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1. Dynamic Current Focusing Compared to Monopolar Stimulation in a Take-Home Trial of Cochlear Implant Users

Author

Groesen, N.R.A. van, Briaire, J.J., Jong, M.A.M. de, and Frijns, J.H.M.

Subjects
Speech and Hearing, Current focusing, Otorhinolaryngology, Speech perception testing, Cochlear implant
Abstract

Objectives: This study compared the performance of a dynamic partial tripolar cochlear implant speech encoding strategy termed dynamic current focusing (DCF) to monopolar stimulation (MP) using spectro-temporal, temporal, and speech-in-noise recognition testing. Design: DCF is a strategy that utilizes tripolar or high partial tripolar stimulation at threshold level and increases loudness by slowly widening current spread towards most comfortable level. Thirteen cochlear implant users were fitted with DCF and a non-steered MP matched on pulse rate, pulse width, and active electrodes. Nine participants completed the single-blinded within-subject crossover trial. Repeated testing consisted of four sessions. Strategies were allocated in a DCF-MP-DCF-MP or MP-DCF-MP-DCF design. Three-week adaptation periods ended with a test session in which speech-in-noise recognition (matrix speech-in-noise sentence test), spectro-temporal ripple tests (SMRT and STRIPES) and a temporal amplitude modulation detection test were conducted. All participants recorded their subjective experiences with both strategies using the Speech, Spatial and Qualities of Hearing Scale questionnaire. Results: Participants' SMRT thresholds improved 0.40 ripples per octave (p = 0.02, Bonferroni-corrected: p = 0.1) with DCF over MP at 65 dB SPL. No significant differences between the strategies were found on speech-in-noise recognition at conversational (65 dB SPL) and soft (45 dB SPL) loudness levels, temporal testing, STRIPES, or the SMRT at 45 dB SPL. After Bonferroni correction, a learning effect remained on the matrix speech-in-noise sentence test at both loudness levels (65 dB SPL: p = 0.01; 45 dB SPL: p = 0.02). There was no difference in learning effects over time between DCF and MP. Similarly, no significant differences were found in subjective experience on the Speech, Spatial and Qualities of Hearing Scale questionnaire. DCF reduced average battery life by 48% (5.1 hours) (p < 0.001) compared to MP. Conclusions: DCF may improve spectral resolution over MP at comfortable loudness (65 dB SPL) in cochlear implant users. However, the evidence collected in this study was weak and the significant result disappeared after Bonferroni correction. Also, not all spectral tests revealed this improvement. As expected, battery life was reduced for DCF. Although the current study is limited by its small sample size, considering previous studies, DCF does not consistently improve speech recognition in noise over MP strategies.

Published
2022
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3. Optimizing stimulus energy for cochlear implants with a machine learning model of the auditory nerve

Author

Nobel, J.P. de, Kononova, A.V., Briaire, J.J., Frijns, J.H.M., and Bäck, T.H.W.

Subjects
Optimization, Auditory nerve, Machine learning, Cochlear implants, Neural model, Evolutionary algorithms, Sensory Systems
Abstract

Performing simulations with a realistic biophysical auditory nerve fiber model can be very time-consuming, due to the complex nature of the calculations involved. Here, a surrogate (approximate) model of such an auditory nerve fiber model was developed using machine learning methods, to perform simulations more efficiently. Several machine learning models were compared, of which a Convolutional Neural Network showed the best performance. In fact, the Convolutional Neural Network was able to emulate the behavior of the auditory nerve fiber model with extremely high similarity ( R 2 > 0 . 99 ), tested under a wide range of experimental conditions, whilst reducing the simulation time by five orders of magnitude. In addition, a method for randomly generating charge-balanced waveforms using hyperplane projection is introduced. In the second part of this paper, the Convolutional Neural Network surrogate model was used by an Evolutionary Algorithm to optimize the shape of the stimulus waveform in terms of energy efficiency. The resulting waveforms resemble a positive Gaussian-like peak, preceded by an elongated negative phase. When comparing the energy of the waveforms generated by the Evolutionary Algorithm with the commonly used square wave, energy decreases of 8%-45% were observed for differ-ent pulse durations. These results were validated with the original auditory nerve fiber model, which demonstrates that the proposed surrogate model can be used as its accurate and efficient replacement.(c) 2023 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY license ( http://creativecommons.org/licenses/by/4.0/ )

Published
2023

4. Speech perception performance in cochlear implant recipients correlates to the number and synchrony of excited auditory nerve fibers derived from electrically evoked compound action potentials

Author

Dong, Y., Briaire, J.J., Stronks, H.C., and Frijns, J.H.M.

Subjects
Sensorineural hearing loss, Speech and Hearing, Otorhinolaryngology, Speech perception, Cochlear implants, Temporal firing properties, Electrically evoked compound action potential, Neural synchronicity
Abstract

Objectives: Many studies have assessed the performance of individuals with cochlear implants (CIs) with electrically evoked compound action potentials (eCAPs). These eCAP-based studies have focused on the amplitude information of the response, without considering the temporal firing properties of the excited auditory nerve fibers (ANFs), such as neural latency and synchrony. These temporal features have been associated with neural health in animal studies and, consequently, could be of importance to clinical CI outcomes. With a deconvolution method, combined with a unitary response, the eCAP can be mathematically unraveled into the compound discharge latency distribution (CDLD). The CDLD reflects both the number and the temporal firing properties of excited ANFs. The present study aimed to determine to what extent the CDLD derived from intraoperatively recorded eCAPs is related to speech perception in individuals with CIs. Design: This retrospective study acquired data on monosyllabic word recognition scores and intraoperative eCAP amplitude growth functions from 124 adult patients with postlingual deafness that received the Advanced Bionics HiRes 90K device. The CDLD was determined for each recorded eCAP waveform by deconvolution. Each of the two Gaussian components of the CDLD was described by three parameters: the amplitude, the firing latency (the average latency of each component of the CDLD), and the variance of the CDLD components (an indication of the synchronicity of excited ANFs). Apart from these six CDLD parameters, the area under the CDLD curve (AUCD) and the slope of the AUCD growth function were determined as well. The AUCD was indicative of the total number of excited ANFs over time. The slope of the AUCD growth function indicated the increases in the number of excited ANFs with stimulus level. Associations between speech perception and each of these eight CDLD-related parameters were investigated with linear mixed modeling. Results: In individuals with CIs, larger amplitudes of the two CDLD components, greater AUCD, and steeper slopes of the AUCD growth function were all significantly associated with better speech perception. In addition, a smaller latency variance in the early CDLD component, but not in the late, was significantly associated with better speech recognition scores. Speech recognition was not significantly dependent on CDLD latencies. The AUCD and the slope of the AUCD growth function provided a similar explanation of the variance in speech perception (R-2) as the eCAP amplitude, the slope of the amplitude growth function, the amplitude, and variance of the first CDLD component. Conclusion: The results demonstrate that both the number and the neural synchrony of excited ANFs, as revealed by CDLDs, are indicative of postimplantation speech perception in individuals with a CI. Because the CDLD-based parameters yielded a higher significance than the eCAP amplitude or the AGF slope, the authors conclude that CDLDs can serve as a clinical predictor of the survival of ANFs and that they have predictive value for postoperative speech perception performance. Thus, it would be worthwhile to incorporate the CDLD into eCAP measures in future clinical applications.

Published
2023

5. Residual hearing does not influence the effectiveness of beamforming when using a cochlear implant in conjunction with contralateral routing of signals

Author

Stronks, H.C., Briaire, J.J., and Frijns, J.H.M.

Subjects
Sensorineural hearing loss, Speech and Hearing, Otorhinolaryngology, Physiology, Cochlear implants, Speech Intelligibility in noise, Contralateral routing of signals, Sensory Systems, Sound processing
Abstract

Introduction: Contralateral routing of signals (CROS) overcomes the head shadow effect by redirecting speech signals from the contralateral ear to the better-hearing cochlear implant (CI) ear. Here we tested the performance of an adaptive monaural beamformer (MB) and a fixed binaural beamformer (BB) using the CROS system of Advanced Bionics. Methods: In a group of 17 unilateral CI users, we evaluated the benefits of MB and BB for speech recognition by measuring speech reception threshold (SRT) with and without beamforming. MB and BB were additionally evaluated with signal-to-noise ratio (SNR) measurements using a KEMAR manikin. We also assessed the effect of residual hearing in the CROS ear on the benefits of MB and BB. Speech was delivered in front of the listener in a background of homogeneous 8-talker babble noise. Results: With CI-CROS in omnidirectional settings with the T-mic active on the CI as a reference, BB significantly improved SRT by 1.4 dB, whereas MB yielded no significant improvements. The difference in effects on SRT between the two beamformers was, however, not significant. SNR effects were substantially larger, at 2.1 dB for MB and 5.8 dB for BB. CI-CROS with default omnidirectional settings also improved SRT and SNR by 1 dB over CI alone. Residual hearing did not significantly affect beamformer performance. Discussion: We recommend the use of BB over MB for CI-CROS users. Residual hearing in the CROS ear is not a limiting factor for fitting a CROS device, although a bimodal option should be considered.

Published
2023

7. The effect of stimulus level on excitation patterns of individual electrode contacts in cochlear implants

Author

Biesheuvel, J.D., Briaire, J.J., Kalkman, R.K., and Frijns, J.H.M.

Subjects
Sensorineural hearing loss, potential, Spread of excitation, eCAP, Evoked Potentials, Auditory, Cochlear implants, Action Potentials, Humans, Electrically evoked compound action, Cochlear Implantation, Sensory Systems, Electric Stimulation, Cochlea
Abstract

Objective: Spread of excitation (SOE) in cochlear implants (CI) is a measure linked to the specificity of the electrode-neuron interface. The SOE can be estimated objectively by electrically evoked compound action potential (eCAP) measurements, recorded with the forward-masking paradigm in CI recipients. The eCAP amplitude can be plotted as a function of the roving masker, resulting in a spatial forward masking (SFM) curve. The eCAP amplitudes presented in the SFM curves, however, reflect an interaction between a masker and probe stimulus, making the SFM curves less reliable for examining SOE effects at the level of individual electrode contacts. To counter this, our previously published deconvolution method estimates the SOE at the electrode level by deconvolving the SFM curves (Biesheuvel et al., 2016). The aim of this study was to investigate the effect of stimulus level on the SOE of individual electrode contacts by using SFM curves analyzed with our deconvolution method.Design: Following the deconvolution method, theoretical SFM curves were calculated by the convolution of parameterized excitation density profiles (EDP) attributable to masker and probe stimuli. These SFM curves were subsequently fitted to SFM curves from CI recipients by iteratively adjusting the EDPs. We first improved the EDP parameterization to account for stimulus-level effects and validated this updated parameterization by comparing the EDPs to simulated excitation density profiles (sEDP) from our computational model of the human cochlea. Secondly, we analyzed SFM curves recorded with varying probe stimulus level in 24 patients, all implanted with a HiFocus Mid-Scala electrode array. With the deconvolution method extended to account for stimulus level effects, the SFM curves measured with varying probe stimulus levels were converted into EDPs to elucidate the effects of stimulus level on the SOE.Results: The updated EDP parameterization was in good agreement with the sEDPs from the computational model. Using the extended deconvolution method, we found that higher stimulus levels caused significant widening of EDPs ( p < 0.001). The stimulus level also affected the EDP amplitude ( p < 0.001) and the center of excitation ( p < 0.05). Concerning the raw SFM curves, an increase in current level led to higher SFM curve amplitudes ( p < 0.001), while the width of the SFM curves did not change significantly ( p = 0.62).Conclusion: The extended deconvolution method enabled us to study the effect of stimulus level on excitation areas in an objective way, as the EDP parameterization was in good agreement with sEDPs from our computational model. The analysis of SFM curves provided new insights into the effect of the stimulus level on SOE. We found that the EDPs, and therefore the SOE, mainly became wider when the stimulus level increased. Lastly, the comparison of the EDP parameterization with simulations in our computation model provided new insights about the validity of the deconvolution method.(c) 2022 The Author(s). Published by Elsevier B.V. This is an open access article under the CC BY license ( http://creativecommons.org/licenses/by/4.0/ )

Published
2022

9. Prolonged Insertion Time Reduces Translocation Rate of a Precurved Electrode Array in Cochlear Implantation

Author

Jagt, A.M.A. van der, Briaire, J.J., Boehringer, S., Verbist, B.M., and Frijns, J.H.M.

Subjects
Insertion trauma, Surgical approach, Scala Vestibuli, Insertion speed, Scala Tympani, Cochlear Implantation, Sensory Systems, Cochlea, Electrodes, Implanted, All institutes and research themes of the Radboud University Medical Center, Cochlear Implants, Otorhinolaryngology, Humans, Neurology (clinical), Speech perception outcome, Rare cancers Radboud Institute for Health Sciences [Radboudumc 9]
Abstract

Hypothesis: Insertion speed during cochlear implantation determines the risk of cochlear trauma. By slowing down insertion speed tactile feedback is improved. This is highly conducive to control the course of the electrode array along the cochlear contour and prevent translocation from the scala tympani to the scala vestibuli. Background: Limiting insertion trauma is a dedicated goal in cochlear implantation to maintain the most favorable situation for electrical stimulation of the remaining stimulable neural components of the cochlea. Surgical technique is one of the potential influencers on translocation behavior of the electrode array. Methods: The intrascalar position of 226 patients, all implanted with a precurved electrode array, aiming a mid-scalar position, was evaluated. One group (n = 113) represented implantation with an insertion time less than 25 seconds (fast insertion) and the other group (n = 113) was implanted in 25 or more seconds (slow insertion). A logistic regression analysis studied the effect of insertion speed on insertion trauma, controlled for surgical approach, cochlear size, and angular insertion depth. Furthermore, the effect of translocation on speech performance was evaluated using a linear mixed model. Results: The translocation rate within the fast and slow insertion groups were respectively 27 and 10%. A logistic regression analysis showed that the odds of dislocation increases by 2.527 times with a fast insertion, controlled for surgical approach, cochlear size, and angular insertion depth (95% CI = 1.135, 5.625). We failed to find a difference in speech recognition between patients with and without translocated electrode arrays. Conclusion: Slowing down insertion speed till 25 seconds or longer reduces the incidence of translocation.

Published
2022

11. Short- and long-latency components of the eCAP reveal different refractory properties

Author

Dong, Y., Briaire, J.J., Stronks, H.C., and Frijns, J.H.M.

Subjects
Adult, Refractory recovery, Speech perception, Action Potentials, Electrically evoked action potential, Cochlear Implantation, Sensory Systems, Sensorineural hearing loss, Cochlear Implants, Auditory nerve, Humans, Child, Cochlear Nerve, Retrospective Studies
Abstract

Background: The refractory recovery function (RRF) measures the electrically evoked compound action potential (eCAP) in response to a second pulse (probe) after masking by a first pulse (masker). This RRF is usually used to assess the refractory properties of the electrically stimulated auditory nerve (AN) by recording the eCAP amplitude as a function of the masker probe interval. Instead of assessing eCAP amplitudes only, recorded waveforms can also be described as a combination of a short-latency component (S-eCAP) and a long-latency component (L-eCAP). It has been suggested that these two components originate from two different AN fiber populations with differing refractory properties. The main objective of this study was to explore whether the refractory characteristics revealed by S-eCAP, L-eCAP, and the raw eCAP (R-eCAP) differ from each other. For clinical relevance, we compared these refractory properties between children and adults and examined whether they are related to cochlear implant (CI) outcomes.Design: In this retrospective study, the raw RRF (R-RRF) was obtained from 121 Hi-Focus Mid-Scala or 1 J cochlear implant (Advanced Bionics, Valencia, CA) recipients. Each R-eCAP of the R-RRF was split into an S-eCAP and an L-eCAP using deconvolution to produce two new RRFs: S-RRF and L-RRF. The refractory properties were characterized by fitting an exponential decay function with three parameters: the absolute refractory period (T); the saturation level (A); and the speed of recovery from nerve refractoriness ( Tau), i.e., a measure of the relative refractory period. We compared the parameters of the R-RRF (R T , R A , R Tau) with those obtained from the S-RRF (S T , S A , S Tau) and L-RRF (L T , L A , L Tau) and investigated whether these parameters differed between children and adults. In addition, we examined the associations between these parameters and speech perception in adults with CI. Linear mixed modeling was used for the analyses.Results: We found that T R was significantly longer than S T and L T , and S T was significantly longer than L T . R A was significantly larger than S A and L A , and S A was significantly larger than L A . Also, S Tau was significantly longer in comparison to R Tau and L Tau, but no significant difference was found between R Tau and L Tau. Children presented a significantly larger S A and L A and a shorter R T in comparison to adults. Shorter S Tau was significantly associated with better speech perception in adult CI recipients, but other parameters were not.Conclusion: We demonstrated that the two components of the eCAP have different refractory properties and that these also differ from those of the R-eCAP. In comparison with the R-eCAP, the refractory properties derived from the S-eCAP and L-eCAP can reveal additional clinical implications in terms of the refractory difference between children and adults as well as speech performance after implantation. Thus, it is worthwhile considering the two components of the eCAP in the future when assessing the clinical value of the auditory refractory properties.

Published
2022
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13. The relation between polarity sensitivity and neural degeneration in a computational model of cochlear implant stimulation

Author

Kalkman, R.K., Briaire, J.J., Dekker, D.M.T., and Frijns, J.H.M.

Subjects
Neural health, Cochlear Implants, Computational model, Humans, Polarity sensitivity, Cochlear implant, Cochlear Implantation, Cochlear Nerve, Axons, Electric Stimulation, Sensory Systems, Cochlea
Abstract

The main aim of this computational modelling study was to test the validity of the hypothesis that sensitivity to the polarity of cochlear implant stimulation can be interpreted as a measure of neural health. For this purpose, the effects of stimulus polarity on neural excitation patterns were investigated in a volume conduction model of the implanted human cochlea, which was coupled with a deterministic active nerve fibre model based on characteristics of human auditory neurons. The nerve fibres were modelled in three stages of neural degeneration: intact, with shortened peripheral terminal nodes and with complete loss of the peripheral processes. The model simulated neural responses to monophasic, biphasic, triphasic and pseudomonophasic pulses of both polarities. Polarity sensitivity was quantified as the so-called polarity effect (PE), which is defined as the dB difference between cathodic and anodic thresholds. Results showed that anodic pulses mostly excited the auditory neurons in their central axons, while cathodic stimuli generally excited neurons in their peripheral processes or near their cell bodies. As a consequence, cathodic thresholds were more affected by neural degeneration than anodic thresholds. Neural degeneration did not have a consistent effect on the modelled PE values, though there were notable effects of electrode contact insertion angle and distance from the modiolus. Furthermore, determining PE values using charge-balanced multiphasic pulses as approximations of monophasic stimuli produced different results than those obtained with true monophasic pulses, at a degree that depended on the specific pulse shape; in general, pulses with lower secondary phase amplitudes showed polarity sensitivities closer to those obtained with true monophasic pulses. The main conclusion of this study is that polarity sensitivity is not a reliable indicator of neural health; neural degeneration affects simulated polarity sensitivity, but its effect is not consistently related to the degree of degeneration. Polarity sensitivity is not simply a product of the state of the neurons, but also depends on spatial factors.(c) 2021 The Author(s). Published by Elsevier B.V. This is an open access article under the CC BY license ( http://creativecommons.org/licenses/by/4.0/ )

Published
2022
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14. Multimodal imaging of hair follicle bulge-derived stem cells in a mouse model of traumatic brain injury

Author

Schomann, T. (Timo), Iljas, J.D. (Juvita D.), Que, I. (Ivo), Li, Y. (Yuedan), Suidgeest, E. (Ernst), Cruz, L.J. (Luis J.), Frijns, J.H.M. (Johan), Chan, A. (Albert), Löwik, C.M.W.G. (Clemens M.W.G.), Huisman, M.A. (Margriet A.), Mezzanotte, L. (Laura), Schomann, T. (Timo), Iljas, J.D. (Juvita D.), Que, I. (Ivo), Li, Y. (Yuedan), Suidgeest, E. (Ernst), Cruz, L.J. (Luis J.), Frijns, J.H.M. (Johan), Chan, A. (Albert), Löwik, C.M.W.G. (Clemens M.W.G.), Huisman, M.A. (Margriet A.), and Mezzanotte, L. (Laura)

Abstract

Traumatic brain injury (TBI) is a devastating event for which current therapies are limited. Stem cell transplantation may lead to recovery of function via different mechanisms, such as cell replacement through differentiation, stimulation of angiogenesis and support to the microenvironment. Adult hair follicle bulge-derived stem cells (HFBSCs) possess neuronal differentiation capacity, are easy to harvest and are relatively immune-privileged, which makes them potential candidates for autologous stem cell-based therapy. In this study, we apply in vivo multimodal, optical and magnetic resonance imaging techniques to investigate the behavior of mouse HFBSCs in a mouse model of TBI. HFBSCs expressed Luc2 and copGFP and were examined for their differentiation capacity in vitro. Subsequently, transduced HFBSCs, preloaded with ferumoxytol, were transplanted next to the TBI lesion (cortical region) in nude mice, 2 days after injury. Brains were fixed for immunohistochemistry 58 days after transplantation. Luc2- and copGFP-expressing, ferumoxytol-loaded HFBSCs showed adequate neuronal differentiation potential in vitro. Bioluminescence of the lesioned brain revealed survival of HFBSCs and magnetic resonance imaging identified their localization in the area of transplantation. Immunohistochemistry showed that transplanted cells stained for nestin and neurofilament protein (NF-Pan). Cells also expressed laminin and fibronectin but extracellular matrix masses were not detected. After 58 days, ferumoxytol could be detected in HFBSCs in brain tissue sections. These results show that HFBSCs are able to survive after brain transplantation and suggest that cel

Published
2020
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15. Short and long-term adaptation in the auditory nerve stimulated with high-rate electrical pulse trains are better described by a power law

Author

van Gendt, M.J., Siebrecht, M., Briaire, J.J., Bohte, S.M. (Sander), Frijns, J.H.M., van Gendt, M.J., Siebrecht, M., Briaire, J.J., Bohte, S.M. (Sander), and Frijns, J.H.M.

Abstract

Despite the introduction of many new sound-coding strategies speech perception outcomes in cochlear implant listeners have leveled off. Computer models may help speed up the evaluation of new sound-coding strategies, but most existing models of auditory nerve responses to electrical stimulation include limited temporal detail, as the effects of longer stimulation, such as adaptation, are not well-studied. Measured neural responses to stimulation with both short (400 ms) and long (10 min) duration high-rate (5kpps) pulse trains were compared in terms of spike rate and vector strength (VS) with model outcomes obtained with different forms of adaptation. A previously published model combining biophysical and phenomenological approaches was adjusted with adaptation modeled as a single decaying exponent, multiple exponents and a power law. For long duration data, power law adaptation by far outperforms the single exponent model, especially when it is optimized per fiber. For short duration data, all tested models performed comparably well, with slightly better performance of the single exponent model for VS and of the power law model for the spike rates. The power law parameter sets obtained when fitted to the long duration data also yielded adequate predictions for short duration stimulation, and vice versa. The power law function can be approximated with multiple exponents, which is physiologically more viable. The number of required exponents depends on the duration of simulation; the 400 ms data was well-replicated by two exponents (23 and 212 ms), whereas the 10-minute data required at least seven exponents (ranging from 4 ms to 600 s). Adaptation of the auditory nerve to high-rate electrical stimulation can best be described by a power-law or a sum of exponents. This gives an adequate fit for both short and long duration stimuli, such as CI speech segments.

Published
2020
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22. Quality of life of children with hearing loss in special and mainstream education: A longitudinal study

Author

Straaten, T.F.K. van der, Rieffe, C., Soede, W., Netten, A.P., Dirks, E., Oudesluys-Murphy, A.M., Dekker, F.W., Bohringer, S., Frijns, J.H.M., and DECIBEL Collaborative Study Grp

Subjects
Male, Longitudinal study, Hearing loss, Special education, Language Development, 03 medical and health sciences, 0302 clinical medicine, Hearing Aids, Mainstreaming, Education, Acquired immunodeficiency syndrome (AIDS), Quality of life, Hearing, 030225 pediatrics, Surveys and Questionnaires, medicine, Mainstream, Humans, Longitudinal Studies, 030223 otorhinolaryngology, Child, Hearing Loss, Children, Language, business.industry, Expressive language, General Medicine, medicine.disease, Social Participation, humanities, Cochlear Implants, Otorhinolaryngology, Case-Control Studies, Child, Preschool, Education, Special, Pediatrics, Perinatology and Child Health, Longitudinal, Mainstream education, Quality of Life, Educational Status, Female, Outcome data, medicine.symptom, business, Clinical psychology
Abstract

Objectives To compare the quality of life (QoL) of children with hearing loss (HL) and children with normal hearing (NH) and to examine how the QoL of children with HL changes over time, considering language skills, type of hearing device, degree of HL, and type of education. Methods and materials This longitudinal study included 62 children with HL and their parents. Developmental outcome data were collected at two time points, when the mean ages of the children were 4 and 11 years. The Pediatric Quality of Life (PedsQL™) questionnaire, which includes assessments of Physical, Emotional, Social, and School functioning, was completed by parents at both time points and by the children with HL at the second time point. Receptive and expressive language skills at 4 years were assessed by the Reynell Developmental Language Scale. Results were compared with a Dutch normative sample. Results The QoL of children with HL was similar to that of children with NH at both time points on two of the four QoL scales, Emotional and Physical functioning. On the other two scales, Social and School functioning, children with HL who attended special education and children who switched to mainstream education showed lower scores than children with HL who were consistently in mainstream education and lower scores than children with NH. The School QoL of children with HL decreased over time, as did the School QoL of children with NH. Social QoL of children with cochlear implants decreased over time, but this was not the case in children with hearing aids. Language skills and the degree of HL did not clinically improve the QoL over time of preschool children with HL. Conclusions The QoL of children with HL in mainstream education and the Physical and Emotional QoL of all children with HL were satisfactory. It is essential to develop specific guidance regarding school activities for children with HL in special education and for children with HL who switch to mainstream education in order to increase their social QoL.

Published
2019

23. Effect of unilateral and simultaneous bilateral cochlear implantation on tinnitus: A Prospective Study

Author

Zon, A. van, Smulders, Y.E., Ramakers, G.G.J., Stegeman, I., Smit, A.L., Zanten, G.A. van, Stokroos, R.J., Hendrice, N., Free, R.H., Maat, B., Frijns, J.H.M., Mylanus, E.A.M., Huinck, W.J., Topsakal, V., Tange, R.A., and Grolman, W.

Subjects
cochlear implantation, Tinnitus, Tinnitus Handicap Inventory, otorhinolaryngologic diseases, sense organs, Tinnitus Questionnaire, bilateral cochlear implantation, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12]
Abstract

Item does not contain fulltext OBJECTIVES/HYPOTHESIS: To determine the effect of cochlear implantation on tinnitus perception in patients with severe bilateral postlingual sensorineural hearing loss and to demonstrate possible differences between unilateral and bilateral cochlear implantation. STUDY DESIGN: Prospective study. METHODS: Thirty-eight adult patients were included in this prospective study, as part of a multicenter randomized controlled trial investigating the benefits of bilateral cochlear implantation versus unilateral cochlear implantation. Pre- and postoperative tinnitus perception scores were evaluated, before and 1 year after implantation on three tinnitus questionnaires; the Tinnitus Handicap Inventory (THI), the Tinnitus Questionnaire (TQ), and a visual analogue scale for tinnitus burden. RESULTS: Before implantation, the tinnitus prevalence was 42.1% (16 of 38) in the whole study group. One year after implantation, the tinnitus questionnaire scores had decreased in 71.4% according to the TQ and 80.0% according to the THI. Tinnitus was induced after cochlear implantation in six patients, five in the bilateral and one in the unilateral group. CONCLUSIONS: Our study shows that cochlear implantation is effective in the reduction of tinnitus in patients with bilateral sensorineural hearing loss who suffered from preoperative tinnitus. Conversely, tinnitus may also increase or even be induced by the cochlear implantation itself. Cochlear implant candidates should be well informed about these possible consequences before undergoing surgery. LEVEL OF EVIDENCE: 2b Laryngoscope, 126:956-961, 2016.

Published
2016
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26. Can You Hear What I Think? Theory of Mind in Young Children With Moderate Hearing Loss

Author

Netten, A.P., Rieffe, C., Soede, W., Dirks, E., Korver, A.M.H., Konings, S., Briaire, J.J., Oudesluys-Murphy, A.M., Dekker, F.W., Frijns, J.H.M., and DECIBEL Collaborative Study Grp

Subjects
Hearing aid, Male, Computer science, Hearing loss, medicine.medical_treatment, Social development, Theory of Mind, Developmental psychology, 030507 speech-language pathology & audiology, 03 medical and health sciences, Speech and Hearing, Hearing Aids, Language assessment, Theory of mind, otorhinolaryngologic diseases, medicine, Humans, 0501 psychology and cognitive sciences, Hearing Loss, Children, Language, Moderate hearing loss, Communication, 05 social sciences, Media studies, Incidental learning, Child development, Comprehension, Otorhinolaryngology, Case-Control Studies, Child, Preschool, Normative, Female, medicine.symptom, 0305 other medical science, Child Language, 050104 developmental & child psychology, Spoken language
Abstract

Objectives The first aim of this study was to examine various aspects of Theory of Mind (ToM) development in young children with moderate hearing loss (MHL) compared with hearing peers. The second aim was to examine the relation between language abilities and ToM in both groups. The third aim was to compare the sequence of ToM development between children with MHL and hearing peers. Design Forty-four children between 3 and 5 years old with MHL (35 to 70 dB HL) who preferred to use spoken language were identified from a nationwide study on hearing loss in young children. These children were compared with 101 hearing peers. Children were observed during several tasks to measure intention understanding, the acknowledgement of the other's desires, and belief understanding. Parents completed two scales of the child development inventory to assess expressive language and language comprehension in all participants. Objective language test scores were available from the medical files of children with MHL. Results Children with MHL showed comparable levels of intention understanding but lower levels of both desire and belief understanding than hearing peers. Parents reported lower language abilities in children with MHL compared with hearing peers. Yet, the language levels of children with MHL were within the average range compared with test normative samples. A stronger relation between language and ToM was found in the hearing children than in children with MHL. The expected developmental sequence of ToM skills was divergent in approximately one-fourth of children with MHL, when compared with hearing children. Conclusion Children with MHL have more difficulty in their ToM reasoning than hearing peers, despite the fact that their language abilities lie within the average range compared with test normative samples.

Published
2017

31. Early identification: Language skills and social functioning in deaf and hard of hearing preschool children

Author

Netten, A.P., Rieffe, C., Theunissen, S.C.P.M., Soede, W., Dirks, E., Korver, A.M.H., Konings, S., Oudesluys-Murphy, A.M., Dekker, F.W., Frijns, J.H.M., and DECIBEL Collaborative Study Grp

Subjects
Male, medicine.medical_specialty, Cross-sectional study, Hearing loss, Child Behavior Disorders, Behavioral problems, Deafness, Audiology, Persons With Hearing Impairments, Developmental psychology, Social Skills, Social skills, Surveys and Questionnaires, Social functioning, otorhinolaryngologic diseases, medicine, Humans, Early childhood, Child, Hearing Loss, Language, Language Tests, business.industry, Communication, Preschool children, General Medicine, Strengths and Difficulties Questionnaire, Test (assessment), Cross-Sectional Studies, Otorhinolaryngology, Child, Preschool, Pediatrics, Perinatology and Child Health, Normative, Female, medicine.symptom, business, Child Language
Abstract

Objective Permanent childhood hearing impairment often results in speech and language problems that are already apparent in early childhood. Past studies show a clear link between language skills and the child's social–emotional functioning. The aim of this study was to examine the level of language and communication skills after the introduction of early identification services and their relation with social functioning and behavioral problems in deaf and hard of hearing children. Study Design Nationwide cross-sectional observation of a cohort of 85 early identified deaf and hard of hearing preschool children (aged 30–66 months). Methods Parents reported on their child's communicative abilities (MacArthur-Bates Communicative Development Inventory III), social functioning and appearance of behavioral problems (Strengths and Difficulties Questionnaire). Receptive and expressive language skills were measured using the Reynell Developmental Language Scale and the Schlichting Expressive Language Test, derived from the child's medical records. Results Language and communicative abilities of early identified deaf and hard of hearing children are not on a par with hearing peers. Compared to normative scores from hearing children, parents of deaf and hard of hearing children reported lower social functioning and more behavioral problems. Higher communicative abilities were related to better social functioning and less behavioral problems. No relation was found between the degree of hearing loss, age at amplification, uni- or bilateral amplification, mode of communication and social functioning and behavioral problems. Conclusion These results suggest that improving the communicative abilities of deaf and hard of hearing children could improve their social–emotional functioning.

Published
2015

32. Reply

Author

van der Jagt, A., Webb, A.G., Frijns, J.H.M., and Verbist, B.M.

Subjects
Ear, Inner, Humans, Radiology, Nuclear Medicine and imaging, Neurology (clinical), Letters, Magnetic Resonance Imaging
Published
2014

34. The influence of cochlear implant electrode position on performance

Author

Marel, K.S. van der, Briaire, J.J., Verbist, B.M., Muurling, T.J., Frijns, J.H.M., Marel, K.S. van der, Briaire, J.J., Verbist, B.M., Muurling, T.J., and Frijns, J.H.M.

Abstract

Item does not contain fulltext, To study the relation between variables related to cochlear implant electrode position and speech perception performance scores in a large patient population.The study sample consisted of 203 patients implanted with a CII or HiRes90K implant with a HiFocus 1 or 1J electrode of Advanced Bionics. Phoneme and word score averages for the 1- and 2-year follow-up were calculated for 41 prelingually deaf and 162 postlingually deaf patients. Analyses to reveal correlations between these performance outcomes and 6 position-related variables (angle of most basal electrode contact, surgical insertion angle, surgical insertion, wrapping factor, angular insertion depth, linear insertion depth) were executed. The scalar location, as an indication for the presence of intracochlear trauma, and modiolus proximity beyond the basal turn were not evaluated in this study. In addition, different patient-specific variables (age at implantation, age at onset of hearing loss, duration of deafness, preoperative phoneme and word scores) were tested for correlation with performance.The performance scores of prelingual patients were correlated with age at onset of hearing loss, duration of deafness and preoperative scores. For the postlingual patients, performance showed correlations with all 5 patient-specific variables. None of the 6 position-related variables influenced speech perception in cochlear implant patients.Although several patient-specific variables showed correlations with speech perception outcomes, not one of the studied angular and linear position-related variables turned out to have a demonstrable influence on performance.

Published
2015

35. Visualization of human inner ear anatomy with high-resolution MR imaging at 7T: initial clinical assessment

Author

Jagt, M.A. van der, Brink, W.M., Versluis, M.J., Steens, S.C.A., Briaire, J.J., Webb, A.G., Frijns, J.H.M., Verbist, B.M., Jagt, M.A. van der, Brink, W.M., Versluis, M.J., Steens, S.C.A., Briaire, J.J., Webb, A.G., Frijns, J.H.M., and Verbist, B.M.

Abstract

Contains fulltext : 152932.pdf (publisher's version ) (Open Access), BACKGROUND AND PURPOSE: In many centers, MR imaging of the inner ear and auditory pathway performed on 1.5T or 3T systems is part of the preoperative work-up of cochlear implants. We investigated the applicability of clinical inner ear MR imaging at 7T and compared the visibility of inner ear structures and nerves within the internal auditory canal with images acquired at 3T. MATERIALS AND METHODS: Thirteen patients with sensorineural hearing loss eligible for cochlear implantation underwent examinations on 3T and 7T scanners. Two experienced head and neck radiologists evaluated the 52 inner ear datasets. Twenty-four anatomic structures of the inner ear and 1 overall score for image quality were assessed by using a 4-point grading scale for the degree of visibility. RESULTS: The visibility of 11 of the 24 anatomic structures was rated higher on the 7T images. There was no significant difference in the visibility of 13 anatomic structures and the overall quality rating. A higher incidence of artifacts was observed in the 7T images. CONCLUSIONS: The gain in SNR at 7T yielded a more detailed visualization of many anatomic structures, especially delicate ones, despite the challenges accompanying MR imaging at a high magnetic field.

Published
2015

36. In Vivo Inner Ear Imaging at 7 T

Author

Jagt, A.M. van der, Brink, W.M., Webb, A., Frijns, J.H.M., Verbist, B.M., Jagt, A.M. van der, Brink, W.M., Webb, A., Frijns, J.H.M., and Verbist, B.M.

Abstract

Item does not contain fulltext

Published
2015

39. Speech Intelligibility as a Predictor of Cochlear Implant Outcome in Prelingually Deafened Adults

Author

Dijkhuizen, J.N. van, Beers, M., Boermans, P.P.B.M., Briaire, J.J., and Frijns, J.H.M.

Subjects
otorhinolaryngologic diseases, impaired speakers intelligibility quality-of-life intracochlear implant hearing children deafness perception candidacy criteria multielectrode
Abstract

Objectives: Among adult patients with prelingual deafness, interindividual variability in speech perception outcome after cochlear implantation is generally large. It was hypothesized that the intelligibility of the patient's own speech may be predictive of speech perception with a cochlear implant. The objectives were (1) to provide a validation of a new test battery as a measurement tool for intelligibility using a group of prelingually deafened patients; (2) to investigate the validity of the test battery as a predictor of postimplant speech perception, based on preliminary data with a cochlear implant from a subgroup of patients; and (3) to investigate the validity of the test battery as a predictor of postimplant health-related quality of life (HRQoL) for the same subgroup of patients. Design: Twenty-five adult cochlear implant candidates with prelingual deafness participated in this study. Average age at onset of deafness was 8 mos (range 0 to 4 yrs). Speech samples from the participants were recorded and presented to two normal-hearing listeners. Results from the seven intelligibility tests in the battery were subjected to analyses of reliability and validity. Furthermore, the multiple test outcomes were submitted to a Principal Component Analysis to investigate the possibility of summarizing the data. Subsequently, from the group of 25 participants, 9 participants with above-average intelligibility were selected for implantation. Speech perception data with a cochlear implant from the nine implantees were collected at 12 mos postimplantation, as well as HRQoL data. Predictive validity of the intelligibility test battery was determined, using the postimplant data as the criterion. Results: Results from the 25 participants averaged over listeners showed that all tests in the battery had good reliability and validity as measures of intelligibility. Principal Component Analysis showed that the multiple test outcomes could be summarized by a single underlying variable. Despite the early age at onset of deafness, the subgroup of nine participants who received a cochlear implant included several good performers in terms of speech perception with the implant. The intelligibility test battery summary score had good validity as a predictor of postimplant outcome: the more intelligible the participant's speech, the better his or her speech perception outcome with the cochlear implant. Availability of effective auditory input in early life may be the fundamental factor underlying the potential for speech perception with a cochlear implant in later life. The intelligibility test battery can be reduced to a single test to minimize testing time without negatively affecting its predictive validity. Predictive validity of the intelligibility test battery can be generalized to HRQoL outcomes of cochlear implantation, provided these outcomes are concerned with speech processing abilities. Conclusions: The new test battery (or its reduced version), used as a measure of intelligibility, is a promising tool for guiding cochlear implant candidacy decisions and counseling for individual patients with prelingual deafness. Because intelligibility has superior predictive power in comparison to age at onset of deafness, the latter should be discarded as an exclusion criterion for cochlear implantation.

Published
2011

40. Cochlear Reimplantation With Same Device: Surgical and Audiologic Results

Author

Marel, K.S. van der, Briaire, J.J., Verbist, B.M., Joemai, R.M.S., Boermans, P.P.B.M., Peek, F.A.W., and Frijns, J.H.M.

Subjects
Cochlear implant reimplantation electrode array displacement speech perception performance radiologic imaging implant-surgery revision failures performance perception outcomes speech
Abstract

Objectives/Hypothesis: To study to what extent it is possible to achieve identical insertion depths and to maintain the same performance after cochlear reimplantation. Study Design: Outcome research on a retrospective case series in a tertiary university referral center. Methods: Data were collected for 12 adults and three children who underwent reimplantation during the last 3 years with a new HiRes90K device with Hi Focus 1J electrode owing to failure of the feed-through seal. Multislice computed tomography scans were used to compare positions of the original and newly placed electrode arrays. The speech-perception scores on a consonant-vowel-consonant word test before and after reimplantation were compared. Results: All reimplantations were successfully performed by two experienced cochlear implantation surgeons, and no complications were observed. Postoperative imaging showed that the average displacement of the new implant was only 0.59 mm. Reactivation of the implant gave immediate open set speech understanding in all patients, and speech perception rapidly returned to the previous level obtained with the original implant within weeks; it was even significantly better at the 3-month follow-up. No relation was found between changes in performance and the amount of displacement of the electrode array. Conclusions: After cochlear reimplantation with the same device, electrode-array position can be accurately replicated and speech perception can be regained or even improved within weeks.

Published
2011

41. Causes of Permanent Childhood Hearing Impairment

Author

Korver, A.M.H., Admiraal, R.J.C., Kant, S.G., Dekker, F.W., Wever, C.C., Kunst, H.P.M., Frijns, J.H.M., Oudesluys-Murphy, A.M., and DECIBEL-Collaborative Study Grp

Subjects
Permanent Childhood Hearing Impairment hearing loss hearing impairment aetiology diagnosis epidemiology cause congenital genetic uk population epidemiology etiology deafness metaanalysis children
Abstract

Introduction: The causes of Permanent Childhood Hearing Impairment (PCHI) are often quoted as being hereditary in 50%, acquired in 25%, and unknown in 25% of cases. Interest in the causes of PCHI has grown recently due to increasing diagnostic possibilities. We investigated the evidence for the reported distribution of these causes. Methods: Population-based study and a systematic review. Inclusion criteria for population-based study: children born between 2003 and 2005, resident in The Netherlands at birth, known at an Audiology Center with PCHI at the age of 3-5 years. The causes of PCHI were determined prospectively by detection of congenital cytomegalovirus on dried blood spots and/or genetic diagnostic investigations in addition to reviewing data from medical records. A systematic review was carried out using three terms (hearing loss, infant, and etiology) and limited to articles published between January 1997 and July 2009. Main outcome measures were: the (weighted) proportions of the various causes of PCHI following diagnostic investigations. Results: In the study-population (n = 185) a hereditary cause was found in 38.9%, acquired cause in 29.7%, miscellaneous cause in 7.1%, and the cause remained unknown in 24.3%. The systematic review of the literature (n = 9 articles) resulted in a weighted mean of 30.4% hereditary, 19.2% acquired, and 48.3% unknown causes of PCHI. Discussion: The systematic review and the results of the population-based study provided little support for the generally accepted distribution of causes of PCHI.

Published
2011

43. Bilateral versus unilateral cochlear implantation in young children

Author

Tait, M. Nikolopoulos, T.P. De Raeve, L. Johnson, S. Datta, G. Karltorp, E. Ostlund, E. Johansson, U. van Knegsel, E. Mylanus, E.A.M. Gulpen, P.M.H. Beers, M. Frijns, J.H.M.

Subjects
otorhinolaryngologic diseases
Abstract

Objectives: To compare the preverbal communication skills of two groups of young implanted children: those with unilateral implantation and those with bilateral implantation. Material and methods: The study assessed 69 children: 42 unilaterally and 27 bilaterally implanted with age at implantation less than 3 years. The preverbal skills of these children were measured before and 1 year after implantation, using Tait Video Analysis that has been found able to predict later speech outcomes in young implanted children. Results: Before implantation there was no significant difference between the unilateral group and the bilateral group. There was still no difference at 12 months following implantation where vocal autonomy is concerned, but a strongly significant difference between the groups for vocal turn-taking and non-looking vocal turns, the bilateral group outperforming the unilateral group. Regarding gestural turn-taking and gestural autonomy, there was a strongly significant difference between the two groups at the 12 month interval, and also a difference before implantation for gestural autonomy, the unilateral group having the higher scores. Multiple regression of non-looking vocal turns revealed that 1 year following implantation, bilateral implantation contributed to 51% of the variance (p < 0.0001), after controlling for the influence of age at implantation and length of deafness which did not reach statistical significance. Conclusions: Profoundly deaf bilaterally implanted children are significantly more likely to use vocalisation to communicate, and to use audition when interacting vocally with an adult, compared with unilaterally implanted children. These results are independent of age at implantation and length of deafness. © 2009.

Published
2010

44. Reply

Author

van der Jagt, A., primary, Webb, A.G., additional, Frijns, J.H.M., additional, and Verbist, B.M., additional

Published
2014
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46. Thin Titanium Nitride Films Deposited using DC Magnetron Sputtering used for Neural Stimulation and Sensing Purposes

Author

Lawand, N.S. (author), French, P.J. (author), Briaire, J.J. (author), Frijns, J.H.M. (author), Lawand, N.S. (author), French, P.J. (author), Briaire, J.J. (author), and Frijns, J.H.M. (author)

Abstract

n recent times Platinum (Pt), Iridium (Ir), Iridium oxide (IrO) and Platinum-Iridium (Pt-Ir) are the favorable microelectrode materials. They show excellent electrical and mechanical properties suitable for neural stimulation and sensing/recording purposes. But their long term stability and performance is still in question especially working in conductive saline environment. Titanium Nitride (TiN) is advantageous than the mentioned noble metals used as microelectrode material for nerve stimulation and sensing. TiN films are generally used in biomedical implants due to their good mechanical and high corrosion resistance with extreme biocompatibility. Here we talk over the capabilities of sputtered TiN material as a microelectrode material with respect to its mechanical and electrical properties. Also, we discuss the initial results for sputtered TiN layers and its surface properties suitable for electrical stimulation and sensing neuronal activity. TiN was chosen because it readily lends itself to reactive sputtering method and provides significant charge injection rates 23 mC/cm2 with excellent corrosion and biocompatibility properties. Titanium (Ti) and TiN thin films of 200 nm thick were deposited by DC magnetron sputtering process on plain silicon substrates. Initial AFM and XRD characterization study was carried to study the crystal structural properties of these thin films., Microelectronics, Electrical Engineering, Mathematics and Computer Science

Published
2012
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47. Design and fabrication of stiff silicon probes: A step towards sophisticated cochlear implant electrodes

Author

Lawand, N.S. (author), French, P.J. (author), Briare, J.J. (author), Frijns, J.H.M. (author), Lawand, N.S. (author), French, P.J. (author), Briare, J.J. (author), and Frijns, J.H.M. (author)

Abstract

Cochlear implants work on the principle of direct electrical stimulation of the auditory nerve. It has advantages to replace their traditional wired electrodes by a high-density thin-film multielectrode stimulation array which is relatively small in dimensions, stable, resistant to electrolysis, and offers batch fabrication capabilities with good electrical and mechanical properties. In this paper a development review of cochlear implants (CI's) along with the fabrication of stiff silicon probes using silicon micromachining is described. The initial design for a new microelectrode array is described with microfabrication steps for stiff silicon probes which is a step towards a future flexible CI-electrodes. These stiff probes were fabricated in order to study the problems involved in fabrication and the behaviour of the probes when inserted perpendicular to the auditory nerve. The probes were fabricated with lengths ranging from 3.5 mm to 10.5 mm with thickness between 60 to 70 microns., Microelectronics, Electrical Engineering, Mathematics and Computer Science

Published
2011
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