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17 results on '"Adel Youssef"'

1. Auditory Threshold Variability in the SAMP8 Mouse Model of Age-Related Hearing Loss: Functional Loss and Phenotypic Change Precede Outer Hair Cell Loss.

Author

Peixoto Pinheiro, Barbara, Adel, Youssef, Knipper, Marlies, Müller, Marcus, and Löwenheim, Hubert

Subjects
PHENOTYPIC plasticity, LABORATORY mice, HAIR cells, HEARING disorders, ANIMAL disease models
Abstract

Age-related hearing loss (ARHL) is the most common sensory deficit in aging society, which is accompanied by increased speech discrimination difficulties in noisy environments, social isolation, and cognitive decline. The audiometric degree of ARHL is largely correlated with sensory hair cell loss in addition to age-related factors not captured by histopathological analysis of the human cochlea. Previous studies have identified the senescence-accelerated mouse prone strain 8 (SAMP8) as a model for studying ARHL and age-related modifications of the cochlear redox environment. However, the SAMP8 population exhibits a large variability in auditory function decline over age, whose underlying cause remains unknown. In this study, we analyzed auditory function of SAMP8 mice by measuring auditory brainstem response (ABR) thresholds at the age of 6 weeks (juvenile), 12 weeks (young adult), and 24 weeks (adult). Consistent with previous studies, SAMP8 mice exhibit an early progressive, age-related decline of hearing acuity. However, a spatiotemporal cytohistological analysis showed that the significant increase in threshold variability was not concurrently reflected in outer hair cell (OHC) loss observed in the lower and upper quartiles of the ABR threshold distributions over age. This functional loss was found to precede OHC loss suggesting that age-related phenotypic changes may be contributing factors not represented in cytohistological analysis. The expression of potassium channels KCNQ4 (KV7.4), which mediates the current IK,n crucial for the maintenance of OHC membrane potential, and KCNQ1 (KV7.1), which is an essential component in potassium circulation and secretion into the endolymph generating the endocochlear potential, showed differences between these quartiles and age groups. This suggests that phenotypic changes in OHCs or the stria vascularis due to variable oxidative deficiencies in individual mice may be predictors of the observed threshold variability in SAMP8 mice and their progressive ARHL. In future studies, further phenotypic predictors affected by accumulated metabolic challenges over age need to be investigated as potentially underlying causes of ARHL preceding irreversible OHC loss in the SAMP8 mouse model. [ABSTRACT FROM AUTHOR]

Published
2021
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2. Age-related hearing loss pertaining to potassium ion channels in the cochlea and auditory pathway.

Author

Peixoto Pinheiro, Barbara, Vona, Barbara, Löwenheim, Hubert, Rüttiger, Lukas, Knipper, Marlies, and Adel, Youssef

Subjects
ION channels, POTASSIUM channels, POTASSIUM ions, AUDITORY pathways, CALCIUM-dependent potassium channels, HAIR cells, HEARING disorders
Abstract

Age-related hearing loss (ARHL) is the most prevalent sensory deficit in the elderly and constitutes the third highest risk factor for dementia. Lifetime noise exposure, genetic predispositions for degeneration, and metabolic stress are assumed to be the major causes of ARHL. Both noise-induced and hereditary progressive hearing have been linked to decreased cell surface expression and impaired conductance of the potassium ion channel KV7.4 (KCNQ4) in outer hair cells, inspiring future therapies to maintain or prevent the decline of potassium ion channel surface expression to reduce ARHL. In concert with KV7.4 in outer hair cells, KV7.1 (KCNQ1) in the stria vascularis, calcium-activated potassium channels BK (KCNMA1) and SK2 (KCNN2) in hair cells and efferent fiber synapses, and KV3.1 (KCNC1) in the spiral ganglia and ascending auditory circuits share an upregulated expression or subcellular targeting during final differentiation at hearing onset. They also share a distinctive fragility for noise exposure and age-dependent shortfalls in energy supply required for sustained surface expression. Here, we review and discuss the possible contribution of select potassium ion channels in the cochlea and auditory pathway to ARHL. We postulate genes, proteins, or modulators that contribute to sustained ion currents or proper surface expressions of potassium channels under challenging conditions as key for future therapies of ARHL. [ABSTRACT FROM AUTHOR]

Published
2021
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4. Evaluation of a bone groove geometry for fixation of a cochlear implant electrode.

Author

Loth, Andreas German, Adel, Youssef, Weiß, Roxanne, Helbig, Silke, Stöver, Timo, and Leinung, Martin

Subjects
COCHLEAR implants, ELECTRODES, GEOMETRY, MILLING-machines, FACIAL bones
Abstract

Purpose: Electrode migration is a rare, but relevant complication in cochlear implant (CI) surgery. An effective countermeasure is to create a bone groove in the facial recess to secure the electrode lead. We use this method routinely since 2013, but still experienced sporadic electrode migration events most likely due to an improper surgical execution. The aim of this study was to determine the optimum groove geometry. Methods: Grooves of defined geometry were created in specimens of fresh porcine femur compacta by use of a CNC milling machine. Electrode dummies were fixed in the groove and then exposed to tensile stress. Force measurements were carried out to examine the effect of groove diameter and opening width on the holding force. The mechanical impact on the electrode cable during insertion into the groove was recorded and the electrode lead was examined under microscopic magnification to assess potential structural damage. Results: Optimum groove geometry (diameter 1.10 mm, opening width 0.90 mm) ensured an average holding force of 830 mN which is equivalent to the established fixation by use of a titanium clip. None of the microscopic inspections revealed any morphological deterioration of the electrode lead. Conclusion: The fixation of a CI electrode in a bone groove in the facial recess appears to be effective and safe. Furthermore, this method does not require additional costs or foreign material. The optimum geometry defined in this study helped us to refine our surgical standard produce and to generate more consistent results. [ABSTRACT FROM AUTHOR]

Published
2020
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5. Pitch Matching in Cochlear Implant Users With Single-Sided Deafness: Effects of Electrode Position and Acoustic Stimulus Type.

Author

Adel, Youssef, Nagel, Sharon, Weissgerber, Tobias, Baumann, Uwe, and Macherey, Olivier

Subjects
COCHLEAR implants, ELECTRIC stimulation, CORTI'S organ, ACOUSTIC stimulation, DEAFNESS
Abstract

Previous studies in patients with single-sided deafness (SSD) have reported results of pitch comparisons between electric stimulation of their cochlear implant (CI) and acoustic stimulation presented to their near-normal hearing contralateral ear. These comparisons typically used sinusoids, although the percept elicited by electric stimulation may be closer to a wideband stimulus. Furthermore, it has been shown that pitch comparisons between sounds with different timbres is a difficult task and subjected to various types of range biases. The present study aims to introduce a method to minimize non-sensory biases, and to investigate the effect of different acoustic stimulus types on the frequency and variability of the electric-acoustic pitch matches. Pitch matches were collected from 13 CI users with SSD using the binary search procedure. Electric stimulation was presented at either an apical or a middle electrode position, at a rate of 800 pps. Acoustic stimulus types were sinusoids (SINE), 1/3-octave wide narrow bands of Gaussian noises (NBN), or 1/3-octave wide pulse spreading harmonic complexes (PSHC). On the one hand, NBN and PSHC are presumed to better mimic the spread of excitation produced by a single-electrode stimulation than SINE. On the other hand, SINE and PSHC contain less inherent fluctuations than NBN and may therefore provide a temporal pattern closer to that produced by a constant-amplitude electric pulse train. Analysis of mean pitch match variance showed no differences between stimulus types. However, mean pitch matches showed effects of electrode position and stimulus type, with the middle electrode always matched to a higher frequency than the apical one (p < 0.001), and significantly higher across-subject pitch matches for PSHC compared with SINE (p = 0.017). Mean pitch matches for all stimulus types were better predicted by place-dependent characteristic frequencies (CFs) based on an organ of Corti map compared with a spiral ganglion map. CF predictions were closest to pitch matches with SINE for the apical electrode position, and conversely with NBN or PSHC for the middle electrode position. These results provide evidence that the choice of acoustic stimulus type can have a significant effect on electric-acoustic pitch matching. [ABSTRACT FROM AUTHOR]

Published
2019
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8. A method for determining precise electrical hearing thresholds in cochlear implant users.

Author

Doms, Philipp, Adel, Youssef, Weissgerber, Tobias, Baumann, Uwe, Rader, Tobias, and Strieth, Sebastian

Subjects
HEARING disorder diagnosis, AUDIOLOGY, AUTOMATIC speech recognition, COCHLEAR implants, DEAFNESS, ENDOSCOPIC surgery, HEARING, LONGITUDINAL method, MEDICAL care, MEDICAL equipment calibration, NOISE, PATIENTS, PHYSICS, SOUND, SPEECH perception
Abstract

Objective: A psychoacoustic procedure designed for the precise assessment of perceptional threshold (T-level) in cochlear implant (CI) users is presented. The impact of this procedure on speech perception was investigated. Design: Individual T-level measurements were obtained with the proposed procedure and three different speech processor fitting conditions were applied: (1) fitting familiar to the subject, T-levels unchanged, (2) T-level set to thresholds determined with the new procedure, (3) T-level set to thresholds determined with the new procedure, but T-level is decreased by 10 clinical units (CU). The impact of the different fitting conditions was measured by means of categorical loudness scaling (CLS) and speech perception tests in quiet and noise. Study sample: A prospective study at a tertiary referral university hospital. 18 experienced postlingually deafened cochlear implanted adult subjects. Results: Average sound-field thresholds obtained by CLS were lowest in condition using the new procedure yielding a larger dynamic range with significantly higher speech scores in quiet compared to those with a subject’s commonly used programme, and significantly improved in noise even after reducing T-levels by 10 CU. Conclusion: The precise determination of T-levels by means of the proposed procedure improved performance in several speech recognition tasks. Compared to the default behavioural setting, T-level increased on median by 9 CU. Average speech reception threshold in noise for soft speech levels (50 dB sound pressure level) decreased by 1 dB. [ABSTRACT FROM AUTHOR]

Published
2018
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10. Forward Masking in Cochlear Implant Users: Electrophysiological and Psychophysical Data Using Pulse Train Maskers.

Author

Adel, Youssef, Hilkhuysen, Gaston, Noreña, Arnaud, Cazals, Yves, Roman, Stéphane, Macherey, Olivier, Noreña, Arnaud, and Roman, Stéphane

Subjects
ACTION potentials, PHYSIOLOGICAL adaptation, COCHLEAR implants
Abstract

Electrical stimulation of auditory nerve fibers using cochlear implants (CI) shows psychophysical forward masking (pFM) up to several hundreds of milliseconds. By contrast, recovery of electrically evoked compound action potentials (eCAPs) from forward masking (eFM) was shown to be more rapid, with time constants no greater than a few milliseconds. These discrepancies suggested two main contributors to pFM: a rapid-recovery process due to refractory properties of the auditory nerve and a slow-recovery process arising from more central structures. In the present study, we investigate whether the use of different maskers between eCAP and psychophysical measures, specifically single-pulse versus pulse train maskers, may have been a source of confound.In experiment 1, we measured eFM using the following: a single-pulse masker, a 300-ms low-rate pulse train masker (LTM, 250 pps), and a 300-ms high-rate pulse train masker (HTM, 5000 pps). The maskers were presented either at same physical current (Φ) or at same perceptual (Ψ) level corresponding to comfortable loudness. Responses to a single-pulse probe were measured for masker-probe intervals ranging from 1 to 512 ms. Recovery from masking was much slower for pulse trains than for the single-pulse masker. When presented at Φ level, HTM produced more and longer-lasting masking than LTM. However, results were inconsistent when LTM and HTM were compared at Ψ level. In experiment 2, masked detection thresholds of single-pulse probes were measured using the same pulse train masker conditions. In line with our eFM findings, masked thresholds for HTM were higher than those for LTM at Φ level. However, the opposite result was found when the pulse trains were presented at Ψ level.Our results confirm the presence of slow-recovery phenomena at the level of the auditory nerve in CI users, as previously shown in animal studies. Inconsistencies between eFM and pFM results, despite using the same masking conditions, further underline the importance of comparing electrophysiological and psychophysical measures with identical stimulation paradigms. [ABSTRACT FROM AUTHOR]

Published
2017
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17. Low-Frequency Electrocochleography in a Guinea Pig Model of Cochlear Implantation with Residual Hearing.

Author

Adel, Youssef, Tillein, Jochen, Stover, Timo, and Baumann, Uwe

Subjects
ANIMAL experimentation, EVOKED response audiometry, BIOTELEMETRY, COCHLEAR implants, EXPERIMENTAL design, GUINEA pigs, HEARING
Abstract

Objectives: Interpreting electrocochleography (ECochG) with respect to "cochlear health" in CI patients with residual hearing has proven to be difficult. We propose an experimental setup to investigate ECochG components in a model of cochlear implantation. Material and methods: Guinea pig model implanted with custom-built electrode. Intra- and extracochlear ECochG integrated into setup featuring telemetric recording via CL Stimuli were 100-ps click and 10-ms sinusoidal tone bursts (250 Hz to 64 kHz, 1 step per octave). Results: Intra- and extracochlear recordings similar and telemetry validated. Transient and ongoing ECochG potentials showed distinct sensitivities to implantation trauma. Spectral analysis of ongoing potentials demonstrate further differences in selectivity. Conclusions: Our experimental setup validated telemetric low-frequency ECochG in implanted guinea pig model. Spectral analysis of different harmonic components constitute a potentially feasible measure of "cochlear health" in the apex. [ABSTRACT FROM AUTHOR]

Published
2017

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