Your search keyword '"Jwair S"' showing total 9 results

1. A one-year time course of electrocochleography in cochlear implant users.

Author

van Beurden, I. A. M. L., Haan, I. Y., Jwair, S., Ramekers, D., Thomeer, H. G. X. M., and Versnel, H.

Subjects

COCHLEAR implants, EVOKED response audiometry, SURGICAL therapeutics, CONFERENCES & conventions, POSTOPERATIVE period, HAIR cells, TIME

Abstract

Introduction: Electrocochleography (ECochG) has become increasingly valuable in cochlear implant (CI) surgery as it allows intraoperative monitoring of effects of electrode array insertion on residual hair cell function. Additionally, ECochG has the potential to portray postoperative cochle-ar function. Here we examine the postoperative time course of residual hair cell function by recording ECochG in CI recipients intraoperatively and at several time points up to one year postoperatively. Material and methods: Twenty-three patients with severe sensorineural hearing loss receiving a CI participated in a trial comparing electrode arrays (SlimJ and Mid-Scala of Advanced Bionics) and surgical approaches (Jwair et al., 2021). Here, the data are analysed by investigators blinded to the randomisation. ECochG recordings were performed at 5 time points using the active insertion monitoring (AIM) system of Advanced Bionics: intraoperatively, at 4-6 weeks, 3-4 months, 6-7 months and 12-14 months postoperatively. Responses to pure-tone stimuli with frequencies varying from 125 to 4000 Hz, at sound levels 100-115 dB HL, were recorded at each of the 16 available electrodes, in two opposite phases. The difference and sum of the recordings to the opposite phases were computed as estimates of cochlear microphonics (CM, reflecting hair cell potentials) and auditory nerve responses, respectively. Results: Significant CM responses (>1.5 µV) were found in 12 out of 22 patients intraoperatively, and postoperatively in 10/22 at 4-6 weeks, 12/16 at 3-4 months, 11/16 at 6-7 months, and 7/11 at 12-14 months. Notably, 7 intraopera-tive non-responders showed significant responses in the first postoperative session. Averaged across frequencies the largest responses were observed recorded at the apical electrodes during the intraoperative session. The responses were smallest at 4-6 weeks postoperatively, then recovered after 3 to 7 months, and decreased again up to one year after implantation. Intraoperatively, the dominant frequency was 500 Hz, postoperatively it was 125 Hz. Conclusions: Residual hair cell function gradually declines over the course of one year. Three months after cochlear implantation a short period of recovery is seen, which may be attributed to natural reduction of the acute local inflammatory response to the electrode array. [ABSTRACT FROM AUTHOR]

Published

2024

2. Disynaptic subthalamic input to the posterior cerebellum in rat

Author

Jwair, S. (Saad), Coulon, P. (Patrice), Ruigrok, T.J.H. (Tom), Jwair, S. (Saad), Coulon, P. (Patrice), and Ruigrok, T.J.H. (Tom)

Abstract

In the last decade, the interplay between basal ganglia and cerebellar functions has been increasingly advocated to explain their joint operation in both normal and pathological conditions. Yet, insight into the neuroanatomical basis of this interplay between both subcortical structures remains sparse and is mainly derived from work in primates. Here, in rodents, we have studied the existence of a potential disynaptic connection between the subthalamic nucleus (STN) and the cerebellar cortex as has been demonstrated earlier for the primate. A mixture of unmodified rabies virus (RABV: CVS 11) and cholera toxin B-subunit (CTb) was injected at places in the posterior cerebellar cortex of nine rats. The survival time was chosen to allow for disynaptic retrograde transneuronal infection of RABV. We examined the STN for neurons infected with RABV in all nine cases and related the results with the location of the RABV/CTb injection site, which ranged from the vermis of lobule VII, to the paravermis and hemispheres of the paramedian lobule and crus 2a. We found that cases with injection sites in the vermis of lobule VII showed prominent RABV labeling in the STN. In contrast, almost no subthalamic labeling was noted in cases with paravermal or hemispheral injection sites. We show circumstantial evidence that not only the pontine nuclei but also the pedunculotegmental nucleus may act as the intermediary in the connection from STN to cerebellar cortex. This finding implies that in the rat the STN links disynaptically to the vermal part of lobule VII of the cerebellar cortex, without any major involvement of the cerebellar areas that are linked to sensorimotor functions. As vermal lobule VII recently has been shown to process disynaptic input from the retrosplenial and orbitofrontal cortices, we hypothesize that in the rat the subthalamic input to cerebellar function might be used to influence more prominently non-motor functions of the cerebellum than motor functions. This lat

Published

2017

3. Acute effects of cochleostomy and electrode-array insertion on compound action potentials in normal-hearing guinea pigs.

Author

Jwair S, Ramekers D, Thomeer HGXM, and Versnel H

Abstract

Introduction: Electrocochleography (ECochG) is increasingly used in cochlear implant (CI) surgery, in order to monitor the effect of insertion of the electrode array aiming to preserve residual hearing. However, obtained results are often difficult to interpret. Here we aim to relate changes in ECochG responses to acute trauma induced by different stages of cochlear implantation by performing ECochG at multiple time points during the procedure in normal-hearing guinea pigs., Materials and Methods: Eleven normal-hearing guinea pigs received a gold-ball electrode that was fixed in the round-window niche. ECochG recordings were performed during the four steps of cochlear implantation using the gold-ball electrode: (1) Bullostomy to expose the round window, (2) hand-drilling of 0.5-0.6 mm cochleostomy in the basal turn near the round window, (3) insertion of a short flexible electrode array, and (4) withdrawal of electrode array. Acoustical stimuli were tones varying in frequency (0.25-16 kHz) and sound level. The ECochG signal was primarily analyzed in terms of threshold, amplitude, and latency of the compound action potential (CAP). Midmodiolar sections of the implanted cochleas were analyzed in terms of trauma to hair cells, modiolar wall, osseous spiral lamina (OSL) and lateral wall., Results: Animals were assigned to cochlear trauma categories: minimal ( n = 3), moderate ( n = 5), or severe ( n = 3). After cochleostomy and array insertion, CAP threshold shifts increased with trauma severity. At each stage a threshold shift at high frequencies (4-16 kHz) was accompanied with a threshold shift at low frequencies (0.25-2 kHz) that was 10-20 dB smaller. Withdrawal of the array led to a further worsening of responses, which probably indicates that insertion and removal trauma affected the responses rather than the mere presence of the array. In two instances, CAP threshold shifts were considerably larger than threshold shifts of cochlear microphonics, which could be explained by neural damage due to OSL fracture. A change in amplitudes at high sound levels was strongly correlated with threshold shifts, which is relevant for clinical ECochG performed at one sound level., Conclusion: Basal trauma caused by cochleostomy and/or array insertion should be minimized in order to preserve the low-frequency residual hearing of CI recipients., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The authors declare that this study is part of a research project funded by Advanced Bionics corporation. The funder was not involved in the study design, collection, analysis, interpretation of data, the writing of this article or the decision to submit it for publication., (Copyright © 2023 Jwair, Ramekers, Thomeer and Versnel.)

Published

2023

4. The effect of the surgical approach and cochlear implant electrode on the structural integrity of the cochlea in human temporal bones.

Author

Jwair S, Versnel H, Stokroos RJ, and Thomeer HGXM

Subjects

Cochlea diagnostic imaging, Cochlea pathology, Cochlea surgery, Humans, Round Window, Ear surgery, Temporal Bone pathology, Temporal Bone surgery, Cochlear Implantation methods, Cochlear Implants

Abstract

Cochlear implants (CI) restore hearing of severely hearing-impaired patients. Although this auditory prosthesis is widely considered to be very successful, structural cochlear trauma during cochlear implantation is an important problem, reductions of which could help to improve hearing outcomes and to broaden selection criteria. The surgical approach in cochlear implantation, i.e. round window (RW) or cochleostomy (CO), and type of electrode-array, perimodiolar (PM) or lateral wall (LW), are variables that might influence the probability of severe trauma. We investigated the effect of these two variables on scalar translocation (STL), a specific type of severe trauma. Thirty-two fresh frozen human cadaveric ears were evenly distributed over four groups receiving either RW or CO approach, and either LW or PM array. Conventional radiological multiplanar reconstruction (MPR) was compared with a reconstruction method that uncoils the spiral shape of the cochlea (UCR). Histological analysis showed that RW with PM array had STL rate of 87% (7/8), CO approach with LW array 75% (6/8), RW approach with LW array 50% (4/8) and CO approach with PM array 29% (2/7). STL assessment using UCR showed a higher inter-observer and histological agreement (91 and 94% respectively), than that using MPR (69 and 74% respectively). In particular, LW array positions were difficult to assess with MPR. In conclusion, the interaction between surgical approach and type of array should be preoperatively considered in cochlear implant surgery. UCR technique is advised for radiological assessment of CI positions, and in general it might be useful for pathologies involving the inner ear or other complex shaped bony tubular structures., (© 2022. The Author(s).)

Published

2022

5. Hearing preservation in cochlear implant recipients: A cross-sectional cohort study.

Author

Kant E, Jwair S, and Thomeer HGXM

Subjects

Audiometry, Pure-Tone, Auditory Threshold, Cohort Studies, Cross-Sectional Studies, Hearing, Humans, Treatment Outcome, Cochlear Implantation, Cochlear Implants, Speech Perception

Published

2022

6. Radiological and surgical aspects of round window visibility during cochlear implantation: a retrospective analysis.

Author

Jwair S, van Eijden JJM, Blijleven EE, Dankbaar JW, and Thomeer HGXM

Subjects

Facial Nerve, Humans, Retrospective Studies, Round Window, Ear diagnostic imaging, Round Window, Ear surgery, Cochlear Implantation, Cochlear Implants

Abstract

Purpose: The round window approach has become the most preferred option for cochlear implant (CI) insertion, however, sometimes it may not be possible due to the (in)visibility of the round window membrane (RWM). We addressed the prevalence, consequences and indicators of difficult detection of the RWM in cochlear implant surgery., Methods: This study retrospectively analysed the operative reports and preoperative high resolution axial-computed tomography (CT) scans of a consecutive cohort of patients who underwent a CI insertion. The main outcomes were surgical outcomes of the RW approach, and assessment of radiological markers., Results: The operative reports showed that RWM insertion was feasible in 151 out of 153 patients. In 18% of the patients the RWM was difficult to visualize. All these patients had at least one intraoperative event. The chorda tympani nerve (CTN) or posterior canal wall was affected in 8% of the 153 patients and the fallopian canal in 6%. These patients had a facial-chorda tympani nerve distance on the CT scan that was considerably smaller than normal patients (1.5 mm vs 2.3 mm). In addition, a prediction line towards the anterolateral side of the RWM was found to be more prevalent in these patients' CT scans (sensitivity 81%, specificity 63%)., Conclusion: The RW approach is feasible in almost all patients undergoing CI surgery. Difficult visualisation of the RWM seems to lead to at least one intraoperative event. Radiological measures showed that these patients had a smaller facial recess and a more anteriorly placed facial nerve, which can be used to better plan a safe insertion approach., (© 2021. The Author(s).)

Published

2022

7. Evaluating cochlear insertion trauma and hearing preservation after cochlear implantation (CIPRES): a study protocol for a randomized single-blind controlled trial.

Author

Jwair S, Boerboom RA, Versnel H, Stokroos RJ, and Thomeer HGXM

Subjects

Hearing, Humans, Randomized Controlled Trials as Topic, Round Window, Ear surgery, Single-Blind Method, Cochlear Implantation, Cochlear Implants

Abstract

Background: In order to preserve residual hearing in patients with sensorineural hearing loss (SNHL) who receive a cochlear implant (CI), insertion trauma to the delicate structures of the cochlea needs to be minimized. The surgical approach comprises the conventional mastoidectomy-posterior tympanotomy (MPT) to arrive at the middle ear, followed by either a cochleostomy (CO) or the round window (RW) approach. Both techniques have their benefits and disadvantages. Another important aspect in structure preservation is the design of the electrode array. Two different designs are used: a "straight" lateral wall lying electrode array (LW) or a "pre-curved" perimodiolar lying electrode array (PM). Interestingly, until now, the best surgical approach and design of the implant is uncertain. Our hypothesis is that there is a difference in hearing preservation outcomes between the four possible treatment options., Methods: We designed a monocenter, multi-arm, randomized controlled trial to compare insertion trauma between four groups of patients, with each group having a unique combination of an electrode array type (LW or PM) and surgical approach (RW or CO). In total, 48 patients will be randomized into one of these four intervention groups. Our primary objective is the comparison of postoperative hearing preservation between these four groups. Secondly, we aim to assess structure preservation (i.e., scalar translocation, with basilar membrane disruption or tip fold-over of array) for each group. Thirdly, we will compare objective outcomes of hearing and structure preservation by way of electrocochleography (ECochG)., Discussion: Cochlear implantation by way of a cochleostomy or round window approach, using different electrode array types, is the standard medical care for patients with severe to profound bilateral sensorineural hearing loss, as it is a relatively simple and low-risk procedure that greatly benefits patients. However, loss of residual hearing remains a problem. This trial is the first randomized controlled trial that evaluates the effect of cochlear insertion trauma of several CI treatment options on hearing preservation., Trial Registration: Netherlands Trial Register (NTR) NL8586 . Registered on 4 May 2020. Retrospectively registered; 3/48 participants were included before registration., (© 2021. The Author(s).)

Published

2021

8. Scalar Translocation Comparison Between Lateral Wall and Perimodiolar Cochlear Implant Arrays - A Meta-Analysis.

Author

Jwair S, Prins A, Wegner I, Stokroos RJ, Versnel H, and Thomeer HGXM

Subjects

Cochlea surgery, Cochlear Implantation methods, Female, Hearing Loss, Bilateral diagnostic imaging, Hearing Loss, Bilateral surgery, Hearing Loss, Sensorineural diagnostic imaging, Hearing Loss, Sensorineural surgery, Hearing Tests, Humans, Male, Middle Aged, Postoperative Period, Scala Tympani diagnostic imaging, Scala Tympani physiopathology, Scala Tympani surgery, Speech Perception, Tomography, X-Ray Computed, Treatment Outcome, Cochlear Implantation instrumentation, Cochlear Implants, Hearing physiology, Hearing Loss, Bilateral physiopathology, Hearing Loss, Sensorineural physiopathology

Abstract

Objectives/hypothesis: Two types of electrode arrays for cochlear implants (CIs) are distinguished: lateral wall and perimodiolar. Scalar translocation of the array can lead to intracochlear trauma by penetrating from the scala tympani into the scala vestibuli or scala media, potentially negatively affecting hearing performance of CI users. This systematic review compares the lateral wall and perimodiolar arrays with respect to scalar translocation., Study Design: Systematic review., Methods: PubMed, Embase, and Cochrane databases were reviewed for studies published within the last 11 years. No other limitations were set. All studies with original data that evaluated the occurrence of scalar translocation or tip fold-over (TF) with postoperative computed tomography (CT) following primary cochlear implantation in bilateral sensorineuronal hearing loss patients were considered to be eligible. Data were extracted independently by two reviewers., Results: We included 33 studies, of which none were randomized controlled trials. Meta-analysis of five cohort studies comparing scalar translocation between lateral wall and perimodiolar arrays showed that lateral wall arrays have significantly lower translocation rates (7% vs. 43%; pooled odds ratio = 0.12). Translocation was negatively associated with speech perception scores (weighted mean 41% vs. 55%). Tip fold-over of the array was more frequent with perimodiolar arrays (X 2  = 6.8, P < .01)., Conclusions: Scalar translocation and tip fold-overs occurred more frequently with perimodiolar arrays than with lateral wall arrays. In addition, translocation of the array negatively affects hearing with the cochlear implant. Therefore, if one aims to minimize clinically relevant intracochlear trauma, lateral wall arrays would be the preferred option for cochlear implantation. Laryngoscope, 131:1358-1368, 2021., (© 2020 The Authors. The Laryngoscope published by Wiley Periodicals LLC on behalf of American Laryngological, Rhinological and Otological Society Inc, "The Triological Society" and American Laryngological Association (ALA).)

Published

2021

9. Disynaptic Subthalamic Input to the Posterior Cerebellum in Rat.

Author

Jwair S, Coulon P, and Ruigrok TJ

Abstract

In the last decade, the interplay between basal ganglia and cerebellar functions has been increasingly advocated to explain their joint operation in both normal and pathological conditions. Yet, insight into the neuroanatomical basis of this interplay between both subcortical structures remains sparse and is mainly derived from work in primates. Here, in rodents, we have studied the existence of a potential disynaptic connection between the subthalamic nucleus (STN) and the cerebellar cortex as has been demonstrated earlier for the primate. A mixture of unmodified rabies virus (RABV: CVS 11) and cholera toxin B-subunit (CTb) was injected at places in the posterior cerebellar cortex of nine rats. The survival time was chosen to allow for disynaptic retrograde transneuronal infection of RABV. We examined the STN for neurons infected with RABV in all nine cases and related the results with the location of the RABV/CTb injection site, which ranged from the vermis of lobule VII, to the paravermis and hemispheres of the paramedian lobule and crus 2a. We found that cases with injection sites in the vermis of lobule VII showed prominent RABV labeling in the STN. In contrast, almost no subthalamic labeling was noted in cases with paravermal or hemispheral injection sites. We show circumstantial evidence that not only the pontine nuclei but also the pedunculotegmental nucleus may act as the intermediary in the connection from STN to cerebellar cortex. This finding implies that in the rat the STN links disynaptically to the vermal part of lobule VII of the cerebellar cortex, without any major involvement of the cerebellar areas that are linked to sensorimotor functions. As vermal lobule VII recently has been shown to process disynaptic input from the retrosplenial and orbitofrontal cortices, we hypothesize that in the rat the subthalamic input to cerebellar function might be used to influence more prominently non-motor functions of the cerebellum than motor functions. This latter aspect seems to contradict the primate results and could point to a more elaborate interaction between basal ganglia and cerebellum in more demanding motor tasks.

Published

2017