by differential stimulation of electrode contacts along the cochlea, and temporal cues in terms of the amplitude of stimulating electrical pulses, which track the amplitude-modulated (AM'ed) envelope of speech sounds. Whilst survival of inner-ear neurons and spread of electrical current are known factors that limit the representation of speech information in CI listeners, limitations in the neural representation of dynamic spectro-temporal cues common to speech are also likely to play a role. We assessed the ability of CI listeners to process spectro-temporal cues varying at rates typically present in human speech. Employing an auditory change complex (ACC) paradigm, and a slow (0.5Hz) alternating rate between stimulating electrodes, or different AM frequencies, to evoke a transient cortical ACC, we demonstrate that CI listeners-like normal-hearing listeners-are sensitive to transitions in the spectral- and temporal-domain. However, CI listeners showed impaired cortical responses when either spectral or temporal cues were alternated at faster, speech-like (6-7Hz), rates. Specifically, auditory change following responses-reliably obtained in normal-hearing listeners-were small or absent in CI users, indicating that cortical adaptation to alternating cues at speech-like rates is stronger under electrical stimulation. In CI listeners, temporal processing was also influenced by the polarity-behaviourally-and rate of presentation of electrical pulses-both neurally and behaviorally. Limitations in the ability to process dynamic spectro-temporal cues will likely impact speech comprehension in CI users., Competing Interests: Declaration of Competing Interest The authors declare no competing financial interests., (Copyright © 2020. Published by Elsevier B.V.)

Published

2021

11. Obsessions and compulsions in the lab: A meta-analysis of procedures to induce symptoms of obsessive-compulsive disorder.

Author

De Putter LM, Van Yper L, and Koster EH

Subjects

Compulsive Behavior psychology, Healthy Volunteers, Humans, Obsessive Behavior psychology, Obsessive-Compulsive Disorder psychology, Severity of Illness Index, Symptom Assessment, Compulsive Behavior diagnosis, Obsessive Behavior diagnosis, Obsessive-Compulsive Disorder diagnosis

Abstract

Efficacious induction procedures of symptoms of obsessive-compulsive disorder (OCD) are necessary in order to test central tenets of theories on OCD. However, the efficacy of the current range of induction procedures remains unclear. Therefore, this meta-analysis set out to examine the efficacy of induction procedures in participants with and without OCD symptoms. Moreover, we explored whether the efficacy varied across different moderators (i.e., induction categories, symptom dimensions of OCD, modalities of presentation, and level of individual tailoring). In total we included 4900 participants across 90 studies. The analyses showed that there was no difference in studies using subclinical and clinical participants, confirming the utility of analogue samples. Induction procedures evoked more symptoms in (sub)clinical OCD than in healthy participants, which was most evident in the contamination symptom dimension of OCD. Analysis within (sub)clinical OCD showed a large effect size of induction procedures, especially for the threat and responsibility category and when stimuli were tailored to individuals. Analysis within healthy participants showed a medium effect size of induction procedures. The magnitude of the effect in healthy individuals was stronger for mental contamination, thought-action fusion and threat inductions., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

12. Is cochlear implantation an effective treatment for Menière's disease?

Author

Vermeire K, Van Yper L, De Vel E, and Dhooge I

Subjects

Aged, Humans, Middle Aged, Retrospective Studies, Treatment Outcome, Cochlear Implantation, Meniere Disease surgery

Abstract

Objectives: describe the results of a retrospective study of cochlear implantation (CI) in seven subjects with Menière's disease., Methodology: The subjects received either the Nucleus CI24RE(CA)/CI512 or the Advanced Bionics HiRes90K CI systems which use the ACE, MP3000, or HiRes S Fidelity 120 coding strategies. The audiometric measures included monosyllabic word lists (NVA) in quiet at 65 dB SPL and sentences in noise (LIST) at +10 dB SNR. The quality of life after implantation was assessed by means of the Nijmegen Cochlear Implant Questionnaire (NCIQ)., Results: After CI, the hearing of all subjects improved significantly (p < 0.001) as did their speech recognition (p = 0.018). Speech recognition in noise showed a mean improvement of 47%. The results were less clear for the treatment of vertigo associated with Menière's, as some patients continued to have vestibular attacks after implantation. On the NCIQ, subjects reported a mean quality of life after CI of 48.3%., Conclusions: This study clearly demonstrates that cochlear implantation is an adequate treatment of speech perception for subjects with Menière's disease who go on to develop bilateral severe to profound sensorineural hearing loss.

Published

2014