Implant Recipients Research Articles

Effect of Microphone Location and Beamforming Technology on Speech Recognition in Pediatric Cochlear Implant Recipients

Background: Despite improvements in cochlear implant (CI) technology, pediatric CI recipients continueto have more difficulty understanding speech than their typically hearing peers in background noise. Avariety of strategies have been evaluated to help mitigate this disparity, such as signal processing, remotemicrophone technology, and microphone placement. Previous studies regarding microphoneplacement used speech processors that are now dated, and most studies investigating the improvementof speech recognition in background noise included adult listeners only.Purpose: The purpose of the present study was to investigate the effects of microphone location andbeamforming technology on speech understanding for pediatric CI recipients in noise.Research Design: A prospective, repeated-measures, within-participant design was used to compareperformance across listening conditions.Study Sample: A total of nine children (aged 6.6 to 15.3 years) with at least one Advanced Bionics CIwere recruited for this study.Data Collection and Analysis: The Basic English Lexicon Sentences and AzBio Sentences were presentedat 0° azimuth at 65-dB SPL in +5 signal-to-noise ratio noise presented from seven speakers usingthe R-SPACE system (Advanced Bionics, Valencia, CA). Performance was compared across three omnidirectionalmicrophone configurations (processor microphone, T-Mic 2, and processor + T-Mic 2) andtwo directional microphone configurations (UltraZoom and auto UltraZoom). The two youngest participantswere not tested in the directional microphone configurations.Results: No significant differences were found between the various omnidirectional microphone configurations.UltraZoom provided significant benefit over all omnidirectional microphone configurations(T-Mic 2, p = 0.004, processor microphone, p < 0.001, and processor microphone + T-Mic 2, p = 0.018)but was not significantly different from auto UltraZoom (p = 0.176).Conclusions: All omnidirectional microphone configurations yielded similar performance, suggesting thata child’s listening performance in noise will not be compromised by choosing the microphone configurationbest suited for the child. UltraZoom (adaptive beamformer) yielded higher performance than all omnidirectional microphonesin moderate background noise for adolescents aged 9 to 15 years. The implicationsof these data suggest that for older children who are able to reliably use manual controls, UltraZoom willyield significantly higher performance in background noise when the target is in front of the listener.

Subjective Benefits of Bimodal Listening in Cochlear Implant Recipients with Asymmetric Hearing Loss

Subjective Benefits of Bimodal Listening in Cochlear Implant Recipients with Asymmetric Hearing Loss

A Multi-institutional Assessment of Multimodal Analgesia in Penile Implant Recipients Demonstrates Dramatic Reduction in Pain Scores and Narcotic Usage

IntroductionDespite the pain associated with inflatable penile prosthesis (IPP) implantation, there has been a lack of standardized, nonopioid pain control regimens described to date. AimTo assess the effectiveness of a multimodal analgesic regimen in patients undergoing implantation of an IPP compared with patients treated with an opioid-only regimen. MethodsA large, multicenter patient cohort undergoing IPP implantation whose pain was managed using a multimodal analgesia (MMA) protocol (preoperative and postoperative acetaminophen, meloxicam orcelecoxib, and gabapentin and intraoperative dorsal and pudendal nerve blocks) was compared with a matched cohort of patients managed via an opioid-only protocol. Both groups were compared with respect to visual analog score (VAS) and opioid usage (total morphine equivalents [TME]) in the post-anesthesia care unit (PACU), postoperative day 0 (POD0) and postoperative day 1 (POD1), and in the immediate postdischarge period. Narcotic usage on discharge and follow-up were assessed and compared. Main Outcome MeasurePostoperative pain scores and narcotic usage are the main outcome measures. Results203 patients were eligible for final analysis: 103 (50.7%) patients receiving MMA medication and 100 (49.3%) patients receiving opioids only. The VAS was significantly lower in the multimodal group in PACU (median 0.0 vs 2.0, P = .001), POD0 (median 3.0 vs 4.0, P = .001), and POD1 (median 3.0 vs 4.3, P = .04). Patients in the multimodal group also used fewer narcotics in PACU (median 0.0 vs 4.0 TME, P = .001), POD0 (median 7.5 vs 12.5 TME, P < .001), and POD1 (median 7.5 vs 13.5 TME, P = .01). Despite being discharged with fewer narcotics (median 20.0 vs 30.0 tablets, P < .001), a smaller proportion of patients in the MMA cohort required narcotic refills (10.7% vs 28.0%, P = .001). There were no narcotic- or MMA medication–related side effects in the entire cohort. Clinical ImplicationsMMA confers significant improvement in pain management while also providing a significant reduction in narcotic usage in patients undergoing implantation of IPP. Strength & LimitationsThis is the 1st large multi-institutional assessment of a multimodal analgesic regimen in urologic prosthetic surgery. The analgesic regimen targets several pain pathways that provide excellent pain control throughout the recovery process. Limitations include retrospective design and lack of standardization of the nonsteroidal anti-inflammatory drug type within the multimodal analgesic regimen. ConclusionThe use of a MMA protocol significantly reduces postoperative pain measures in penile implant recipients and further reduces both inpatient and outpatient narcotic usage without any discernable side effects.Lucas J, Gross M, Yafi F, et al. A Multi-institutional Assessment of Multimodal Analgesia in Penile Implant Recipients Demonstrates Dramatic Reduction in Pain Scores and Narcotic Usage. J Sex Med 2020;17:518–525.

Adult Cochlear Implant Recipients' Perspectives on Experiences With Music in Everyday Life: A Multifaceted and Dynamic Phenomenon.

BackgroundCochlear implants (CIs), which have been designed primarily to support spoken communication of persons with severe to profound hearing loss, are highly effective in supporting speech perception in quiet listening conditions. CI users as a group achieve significantly poorer perception and appraisal of music, and speech perception is compromised when background music is present, though outcomes vary considerably across recipients. A number of factors have been identified that contribute to variable music listening experiences, but many questions remain, particularly regarding experiences in everyday life from the perspective of CI users.PurposeThe purpose of this study was twofold: The first aim was to explore the perspectives of adult CI recipients regarding two experiences with music in everyday life: purposeful music listening and background music that competes with spoken conversation. The second aim was to develop a framework of everyday music experiences based upon CI perspectives that could inform future rehabilitative practices and research initiatives.MethodsQualitative and patient-engaged research methodologies were used to emphasize the perspectives of the CI users. Participants included 40 experienced adult CI users ranging in age from 19 to 81 enrolled in 13 CI centers. Participants completed on-line semi-structured open-ended questionnaires regarding purposeful music listening and background music in conjunction with spoken communication. Responses were analyzed using an iterative inductive coding process consistent with grounded theory methodology. The interrelated themes that emerged from the data were then organized into a model synthesizing components from models on music response and self-management for persons with chronic health conditions.OutcomesData analyses informed the development of a Dynamic Problem Solving Model for Management of Music Listening Environments adapted from Hill-Briggs (2003) Problem Solving Model of Chronic Illness Self-Management. Key findings were: (1) Music listening is a dynamic, multifaceted experience; satisfactory listening depended upon optimal combinations of factors; (2) Music listening is effortful, but the extent of satisfaction is influenced by expectations and self-management of the situation; (3) CI users have limited access to resources for optimizing music experiences. Many CI users would consider rehabilitation, but level of commitment and priorities differ across CI users.

The Assessment and Aural Rehabilitation Tool for Cochlear Implant Recipients With Unilateral Hearing Loss

Purpose Cochlear implantation may be a viable treatment option for patients with moderate-to-profound hearing loss in 1 ear and normal to near-normal hearing in the contralateral ear. There is a need for modified aural rehabilitation assessment and intervention tools for this unique patient population to support improvements with the cochlear implant (CI). The present report describes the development and implementation of the Assessment and Aural Rehabilitation Tool (AART) created for adult CI recipients with unilateral hearing loss (UHL). Conclusion The tool was used as an early assessment measure for CI in subjects with UHL and as a method to determine individualized auditory training plans. The AART was modified considering the initial abilities of this unique subject group. Ongoing studies are assessing the effectiveness of CI use in pediatric subjects with UHL and developing the pediatric version of the AART.

Establishing the acceptability of a brief patient reported outcome measure and feasibility of implementing it in a breast device registry \u2013 a qualitative study

BackgroundTo examine the acceptability of a Patient Reported Outcome Measure (PROM) that assesses perceptions and experiences of implants for breast reconstruction or augmentation, and the feasibility of implementing it in the Australian Breast Device Registry (ABDR).MethodsThe BREAST-Q Implant Surveillance (BREAST-Q IS) is a 5-question PROM derived from the BREAST-Q questionnaire. It assesses perceptions of breast appearance and sensation, and experiences of pain. Breast implant recipients (recruited via community networks, social media and notices in surgeons’ rooms) and surgeons contributing to the ABDR were invited to review the BREAST-Q-IS. Participation was by individual semi-structured interviews by telephone or email, or by completion of a paper questionnaire. Transcripts of audio recordings and emailed text were analysed thematically.ResultsTwenty one breast implant recipients (10 after reconstruction and 11 augmentation), 8 surgeons (five plastic, three breast) and 2 medical professionals performing cosmetic surgeries were interviewed. Six themes were identified: Overall impression, Emotional response to the BREAST-Q IS, Method of follow-up, Suggested improvements, Group variation, and Potential Clinical utility. Overall, breast implant recipients and surgeons found the BREAST-Q IS to be acceptable and unlikely to provoke strong emotional reactions. Email was the preferred mode of contact. Most suggested improvements were to add questions. Surgeons expressed concern that subjective responses to the PROM might not accurately reflect experiences and that the PROM would predict need for revision rather than device failure.ConclusionThis study supports the acceptability and feasibility of BREAST-Q IS as a PROM for recipients of breast implants. Further validation of the Breast-Q IS is required.

Long-Term Electrocardiographic Changes and Clinical Outcomes of Transcatheter Aortic Valve Implantation Recipients Without New Postprocedural Conduction Disturbances

The objective of this study was to determine the long-term (>1 year) electrocardiographic (ECG) and clinical outcomes of patients without significant changes in their electrocardiogram after transcatheter aortic valve implantation (TAVI; including patients with pre-existing ECG abnormalities). Among 772 consecutive patients who underwent TAVI in our institution, 397 patients (51%) without new ECG changes were included. TAVI patients were divided into 2 groups according to the presence of pre-existing ECG-conduction disturbances (ECG-CD: 140 patients, non-ECG-CD: 257 patients). Clinical follow-up (median: 35 [22 to 57] months) was complete in all patients but 5 (1.2%), and ECG data were available in 291 patients (84.3% of patients at risk) at a median of 29 (20 to 50) months. In the non-ECG-CD group, most patients (79.8%) remained without significant ECG changes at follow-up, and 16.9% developed first-degree atrioventricular block and/or bundle branch block over time. The rate of permanent pacemaker (PPM) implantation at follow-up was 3.5% (1.1%/year) in the non-ECG-CD group versus 15.7% (5.5%/year) in the ECG-CD group (p <0.001). The presence of pre-existing CD was an independent predictor of PPM at follow-up (hazard ratio [HR] 4.67, 95% confidence interval [CI] 2.15 to 10.16, p <0.001). The ECG-CD group exhibited a higher risk of heart failure hospitalization (non-ECG-CD: 25%, ECG-CD: 29%, log-rank p = 0.01), but not mortality (non-ECG-CD: 50%, ECG-CD: 46%, log-rank p = 0.60) at 5-year follow-up. In conclusion, the ECG remained unchanged in most TAVI recipients without new postprocedural CD. Pre-existing ECG-CD was associated with an increased risk of PPM and heart failure hospitalization at long-term follow-up. These results provide reassuring data in the era of TAVI expanding toward candidates with a longer life expectancy, and highlight the importance of a closer follow-up of those patients with pre-existing ECG-CDs.

Electrical Stimulation Degenerated Cochlear Synapses Through Oxidative Stress in Neonatal Cochlear Explants.

Neurostimulation devices use electrical stimulation (ES) to substitute, supplement or modulate neural function. However, the impact of ES on their modulating structures is largely unknown. For example, recipients of cochlear implants using electroacoustic stimulation experienced delayed loss of residual hearing over time after ES, even though ES had no impact on the morphology of hair cells. In this study, using a novel model of cochlear explant culture with charge-balanced biphasic ES, we found that ES did not change the quantity and morphology of hair cells but decreased the number of inner hair cell (IHC) synapses and the density of spiral ganglion neuron (SGN) peripheral fibers. Inhibiting calcium influx with voltage-dependent calcium channel (VDCC) blockers attenuated the loss of SGN peripheral fibers and IHC synapses induced by ES. ES increased ROS/RNS in cochlear explants, but the inhibition of calcium influx abolished this effect. Glutathione peroxidase 1 (GPx1) and GPx2 in cochlear explants decreased under ES and ebselen abolished this effect and attenuated the loss of SGN peripheral fibers. This finding demonstrated that ES induced the degeneration of SGN peripheral fibers and IHC synapses in a current intensity- and duration-dependent manner in vitro. Calcium influx resulting in oxidative stress played an important role in this process. Additionally, ebselen might be a potential protector of ES-induced cochlear synaptic degeneration.

Musical Sound Quality as a Function of the Number of Channels in Modern Cochlear Implant Recipients.

ObjectivesThis study examined musical sound quality (SQ) in adult cochlear implant (CI) recipients. The study goals were to determine: the number of channels needed for high levels of musical SQ overall and by musical genre; the impact of device and patient factors on musical SQ ratings; and the relationship between musical SQ, speech recognition, and speech SQ to relate these findings to measures frequently used in clinical protocols.MethodsTwenty-one post-lingually deafened adult CI recipients participated in this study. Electrode placement, including scalar location, average electrode-to-modiolus distance (), and angular insertion depth were determined by CT imaging using validated CI position analysis algorithms (e.g., Noble et al., 2013; Zhao et al., 2018, 2019). CI programs were created using 4–22 electrodes with equal spatial distribution of active electrodes across the array. Speech recognition, speech SQ, music perception via a frequency discrimination task, and musical SQ were acutely assessed for all electrode conditions. Musical SQ was assessed using pre-selected musical excerpts from a variety of musical genres.ResultsCI recipients demonstrated continuous improvement in qualitative judgments of musical SQ with up to 10 active electrodes. Participants with straight electrodes placed in scala tympani (ST) and pre-curved electrodes with higher variance reported higher levels of musical SQ; however, this relationship is believed to be driven by levels of musical experience as well as the potential for preoperative bias in device selection. Participants reported significant increases in musical SQ beyond four channels for all musical genres examined in the current study except for Hip Hop/Rap. After musical experience outliers were removed, there was no relationship between musical experience or frequency discrimination ability and musical SQ ratings. There was a weak, but significant correlation between qualitative ratings for speech stimuli presented in quiet and in noise and musical SQ.ConclusionModern CI recipients may need more channels for musical SQ than even required for asymptotic speech recognition or speech SQ. These findings may be used to provide clinical guidance for personalized expectations management of music appreciation depending on individual device and patient factors.

Convolutional Neural Network-based Speech Enhancement for Cochlear Implant Recipients.

Attempts to develop speech enhancement algorithms with improved speech intelligibility for cochlear implant (CI) users have met with limited success. To improve speech enhancement methods for CI users, we propose to perform speech enhancement in a cochlear filter-bank feature space, a feature-set specifically designed for CI users based on CI auditory stimuli. We leverage a convolutional neural network (CNN) to extract both stationary and non-stationary components of environmental acoustics and speech. We propose three CNN architectures: (1) vanilla CNN that directly generates the enhanced signal; (2) spectral-subtraction-style CNN (SS-CNN) that first predicts noise and then generates the enhanced signal by subtracting noise from the noisy signal; (3) Wiener-style CNN (Wiener-CNN) that generates an optimal mask for suppressing noise. An important problem of the proposed networks is that they introduce considerable delays, which limits their real-time application for CI users. To address this, this study also considers causal variations of these networks. Our experiments show that the proposed networks (both causal and non-causal forms) achieve significant improvement over existing baseline systems. We also found that causal Wiener-CNN outperforms other networks, and leads to the best overall envelope coefficient measure (ECM). The proposed algorithms represent a viable option for implementation on the CCi-MOBILE research platform as a pre-processor for CI users in naturalistic environments.

Effects of Early Acoustic Hearing on Speech Perception and Language for Pediatric Cochlear Implant Recipients.

Purpose The overall goal of the current study was to identify an optimal level and duration of acoustic experience that facilitates language development for pediatric cochlear implant (CI) recipients-specifically, to determine whether there is an optimal duration of hearing aid (HA) use and unaided threshold levels that should be considered before proceeding to bilateral CIs. Method A total of 117 pediatric CI recipients (ages 5-9 years) were given speech perception and standardized tests of receptive vocabulary and language. The speech perception battery included tests of segmental perception (e.g., word recognition in quiet and noise, and vowels and consonants in quiet) and of suprasegmental perception (e.g., talker and stress discrimination, and emotion identification). Hierarchical regression analyses were used to determine the effects of speech perception on language scores, and the effects of residual hearing level (unaided pure-tone average [PTA]) and duration of HA use on speech perception. Results A continuum of residual hearing levels and the length of HA use were represented by calculating the unaided PTA of the ear with the longest duration of HA use for each child. All children wore 2 devices: Some wore bimodal devices, while others received their 2nd CI either simultaneously or sequentially, representing a wide range of HA use (0.03-9.05 years). Regression analyses indicate that suprasegmental perception contributes unique variance to receptive language scores and that both segmental and suprasegmental skills each contribute independently to receptive vocabulary scores. Also, analyses revealed an optimal duration of HA use for each of 3 ranges of hearing loss severity (with mean PTAs of 73, 92, and 111 dB HL) that maximizes suprasegmental perception. Conclusions For children with the most profound losses, early bilateral CIs provide the greatest opportunity for developing good spoken language skills. For those with moderate-to-severe losses, however, a prescribed period of bimodal use may be more advantageous for developing good spoken language skills.

Effects of Low Frequency Residual Hearing on Music Perception and Psychoacoustic Abilities in Pediatric Cochlear Implant Recipients.

Studies have demonstrated the benefits of low frequency residual hearing in music perception and for psychoacoustic abilities of adult cochlear implant (CI) users, but less is known about these effects in the pediatric group. Understanding the contribution of combined electric and acoustic stimulation in this group can help to gain a better perspective on decisions regarding bilateral implantation. We evaluated the performance of six unilaterally implanted children between 9 and 13 years of age with contralateral residual hearing using the Clinical Assessment of Music Perception (CAMP), spectral ripple discrimination (SRD), and temporal modulation transfer function (TMTF) tests and compared findings with previous research. Our study sample performed similarly to normal hearing subjects in pitch direction discrimination (0.81 semitones) and performed well above typical CI users in melody recognition (43.37%). The performance difference was less in timbre recognition (48.61%), SRD (1.47 ripple/octave), and TMTF for four modulation frequencies. These findings suggest that the combination of low frequency acoustic hearing with the broader frequency range of electric hearing can help to increase clinical CI benefit in pediatric users and decisions regarding second-side implantation should consider these factors.

Preimplant Hearing Aid Fittings and Aided Audibility for Pediatric Cochlear Implant Recipients.

Audibility of speech for children with hearing loss (HL) depends on the degree of HL and the fitting of the hearing aids (HAs) themselves. Many studies on cochlear implant (CI) users have demonstrated that preimplant hearing is associated with postimplant outcomes, but there have been very few reports on the fitting of HAs before surgery. The aims of this study were to characterize HA fittings and aided audibility of speech for pediatric HA users with severe to profound HL and to examine the relation between preimplant aided audibility and postimplant speech perception. A descriptive/observational and correlational study. Audiologic records of pediatric CI participants involved in a larger study examining the effects of early acoustic hearing were analyzed retrospectively; when available, these records included HA verification and speech recognition performance. The CI participants were enrolled in audiology centers and oral schools for the deaf across the United States. To determine whether deviations from prescribed DSL target were significantly greater than zero, 95% confidence intervals of the mean deviation were calculated for each frequency (250, 500, 1000, 2000, and 4000 Hz). Correlational analyses were used to examine the relationship between preimplant aided Speech Intelligibility Indices (SIIs) and postimplant speech perception in noise. Correlational analyses were also used to explore the relationship between preimplant aided SIIs and demographic data. T-tests were used to compare preimplant-aided SIIs of HAs of listeners who later became users of either sequential CIs, simultaneous CIs, or bimodal devices. Preimplant fittings of HAs were generally very close to prescriptive targets, except at 4000 Hz for those HAs with active frequency-lowering processing, and preimplant SIIs, albeit low, were correlated with postimplant speech recognition performance in noise. These results suggest that aided audibility should be maximized throughout the HA trial for later speech recognition purposes. It is recommended that HA fittings be optimized to support speech audibility even when considering implantation. In addition to the age at which HA use begins, the aided audibility itself is important in determining CI candidacy and decisions regarding bimodal HA use.

Auditory Performances in Older and Younger Adult Cochlear Implant Recipients: Use of the HEARRING Registry.

To evaluate the hearing outcomes of cochlear implantation in different age groups by using data collected in the HEARRING registry. A multicenter study. Data of 146 patients were collected in a HEARRING registry. Patients were divided into three different age groups; ≤ 55 years old (age group 1, n = 66), 56 to 69 years old (age group 2, n = 45), and ≥ 70 years old (age group 3, n = 35). Speech in quiet (SPIQ), speech in noise (SPIN), and hearing implant sound quality index (HISQUI19) scores were evaluated for the different age groups at different test moments (preoperatively, 3, 6, 12, and 24 mo after first fitting). A statistically significant difference (p < 0.01) was found between preoperative scores and the scores on all the follow-up moments across all age groups. For SPIQ and SPIN, none of the time points showed a statistically significant age effect (p = 0.88 and p = 0.89). For HISQUI19 scores, a statistically significant age effect was found at 12 months after first fitting. The oldest age group scored significantly lower on the HISQUI19 compared with the youngest age group. Hearing outcomes of adult cochlear implant users of different age groups were evaluated. The SPIQ and SPIN tests showed no significant differences between the different age groups. Nevertheless, the youngest group scored significantly better on self -perceived benefit (HISQUI19) with a cochlear implant compared with the oldest age group.Further research is needed to receive more insight into cochlear implantation in the elderly and its implications on rehabilitating and supporting this expanding older population.

Datalogging Statistics and Speech Recognition During the First Year of Use in Adult Cochlear Implant Recipients.

To examine device datalogging characteristics and postoperative speech recognition performance in adult cochlear implant (CI) recipients. Retrospective study examining datalogging characteristics throughout the first year of device use and postoperative speech recognition outcomes measured at 1 year. One hundred seventy-seven adults who received a Cochlear CI. Average values for environmental scene classification (hours of device use per day, and percent of hours per day in quiet, noise, and speech) as reported by Cochlear datalogging over the first year of device use. Speech recognition was assessed at 1 year postactivation. During the first year of devices use, CI listeners >80 years of age used their device significantly less (average = 10.97 h/d) than the youngest adult listeners (18-30 yrs), who used their device an average of 13.29 hours/d. There was no consistent effect of age on the number of hours a CI user listened to speech in noise each day. Correlational and regression analyses suggest that the number of average hours of device use is the primary factor that accounts for variance observed in postoperative consonant-nucleus-consonant word scores. Results suggest that the average number of hours listening to speech in noise is not related to postoperative performance, but the average number of hours of device use per day is correlated with postoperative performance. Further research is needed to determine if these findings are merely correlational or causal in nature.

Low-Frequency Pitch Perception in Cochlear Implant Recipients With Normal Hearing in the Contralateral Ear

Purpose Three experiments were carried out to evaluate the low-frequency pitch perception of adults with unilateral hearing loss who received a cochlear implant (CI). Method Participants were recruited from a cohort of CI users with unilateral hearing loss and normal hearing in the contralateral ear. First, low-frequency pitch perception was assessed for the 5 most apical electrodes at 1, 3, 6, and 12 months after CI activation using an adaptive pitch-matching task. Participants listened with a coding strategy that presents low-frequency temporal fine structure (TFS) and compared the pitch to that of an acoustic target presented to the normal hearing ear. Next, participants listened with an envelope-only, continuous interleaved sampling strategy. Pitch perception was compared between coding strategies to assess the influence of TFS cues on low-frequency pitch perception. Finally, participants completed a vocal pitch-matching task to corroborate the results obtained with the adaptive pitch-matching task. Results Pitch matches roughly corresponded to electrode center frequencies (CFs) in the CI map. Adaptive pitch matches exceeded the CF for the most apical electrode, an effect that was larger for continuous interleaved sampling than TFS. Vocal pitch matches were variable but correlated with the CF of the 3 most apical electrodes. There was no evidence that pitch matches changed between the 1- and 12-month intervals. Conclusions Relatively accurate and asymptotic pitch perception was observed at the 1-month interval, indicating either very rapid acclimatization or the provision of familiar place and rate cues. Early availability of appropriate pitch cues could have played a role in the early improvements in localization and masked speech recognition previously observed in this cohort. Supplemental Material https://doi.org/10.23641/asha.8862389.

Voice Quality in Cochlear Implant Recipients: An Observational Cross Sectional Study

Children with hearing loss are more likely to suffer from voice and speech disorders than with normal hearing due to their poor and less robust auditory feedback mechanisms. Prelingually deaf children are not able to supervise their own voice due to lack of auditory feedback. Cochlear implanted children achieve better hearing and consequently enhanced speech intelligibility. Various parameters of voice improve with continous usage of cochlear implant. However all the vocal parameters do not show similar degree of change. Previous studies have assessed the voice quality of cochlear implantees and have given inconsistent results. The aim of the study is to compare the voice quality of cochlear implant children with normal subjects using objective and subjective methods. The study was undertaken after obtaining clearance from the Institutional Ethics committee. Written informed consent for carrying out voice analysis was taken from the parents. The voice analysis of 42 normal and 42 cochlear implant children were done using the Dr Voice software by Tiger Inc. All the children were age and sex matched. The parameters assessed were fundamental frequency, maximum phonation time, jitter%, shimmer% and harmonics to noise ratio. The findings of both the group were compared. The cochlear implanted children showed significant deviation of all the measured parameters as compared to the normal children. The voice quality of the implanted children is poor and deviant from the normal. Even after continuous usage of cochlear implant for 1year the voice quality of these children did not reach to the levels of their normal hearing peers.

Speech Recognition in Noise in Single-Sided Deaf Cochlear Implant Recipients Using Digital Remote Wireless Microphone Technology.

Previous research in cochlear implant (CI) recipients with bilateral severe-to-profound sensorineural hearing loss showed improvements in speech recognition in noise using remote wireless microphone systems. However, to our knowledge, no previous studies have addressed the benefit of these systems in CI recipients with single-sided deafness. The objective of this study was to evaluate the potential improvement in speech recognition in noise for distant speakers in single-sided deaf (SSD) CI recipients obtained using the digital remote wireless microphone system, Roger. In addition, we evaluated the potential benefit in normal hearing (NH) participants gained by applying this system. Speech recognition in noise for a distant speaker in different conditions with and without Roger was evaluated with a two-way repeated-measures design in each group, SSD CI recipients, and NH participants. Post hoc analyses were conducted using pairwise comparison t-tests with Bonferroni correction. Eleven adult SSD participants aided with CIs and eleven adult NH participants were included in this study. All participants were assessed in 15 test conditions (5 listening conditions × 3 noise levels) each. The listening conditions for SSD CI recipients included the following: (I) only NH ear and CI turned off, (II) NH ear and CI (turned on), (III) NH ear and CI with Roger 14, (IV) NH ear with Roger Focus and CI, and (V) NH ear with Roger Focus and CI with Roger 14. For the NH participants, five corresponding listening conditions were chosen: (I) only better ear and weaker ear masked, (II) both ears, (III) better ear and weaker ear with Roger Focus, (IV) better ear with Roger Focus and weaker ear, and (V) both ears with Roger Focus. The speech level was fixed at 65 dB(A) at 1 meter from the speech-presenting loudspeaker, yielding a speech level of 56.5 dB(A) at the recipient's head. Noise levels were 55, 65, and 75 dB(A). Digitally altered noise recorded in school classrooms was used as competing noise. Speech recognition was measured in percent correct using the Oldenburg sentence test. In SSD CI recipients, a significant improvement in speech recognition was found for all listening conditions with Roger (III, IV, and V) versus all no-Roger conditions (I and II) at the higher noise levels (65 and 75 dB[A]). NH participants significantly benefited from the application of Roger in noise for higher levels, too. In both groups, no significant difference was detected between any of the different listening conditions at 55 dB(A) competing noise. There was also no significant difference between any of the Roger conditions III, IV, and V across all noise levels. The application of the advanced remote wireless microphone system, Roger, in SSD CI recipients provided significant benefits in speech recognition for distant speakers at higher noise levels. In NH participants, the application of Roger also produced a significant benefit in speech recognition in noise.

Comprehensive Analysis of Factors Leading to Poor Performance in Prelingual Cochlear Implant Recipients.

To comprehensively analyze the prognostic factors responsible for affecting outcomes following cochlear implantation in prelinguals. Retrospective cohort study from June 2004 to November 2015. Tertiary care center. Patients who had undergone cochlear implantation during June 2004 to November 2015 for prelingual sensorineural hearing loss with a minimum follow-up of 2 years. Patients were evaluated for the presence of 20 risk factors possibly influencing postimplantation outcomes using a questionnaire. Assessment for speech and auditory function was done at the last follow-up with speech intelligibility ratings (SIR) and categories of auditory performance (CAP) scores, respectively. One hundred fifty-one patients were included in this study. On univariate analysis for CAP, age at implantation, noncompliance to pre and postimplantation auditory and speech habilitation, poor parental motivation, socioeconomic status and literacy were found to be associated with lower scores (p < 0.05). Whereas, for SIR, additionally, attention deficit hyperactivity disorder and inner ear malformation were statistically significant negative predictors on univariate analysis. Finally, factors responsible for low CAP scores on multivariate analysis were poor parental literacy, poor socioeconomic status, irregular pre/postimplantation rehabilitation, and attention deficit hyperactivity disorder. While for SIR, additionally age at implantation was also a significant negative predictor. Increasing IQ and duration of implant use were associated with higher CAP (univariate) and SIR scores (univariate and multivariate) (p < 0.05). We were able to demonstrate negative impact of higher age at implantation, minimal cognitive disorder, adverse parental/socioeconomic profile, and poor compliance to pre/postimplantation auditory verbal habilitation on auditory and speech outcomes.

Evaluation of a New Algorithm to Optimize Audibility in Cochlear Implant Recipients.

A positive relation between audibility and speech understanding has been established for cochlear implant (CI) recipients. Sound field thresholds of 20 dB HL across the frequency range provide CI users the opportunity to understand soft and very soft speech. However, programming the sound processor to attain good audibility can be time-consuming and difficult for some patients. To address these issues, Advanced Bionics (AB) developed the SoftVoice algorithm designed to remove system noise and thereby improve audibility of soft speech. The present study aimed to evaluate the efficacy of SoftVoice in optimizing AB CI recipients' soft-speech perception. Two studies were conducted. Study 1 had two phases, 1A and 1B. Sixteen adult, AB CI recipients participated in Study 1A. Acute testing was performed in the unilateral CI condition using a Harmony processor programmed with participants' everyday-use program (Everyday) and that same program but with SoftVoice implemented. Speech recognition measures were administered at several presentation levels in quiet (35 to 60 dB SPL) and in noise (60 dB SPL). In Study 1B, 10 of the participants compared Everyday and SoftVoice at home to obtain feedback regarding the use of SoftVoice in various environments. During Study 2, soft-speech perception was acutely measured with Everyday and SoftVoice for 10 participants using the Naida CI Q70 processor. Results with the Harmony (Study 1A) and Naida processors were compared. Additionally, Study 2 evaluated programming options for setting electrode threshold levels (T-levels or Ts) to improve the usability of SoftVoice in daily life. Study 1A showed significantly higher scores with SoftVoice than Everyday at soft presentation levels (35, 40, 45, and 50 dB SPL) and no significant differences between programs at a conversational level (60 dB SPL) in quiet or in noise. After take-home experience with SoftVoice and Everyday (Study 1B), 5 of 10 participants reported preferring SoftVoice over Everyday; however, 6 reported bothersome environmental sound when listening with SoftVoice at home. Results of Study 2 indicated similar soft-speech perception between Harmony and Naida processors. Additionally, implementing SoftVoice with Ts at the manufacturer's default setting of 10% of Ms reduced reports of bothersome environmental sound during take-home experience; however, soft-speech perception was best with SoftVoice when Ts were behaviorally set above 10% of Ms. Results indicate that SoftVoice may be a potential tool for optimizing AB users' audibility and, in turn, soft-speech perception. To achieve optimal performance at soft levels and comfortable use in daily environments, setting Ts must be considered with SoftVoice. Future research should examine program parameters that may benefit soft-speech perception when used in combination with SoftVoice (e.g., increased input dynamic range).