Your search keyword '"Auditory Brainstem Response"' showing total 6,780 results

1. Ototoxic effects of unilateral postauricular neomycin administration on the inner ears of Guinea pigs.

Author

Chen, Nishan, Diao, Tongxiang, Zhang, Jilei, and Yu, Lisheng

Abstract

AbstractBackgroundsObjectivesMaterial and MethodsResultsConclusions and SignificanceDue to the therapeutic needs of inner ear diseases, a simple method of inner ear drug delivery has been under exploration. Postauricular administration, which involves injecting the drug through the middle of the retroauricular groove, is a potential novel approach, but its mechanisms remain unclear.To investigate threshold shifts in the auditory brainstem response (ABR), as well as the morphology and quantity of hair cells on the bilateral inner ear of guinea pigs after postauricular neomycin administration.Thirty healthy guinea pigs were divided randomly into two groups and administered either neomycin 200 mg/kg or saline 1 ml via daily postauricular injection for 10 days. Auditory threshold-shifts were examined by tests of the ABR. The quantity and morphology of hair cells in the organ of Corti were assessed by confocal laser scanning microscopy.The ABR results showed that at a frequency of 16 kHz, the threshold shift was 21.00 ± 14.49 dB in the neomycin injection side, 10.00 ± 16.67 dB in the contralateral side, and 0.50 ± 3.69 dB in the saline group. At a frequency of 24 kHz, the threshold shift was 37.00 ± 16.36 dB in the neomycin injection side, 14.50 ± 9.26 dB in the contralateral side, and 1.00 ± 2.11 dB in the saline group. Histopathological analysis revealed that the outer hair cells (OHCs) in the neomycin injection side suffered significant morphological and numerical loss, while the OHC loss in the contralateral ear was less severe than in the injection side but greater than in the saline group.This study confirms that postauricular administration is a novel method of local drug delivery to the inner ear, which has practical value in future experimental modeling and the treatment of inner ear diseases. [ABSTRACT FROM AUTHOR]

Published

2024

2. Auditory Effects of Acoustic Noise From 3‐T Brain MRI in Neonates With Hearing Protection.

Author

Jin, Chao, Zhao, Huifang, Li, Huan, Chen, Peiyao, Tian, Cong, Li, Xianjun, Wang, Miaomiao, Liu, Congcong, Sun, Qinli, Zheng, Jie, Li, Baiya, Zhou, Xihui, Salvi, Richard, and Yang, Jian

Subjects

OTOACOUSTIC emissions, NOISE, SOUND pressure, ACOUSTIC nerve, MIDDLE ear

Abstract

Background: Neonates with immature auditory function (eg, weak/absent middle ear muscle reflex) could conceivably be vulnerable to noise‐induced hearing loss; however, it is unclear if neonates show evidence of hearing loss following MRI acoustic noise exposure. Purpose: To explore the auditory effects of MRI acoustic noise in neonates. Study Type: Prospective. Subjects: Two independent cohorts of neonates (N = 19 and N = 18; mean gestational‐age, 38.75 ± 2.18 and 39.01 ± 1.83 weeks). Field Strength/Sequence: T1‐weighted three‐dimensional gradient‐echo sequence, T2‐weighted fast spin‐echo sequence, single‐shot echo‐planar imaging‐based diffusion‐tensor imaging, single‐shot echo‐planar imaging‐based diffusion‐kurtosis imaging and T2‐weighted fluid‐attenuated inversion recovery sequence at 3.0 T. Assessment: All neonates wore ear protection during scan protocols lasted ~40 minutes. Equivalent sound pressure levels (SPLs) were measured for both cohorts. In cohort1, left‐ and right‐ear auditory brainstem response (ABR) was measured before (baseline) and after (follow‐up) MRI, included assessment of ABR threshold, wave I, III and V latencies and interpeak interval to determine the functional status of auditory nerve and brainstem. In cohort2, baseline and follow‐up left‐ and right‐ear distortion product otoacoustic emission (DPOAE) amplitudes were assessed at 1.2 to 7.0 kHz to determine cochlear function. Statistical Test: Wilcoxon signed‐rank or paired t‐tests with Bonferroni's correction were used to compare the differences between baseline and follow‐up ABR and DPOAE measures. Results: Equivalent SPLs ranged from 103.5 to 113.6 dBA. No significant differences between baseline and follow‐up were detected in left‐ or right‐ear ABR measures (P > 0.999, Bonferroni corrected) in cohort1, or in DPOAE levels at 1.2 to 7.0 kHz in cohort2 (all P > 0.999 Bonferroni corrected except for left‐ear levels at 3.5 and 7.0 kHz with corrected P = 0.138 and P = 0.533). Data Conclusion: A single 40‐minute 3‐T MRI with equivalent SPLs of 103.5–113.6 dBA did not result in significant transient disruption of auditory function, as measured by ABR and DPOAE, in neonates with adequate hearing protection. Evidence Level: 2. Technical Efficacy: Stage 5. [ABSTRACT FROM AUTHOR]

Published

2024

3. Cortical region-specific recovery of auditory temporal processing following noise-induced hearing loss.

Author

Kokash, J., Rumschlag, J.A., and Razak, K.A.

Subjects

*NOISE-induced deafness, *FRONTAL lobe, *AUDITORY pathways, *HEARING disorders, *AUDITORY perception, *AUDITORY cortex

Abstract

• Auditory and frontal cortex responses were recorded after hearing loss. • Mice show recovery of evoked responses and temporal processing in the absence of ABR. • Temporal processing recovery is cortical region-specific after hearing loss. • Poor recovery in frontal cortex may link hearing loss and cognitive decline. Noise-induced hearing loss (NIHL) studies have focused on the lemniscal auditory pathway, but little is known about how NIHL impacts different cortical regions. Here we compared response recovery trajectories in the auditory and frontal cortices (AC, FC) of mice following NIHL. We recorded EEG responses from awake mice (male n = 15, female n = 14) before and following NIHL (longitudinal design) to quantify event related potentials and gap-in-noise temporal processing. Hearing loss was verified by measuring the auditory brainstem response (ABR) before and at 1-, 10-, 23–, and 45-days after noise-exposure. Resting EEG, event related potentials (ERP) and auditory steady state responses (ASSR) were recorded at the same time-points after NIHL. The inter-trial phase coherence (ITPC) of the ASSR was measured to quantify the ability of AC and FC to synchronize responses to short gaps embedded in noise. Despite the absence of click-evoked ABRs up to 90 dB SPL and up to 45-days post-exposure, ERPs from the AC and FC showed full recovery in ∼ 50 % of the mice to pre-NIHL levels in both AC and FC. The ASSR ITPC was reduced following NIHL in AC and FC in all the mice on day 1 after NIHL. The AC showed full recovery of ITPC over 45-days. Despite ERP amplitude recovery, the FC does not show recovery of ASSR ITPC. These results indicate post-NIHL plasticity with similar response amplitude recovery across AC and FC, but cortical region-specific trajectories in temporal processing recovery. [ABSTRACT FROM AUTHOR]

Published

2024

4. The Effects of Memantine on Cisplatin-Induced Ototoxicity.

Author

Güven, Selis Gülseven, Erdoğan, Hilal, Arslan, Murat, Ersoy, Onur, Bulut, Erdoğan, Çilingir Kaya, Özlem Tuğçe, Şirvancı, Serap, and Uzun, Cem

Abstract

Introduction: We aimed to investigate electrophysiologically and histopathologically, the protective effects of intratympanic memantine, an N-methyl-D-aspartate receptor antagonist, on ototoxicity caused by cisplatin, an anti-neoplastic agent used in many types of cancer. Methods: Thirty-seven guinea pigs with a normal auditory function were randomly allocated to group 1 (cisplatin; n = 8), group 2 (memantine; n = 8), group 3 (cisplatin + memantine; n = 8), group 4 (cisplatin + physiological serum [PS]; n = 8), and group 5 (control; n = 5). Auditory assessments were conducted using distortion product otoacoustic emissions (DPOAE) within a frequency range of 1–32 kHz and auditory brainstem responses (ABRs) within 8–32 kHz. A single dose of cisplatin (12 mg/kg) was administered intraperitoneally, followed by intratympanic administration of 0.2 mL of either memantine or PS to both ears at least half an hour before cisplatin administration. Subsequent auditory evaluations were conducted 72 h after cisplatin administration. Histopathological analyses were performed using light microscopy of the right ear and scanning electron microscopy (SEM) of the left ear. Results: Auditory evaluations conducted before and after treatment revealed significant findings. Specifically, within groups 3 and 4, ABR thresholds were elevated at all frequencies (p = 0.00), whereas the DPOAE signal-to-noise ratios were reduced at frequencies of 8, 12, 16, and 24 kHz (p = 0.001, p = 0.01, p = 0.01, and p = 0.00, respectively). Histopathologically, both light microscopy and SEM revealed that the cisplatin + memantine group exhibited fewer hair cells and nuclear degeneration in the spiral ganglion than the cisplatin and cisplatin + PS groups. Additionally, the stria vascularis thickness was greater in the cisplatin + memantine group than in cisplatin and cisplatin + PS groups. Conclusion: Despite the negative electrophysiological findings, the histopathological outcomes suggest that intratympanic memantine may have a potential protective effect against cisplatin-induced ototoxicity. However, further investigations are warranted to corroborate these findings and elucidate the underlying mechanisms of action of memantine. [ABSTRACT FROM AUTHOR]

Published

2024

5. Understanding Standard Procedure in Auditory Brainstem Response: Importance of Normative Data.

Author

Kwak, Chanbeom, Byun, Yuseon, You, Sunghwa, Sagong, Junghee, Kim, Do-Yun, Cho, Wan-Ho, Kong, Tae Hoon, Oh, Soo Hee, Jin, In-Ki, Suh, Michelle J., Lee, Hyo-Jeong, Choi, Seong Jun, Cha, Dongchul, Park, Kyung-Ho, and Seo, Young Joon

Subjects

*AUDIOMETRY, *AUDITORY perception, *REFERENCE values, *RACIAL differences, *BRAIN stem

Abstract

The auditory brainstem response (ABR) is a noninvasive test that measures neural activity in response to auditory stimuli. Racial differences in head shape have provided strong evidence for specific normative data and accurate device calibration. International standards emphasize the need for standardized procedures and references. This study aimed to outline the standard procedure and related normative ABR values. Standard procedures were performed according to International Electrotechnical Commission (IEC) standards. Five studies from two countries were included to compare the normative values of the ABR. The dataset from the National Standard Reference Data Center (NSRDC) was used as reference. Normative values were described in terms of stimuli, latency, and amplitude. For click stimuli, the latency of the ABR showed different patterns across populations, such as those from Korea and the USA. Although the latencies reported by the NSRDC and for Koreans were relatively short, those reported for USA populations were longer. Using clicks, it was shown that the USA population had the largest ABR amplitude compared to those reported for the other two datasets. For Wave V latency using tone bursts, a similar pattern was identified with click stimuli. Frequency-specific trends were also observed. Although there is a lack of ABR datasets, the information and insights of the present study could be utilized as standard guidelines in research on ABR. [ABSTRACT FROM AUTHOR]

Published

2024

6. Automated wave labelling of the auditory brainstem response using machine learning.

Author

McKearney, Richard M., Simpson, David M., and Bell, Steven L.

Subjects

*MACHINE learning, *EVOKED potentials (Electrophysiology), *RECURRENT neural networks, *MACHINE performance, *BRAIN stem

Abstract

AbstractObjectiveDesignStudy sampleResultsConclusionsTo compare the performance of a selection of machine learning algorithms, trained to label peaks I, III, and V of the auditory brainstem response (ABR) waveform. An additional algorithm was trained to provide a confidence measure related to the ABR wave latency estimates.Secondary data analysis of a previously published ABR dataset. Five types of machine learning algorithm were compared within a nested k-fold cross-validation procedure.A set of 482 suprathreshold ABR waveforms were used. These were recorded from 81 participants with audiometric thresholds within normal limits.A convolutional recurrent neural network (CRNN) outperformed the other algorithms evaluated. The algorithm labelled 95.9% of ABR waves within ±0.1 ms of the target. The mean absolute error was 0.025 ms, averaged across the outer validation folds of the nested cross-validation procedure. High confidence levels were generally associated with greater wave-labelling accuracy.Machine learning algorithms have the potential to assist clinicians with ABR interpretation. The present work identifies a promising machine learning approach, but any algorithm to be used in clinical practice would need to be trained on a large, accurately labelled, heterogeneous dataset and evaluated in clinical settings in follow-on work. [ABSTRACT FROM AUTHOR]

Published

2024

7. Assessment of patients' characteristics associated with the efficacy and safety of oral valganciclovir treatment for infants with symptomatic congenital cytomegalovirus disease.

Author

Kakei, Yasumasa, Morioka, Ichiro, Imai, Takumi, Itohara, Kotaro, Yano, Ikuko, Takahashi, Naoto, Yoshikawa, Tetsushi, Moriuchi, Hiroyuki, Ito, Yoshinori, Fujioka, Kazumichi, and Oka, Akira

Subjects

*CYTOMEGALOVIRUS diseases, *CONGENITAL disorders, *HEARING disorders, *VIRAL load, *ORAL drug administration

Abstract

Insurance coverage for oral valganciclovir (VGCV) began in Japan in April 2023 on the basis of results, including our clinical trials for symptomatic congenital cytomegalovirus (CMV) disease. The VGCV treatment is available throughout Japan, so clinicians must consider the likelihood of hearing improvement and the possibility of neutropenia before dosing. We performed a substudy of an investigator-initiated, single-arm, prospective, multicenter, clinical trial in which 24 infants with symptomatic congenital CMV disease were orally administered 16 mg/kg VGCV twice daily for 6 months as an intervention. We examined the infants' baseline characteristics associated with improved hearing impairment or a severely reduced neutrophil count. Of the 24 patients, 4 had normal hearing on assessment of their ear with the best hearing. Hearing impairment improved in 14 patients and did not respond to VGCV treatment in 6 patients at the 6-month hearing assessment. CMV DNA levels in plasma at baseline were higher in patients in whom hearing did not respond to treatment. A neutrophil count <500/mm3 occurred in 5 (21%) patients for the first 6 weeks and in 8 (33%) patients for the first 6 months. A neutrophil count at screening and the lowest neutrophil count over the 6 months showed the highest correlation (r = 0.477, p = 0.019). Infants with a low plasma viral load at screening tend to have an improvement in hearing impairment. Clinicians should be aware of neutropenia during VGCV treatment particularly in patients with a low neutrophil count during screening. [ABSTRACT FROM AUTHOR]

Published

2024

8. Automatic Recognition of Auditory Brainstem Response Waveforms Using a Deep Learning‐Based Framework.

Author

Liang, Sichao, Xu, Jia, Liu, Haixu, Liang, Renhe, Guo, Zhenping, Lu, Manlin, Liu, Sisi, Gao, Juanjuan, Ye, Zuochang, and Yi, Haijin

Abstract

Objective: Recognition of auditory brainstem response (ABR) waveforms may be challenging, particularly for older individuals or those with hearing loss. This study aimed to investigate deep learning frameworks to improve the automatic recognition of ABR waveforms in participants with varying ages and hearing levels. Study Design: The research used a descriptive study design to collect and analyze pure tone audiometry and ABR data from 100 participants. Setting: The research was conducted at a tertiary academic medical center, specifically at the Clinical Audiology Center of Tsinghua Chang Gung Hospital (Beijing, China). Methods: Data from 100 participants were collected and categorized into four groups based on age and hearing level. Features from both time‐domain and frequency‐domain ABR signals were extracted and combined with demographic factors, such as age, sex, pure‐tone thresholds, stimulus intensity, and original signal sequences to generate feature vectors. An enhanced Wide&Deep model was utilized, incorporating the Light‐multi‐layer perceptron (MLP) model to train the recognition of ABR waveforms. The recognition accuracy (ACC) of each model was calculated for the overall data set and each group. Results: The ACC rates of the Light‐MLP model were 97.8%, 97.2%, 93.8%, and 92.0% for Groups 1 to 4, respectively, with a weighted average ACC rate of 95.4%. For the Wide&Deep model, the ACC rates were 93.4%, 90.8%, 92.0%, and 88.3% for Groups 1 to 4, respectively, with a weighted average ACC rate of 91.0%. Conclusion: Both the Light‐MLP model and the Wide&Deep model demonstrated excellent ACC in automatic recognition of ABR waveforms across participants with diverse ages and hearing levels. While the Wide&Deep model's performance was slightly poorer than that of the Light‐MLP model, particularly due to the limited sample size, it is anticipated that with an expanded data set, the performance of Wide&Deep model may be further improved. [ABSTRACT FROM AUTHOR]

Published

2024

9. Impact of repeated intranasal gentamicin irrigation on auditory brainstem evoked potentials in rats.

Author

Mansour, Yusra, Haddad, LeAnn, Breeden, Zachary, and Kulesza Jr., Randy J.

Abstract

Gentamicin is a bactericidal aminoglycoside antibiotic that broadly targets Gram-negative microbes. Both human and animal studies have shown that administration of gentamicin is ototoxic by several routes of administration and results in sensorineural hearing loss due to damaged hair cell at the base of the cochlea. However, gentamicin is also administered intranasally to treat sinusitis in humans, but no animal studies have examined ototoxicity of gentamicin administered via this route. We hypothesized that intranasal irrigation of gentamicin will result in ototoxicity and impaired auditory function similar to systemic delivery. We investigated this hypothesis in Sprague-Dawley rats that received intranasal irrigations of gentamicin or saline from postnatal day (P) 21–31. We examined auditory function by assessing brainstem auditory evoked potentials in response to both broadband clicks and pure tone-pips (4, 8, 16, 24 and 32 kHz) on P41. We found significant changes in auditory function in gentamicin-exposed animals. Specifically, gentamicin-exposed animals had significantly higher thresholds in response to both clicks and tone-pips. In response to broadband clicks, there were no changes in latency for waves I through IV. However, we found significantly longer wave and interwave latencies for all waves in response to the 24 kHz tone-pip. Together, these findings suggest that intranasal administration of gentamicin results in impaired auditory function consistent with other routes of delivery. [ABSTRACT FROM AUTHOR]

Published

2025

10. Electrophysiological characteristics and clinical significance of unilateral tinnitus with normal hearing threshold

Author

WU Wenjing, JIANG Zhendong, and LAN Fazhang

Subjects

normal hearing threshold, unilateral tinnitus, hidden hearing loss, auditory brainstem response, Medicine (General), R5-920

Abstract

Objective To investigate the electrophysiological characteristics and clinical significance of unilateral tinnitus with normal hearing threshold. Methods A total of 34 patients with normal hearing but unilateral tinnitus admitted to our department from May 2022 to February 2023 were recruited as the study subjects. Pure tone hearing threshold detection, distortion product otoacoustic emission (DPOAE), auditory brainstem response (ABR) detection and extended high-frequency pure tone audiometry were performed on both ears (affected side and healthy side) of every patient. The data of the affected side group and those of healthy side group were compared. Results The Ⅰ-wave latency of ABR was significantly shorter (1.60 vs 1.73 ms, P=0.018), and its amplitude was obviously decreased (0.19 vs 0.23 μV, P=0.003) in the affected side group when compared with the healthy side group. In the affected group (34 ears), there were 18 ears (52.94%) having amplitude of wave Ⅲ greater than that of wave Ⅴ, while in the healthy group, no such difference in the amplitude between wave Ⅲ and wave Ⅴ was observed. There was statistical significance between the 2 groups (Chi-square=24.480, P < 0.001). In the 12.5, 14.0, 16.0, 18.0 and 20.0 kHz conditions, the average hearing threshold of extended high-frequency audiometry was all significantly higher in the affected side group than the healthy group (P < 0.05). Conclusion For subjective tinnitus patients with normal hearing threshold, ABR examination is helpful in preliminarily determining whether there are hidden functional changes in the auditory pathway. Decreased Ⅰ-wave amplitude, shortened Ⅰ-wave latency, and wave Ⅲ amplitude greater than wave Ⅴ amplitude can be used as objective reference indicators.

Published

2024

11. Comparisons of Audiologic Characteristics in Patients with Continuous and Intermittent Tinnitus

Author

Seok Hwan Chung, Sung Soo Kim, Sang Hoon Kim, and Seung Geun Yeo

Subjects

continuous tinnitus, intermittent tinnitus, pure-tone audiometry, auditory brainstem response, otoacoustic emissions, Medicine (General), R5-920

Abstract

Background: No studies to date have compared audiologic characteristics in patients with continuous and intermittent tinnitus. The present study classified tinnitus patients into continuous and intermittent groups based on tinnitus duration and compared their audiologic characteristics. Methods: This study enrolled 604 patients with tinnitus from January 2019 to December 2022. Clinical manifestations, PTA results, the frequency and loudness of tinnitus, ABR, DPOAE, and TEOAE tests were compared in patients with continuous and intermittent tinnitus. Results: Of the 604 patients, 231 (38.2%) had continuous and 373 (61.8%) had intermittent tinnitus. There were no significant between-group differences in otologic symptoms, tinnitus onomatopoeia. PTA showed that hearing thresholds, except at 125 Hz, were significantly higher in patients with continuous rather than intermittent tinnitus. The loudness of tinnitus was significantly greater in patients with continuous rather than intermittent tinnitus. ABR tests showed that the absolute latency of wave V was significantly longer in continuous than in intermittent tinnitus. Signal-to-noise ratios on TEOAE tests were significantly lower in patients with continuous rather than intermittent tinnitus at all frequencies tested (1, 1.5, 2, 3, and 4 kHz). Response rates to sound stimuli at all frequencies, except for 1 kHz, were significantly lower on DPOAE tests in patients with continuous rather than intermittent tinnitus. Conclusions: Continuous tinnitus is more common in males, more persistent over time, and is associated with a higher rate of hearing loss. In contrast, intermittent tinnitus is more common in women, appears acutely, and is associated with a relatively lower rate of hearing loss. Based on the findings of the current paper, it seems that audiologic characteristics may differ between patients with continuous and intermittent tinnitus.

Published

2024

12. Hypoactivation of the central auditory system in listeners who are hypertolerant of background noise.

Author

Skoe, Erika and Powell, Sarah

Subjects

*AUDITORY pathways, *YOUNG adults, *ORAL communication, *BRAIN stem, *SPEECH

Abstract

Listeners exhibit varying levels of tolerance for background noise during speech communication. It has been proposed that low tolerance of background noise may be the consequence of abnormally amplified gain in the central auditory system (CAS). Here, using a dataset of young adults with normal hearing thresholds, we asked whether central gain mechanisms might also explain cases of hypertolerance of background noise, as well as cases of reduced, but not abnormal, tolerance. We used the auditory brainstem response to derive a measure of CAS gain (wave V/wave I ratio) to compare listeners' background noise tolerance while listening to speech, grouping them into three categories: hyper, high, and medium tolerance. We found that hypertolerant listeners had reduced CAS gain compared to those with high tolerance. This effect was driven by wave V not wave I. In addition, the medium tolerant listeners trended toward having reduced wave I and reduced wave V amplitudes and generally higher levels of exposure to loud sound, suggestive of the early stages of noise-compromised peripheral function without an apparent compensatory increase in central gain. Our results provide physiological evidence that 1) reduced CAS gain may account for hypertolerance of background noise but that 2) increased CAS gain is not a prerequisite for medium tolerance of background noise. NEW & NOTEWORTHY: Our findings strengthen the proposed mechanistic connection between background noise tolerance and auditory physiology by suggesting a link between hypertolerance and reduced central auditory gain, measured by the auditory brainstem response. [ABSTRACT FROM AUTHOR]

Published

2024

13. Size matters: individual variation in auditory sensitivity may influence sexual selection in Pacific treefrogs (Pseudacris regilla).

Author

Vélez, Alejandro and Sandoval, Sam Moreno

Subjects

*AUDITORY evoked response, *MATCHED filters, *AUDITORY perception, *AUDITORY pathways, *SEXUAL selection

Abstract

The matched filter hypothesis proposes a close match between senders and receivers and is supported by several studies on variation in signal properties and sensory-processing mechanisms among species and populations. Importantly, within populations, individual variation in sensory processing may affect how receivers perceive signals. Our main goals were to characterize hearing sensitivity of Pacific treefrogs (Pseudacris regilla), assess patterns of individual variation in hearing sensitivity, and evaluate how among-individual variation in hearing sensitivity and call frequency content affect auditory processing of communication signals. Overall, males and females are most sensitive to frequencies between 2.0 and 2.5 kHz, which matches the dominant frequency of the call, and have a second region of high sensitivity between 400 and 800 Hz that does not match the fundamental frequency of the call. We found high levels of among-individual variation in hearing sensitivity, primarily driven by subject size. Importantly, patterns of among-individual variation in hearing differ between males and females. Cross-correlation analyses reveal that among-individual variation in hearing sensitivity may lead to differences on how receivers, particularly females, perceive male calls. Our results suggest that individual variation in sensory processing may affect signal perception and influence the evolution of sexually selected traits. [ABSTRACT FROM AUTHOR]

Published

2024

14. 听性脑干反应与多频稳态反应联合评估婴儿 轻度感音神经性听力损失的研究

Author

蒋秋亚, 谢秋盈, 黄宇, 黄超, 兰红利, 刘茂洁, and 赖丹

Abstract

Objective To investigate the significance of auditory brainstem response （ABR） combined with auditory steady-state response （ASSR） for the assessment of mild sensorineural hearing loss in infants. Methods Data from 114 infants with mild sensorineural hearing loss were retrospectively analyzed， and their ABR and ASSR results were collected for rank sum test and correlation analysis. Results In the rank sum test， the difference in thresholds between tone-burst ABR （Tb-ABR） and ASSR at 0.5，1，2，4 kHz was statistically significant （P < 0.05）， and they were also correlated at 0.5， 1，2，4 kHz （P < 0.05）， r = 0.613， 0.569， 0.616， 0.71. After grouping by gender and ear， there was a correlation between ABR and ASSR at 0.5， 1，2， and 4 kHz， male: r = 0.61， 0.56， 0.671， 0.774； female: r = 0.581， 0.558， 0.546， 0.608； left ear: r = 0.61， 0.558， 0.576， 0.715； right ear: r = 0.631， 0.581， 0.662， 0.71. And after grouping by age at diagnosis， only infants diagnosed from 7 ~ 12 months of age did not correlate at 0.5 kHz and 1 kHz（ P > 0.05）， while the rest of the groups had a good correlation（ P < 0.05），0 ~ 3 months: r = 0.686， 0.643， 0.671， 0.742； 4 ~ 6 months: r = 0.671， 0.626， 0.616， 0.693； 7 ~ 12 months at 2 kHz and 4 kHz: r = 0.571， 0.706. Conclusion In infants with mild sensorineural hearing loss， ABR and ASSR correlate in assessing hearing thresholds at all frequencies， and the combination of the two tests could provide a more accurate assessment of the subject's true hearing. [ABSTRACT FROM AUTHOR]

Published

2024

15. The relationship and interdependence of auditory thresholds, proposed behavioural measures of hidden hearing loss, and physiological measures of auditory function.

Author

Kamerer, Aryn M., Harris, Sara E., Wichman, Chris S., Rasetshwane, Daniel M., and Neely, Stephen T.

Subjects

*HIDDEN hearing loss, *ACOUSTIC nerve, *AUDITORY pathways, *SPEECH perception, *HAIR cells

Abstract

AbstractObjectivesDesignStudy SampleResultsConclusionsStandard diagnostic measures focus on threshold elevation but hearing concerns may occur independently of threshold elevation – referred to as “hidden hearing loss” (HHL). A deeper understanding of HHL requires measurements that locate dysfunction along the auditory pathway. This study aimed to describe the relationship and interdependence between certain behavioural and physiological measures of auditory function that are thought to be indicative of HHL.Data were collected on a battery of behavioural and physiological measures of hearing. Threshold-dependent variance was removed from each measure prior to generating a multiple regression model of the behavioural measures using the physiological measures.224 adults in the United States with audiometric thresholds ≤65 dB HL.Thresholds accounted for between 21 and 60% of the variance in our behavioural measures and 5–51% in our physiological measures of hearing. There was no evidence that the behavioural measures of hearing could be predicted by the selected physiological measures.Several proposed behavioural measures for HHL: thresholds-in-noise, frequency-modulation detection, and speech recognition in difficult listening conditions, are influenced by hearing sensitivity and are not predicted by outer hair cell or auditory nerve physiology. Therefore, these measures may not be able to assess threshold-independent hearing disorders. [ABSTRACT FROM AUTHOR]

Published

2024

16. Comparisons of Audiologic Characteristics in Patients with Continuous and Intermittent Tinnitus.

Author

Chung, Seok Hwan, Kim, Sung Soo, Kim, Sang Hoon, and Yeo, Seung Geun

Subjects

*OTOACOUSTIC emissions, *CONTINUOUS groups, *AUDIOMETRY, *HEARING disorders, *SYMPTOMS, *TINNITUS

Abstract

Background: No studies to date have compared audiologic characteristics in patients with continuous and intermittent tinnitus. The present study classified tinnitus patients into continuous and intermittent groups based on tinnitus duration and compared their audiologic characteristics. Methods: This study enrolled 604 patients with tinnitus from January 2019 to December 2022. Clinical manifestations, PTA results, the frequency and loudness of tinnitus, ABR, DPOAE, and TEOAE tests were compared in patients with continuous and intermittent tinnitus. Results: Of the 604 patients, 231 (38.2%) had continuous and 373 (61.8%) had intermittent tinnitus. There were no significant between-group differences in otologic symptoms, tinnitus onomatopoeia. PTA showed that hearing thresholds, except at 125 Hz, were significantly higher in patients with continuous rather than intermittent tinnitus. The loudness of tinnitus was significantly greater in patients with continuous rather than intermittent tinnitus. ABR tests showed that the absolute latency of wave V was significantly longer in continuous than in intermittent tinnitus. Signal-to-noise ratios on TEOAE tests were significantly lower in patients with continuous rather than intermittent tinnitus at all frequencies tested (1, 1.5, 2, 3, and 4 kHz). Response rates to sound stimuli at all frequencies, except for 1 kHz, were significantly lower on DPOAE tests in patients with continuous rather than intermittent tinnitus. Conclusions: Continuous tinnitus is more common in males, more persistent over time, and is associated with a higher rate of hearing loss. In contrast, intermittent tinnitus is more common in women, appears acutely, and is associated with a relatively lower rate of hearing loss. Based on the findings of the current paper, it seems that audiologic characteristics may differ between patients with continuous and intermittent tinnitus. [ABSTRACT FROM AUTHOR]

Published

2024

17. Derived-band auditory brainstem responses: cochlear contributions determined by narrowband maskers.

Author

Stapells, David R. and Fok, Maxine R.

Subjects

*COCHLEA physiology, *MASKING (Psychology), *NOISE, *RESEARCH funding, *DESCRIPTIVE statistics, *COMMUNITIES, *BRAIN stem, *ANALYSIS of variance, *ACOUSTIC stimulation, *HEARING levels, *REACTION time, *AUDITORY evoked response

Abstract

The present study sought to determine the cochlear frequency regions represented by Auditory Brainstem Responses (ABRs) obtained using the high-pass noise/derived response (HP/DR) technique. Broadband noise sufficient to mask the ABR to 50 dB nHL clicks was HP filtered (96 dB/oct) at 8000, 4000, 2000, 1000 and 500 Hz. Mixed with the clicks and HP noise masker was narrowband noise. Three derived response bands, denoted by the upper and lower high-pass noise frequencies, were obtained: DR4000-2000, DR2000-1000, and DR1000-500. Ten adults with normal hearing, aged 19–27 years (mean age: 22.4 years), were recruited from the community. Frequencies contributing to each DR were determined from the wave V percent amplitude (or latency shift) vs narrowband masker frequency profiles (relative to a no-narrowband-noise condition). Overall, results indicate derived band centre frequencies were closer to the lower HP cut-off frequencies for DR4000-2000 and DR2000-1000, and approximately halfway between the lower HP cut-off and the geometric mean of the two HP frequencies for DR1000-500, with bandwidths of 0.5-1 octave in width. These results confirm the validity of the HP/DR technique for assessing narrow cochlear regions (≤1.0 octave wide), with centre frequencies within ½-octave of the lower HP frequency. [ABSTRACT FROM AUTHOR]

Published

2024

18. A Comparative Analysis of Click ABR and Multi-ASSR in Assessing Infant Hearing: A Cross-Sectional Study.

Author

Kumar, Sanjay, Dutta, Anghusman, Natraj, Rashmi, Kumar, Marlapudi Sudheer, and Gupta, Manish

Subjects

*AUDITORY evoked response, *AUDIOMETRY, *LANGUAGE acquisition, *CHILDREN'S language, *MEDICAL personnel

Abstract

Introduction: This study investigates the comparative effectiveness of Click Auditory Brainstem Response (Click ABR) and Multiple Auditory Steady-State Response (Multi-ASSR) in identifying hearing impairments in infants. Recognizing auditory issues early is crucial for a child's cognitive and language development, as emphasized by the Joint Committee on Infant Hearing (JCIH) and the American Academy of Audiology (AAA). While Click ABR is widely utilized, Multi-ASSR offers a modern technique for detailed hearing assessment. Methods: A comparative analysis was conducted on 111 infants aged 1–6 months, previously screened for hearing at a tertiary care centre. The study employed both Click ABR and Multi-ASSR to evaluate their respective efficacy in assessing infant hearing. Results: Click ABR detected normal hearing in 87.4% of the infants, slightly higher than Multi-ASSR's 84.7%. A noteworthy finding was the higher incidence of bilateral versus unilateral hearing loss, with Click ABR identifying bilateral loss in 10 infants and unilateral loss in 4, compared to Multi-ASSR, which found bilateral loss in 12 infants and unilateral loss in 5. There was a minor but significant difference in auditory thresholds between the methods, with a mean discrepancy of 1.2 dB and a significant statistical variance (t-value of 15; p < 0.001), indicating variations in sensitivity. Conclusion: Both Click ABR and Multi-ASSR are indispensable tools in paediatric audiology, each with unique advantages. Click ABR excels in efficiency, suitable for rapid assessments and early detection. In contrast, Multi-ASSR offers comprehensive frequency-specific data, facilitating thorough evaluations. Healthcare professionals must grasp these methods' strengths to optimize infant hearing screenings and enhance early intervention strategies, aligning with JCIH and AAA guidelines. [ABSTRACT FROM AUTHOR]

Published

2024

19. Audiological Characteristics of Vestibular Schwannoma Patients With Normal Pure‐Tone Audiometry.

Author

Zhang, Weixun, Shi, Jianan, Yin, Yanbo, Ma, Mengye, Lyu, Jihan, Yang, Juanmei, Zhao, Weidong, and Yuan, Yasheng

Abstract

Objective: To investigate the audiological characteristics of vestibular schwannoma (VS) patients with normal pure‐tone audiometry (PTA) results. Study Design: A retrospective study. Setting: Forty‐two VS patients with normal PTA results from October 2016 to October 2022 were included. Methods: Normal PTA was defined when the hearing threshold is ≤25 dB hearing loss (HL) in each test frequency and the PTA is ≤25 dB HL. Results of multiple audiological tests such as the auditory brainstem response (ABR), distortion product otoacoustic emission (DPOAE), multiple auditory steady‐state responses threshold (ASSR), and speech discrimination score were retrospectively reviewed. Demographic data of these patients were also been collected. Results: According to our results, the ABR and average ASSR threshold of the affected side were statistically significantly higher in VS patients with normal PTA. ABR waveforms on the affected side also showed more abnormalities. The DPOAE pass rates of the affected side were lower than the unaffected side while the amplitude and signal‐to‐noise ratio rate was also lower. In addition, we used magnetic resonance imaging 3‐dimensional reconstruction images to measure the volume of tumors in these patients. We also found that higher ABR threshold means lager tumor size in patients with normal PTA. Conclusion: VS patients with normal PTA result cannot be assumed to have no impairment of hearing function. ABR, DPOAE, and ASSR results showed the characteristic changes in the affect ear. ABR threshold has the highest sensitivity for hearing abnormalities and is strong relative with tumor size in patients with normal PTA. [ABSTRACT FROM AUTHOR]

Published

2024

20. Audiological Profile of a Child with Landau–Kleffner Syndrome: A Clinical Case Study.

Author

Sao, Tulsi and Kandra, Toman Singh

Abstract

Introduction: Landau–Kleffner syndrome (LKS) is a childhood language disorder characterized by the most frequently described forms of acquired epileptiform aphasia. LKS is a rare age-related epileptic encephalopathy that usually occurs between 3 and 7 years of age in children with previously normal speech and language development until the onset of convulsion. The prevalence of LKS is unclear. However, it is male predominance exits with 2:1. Various literatures reported that LKS syndrome has auditory processing impairment and few may have hearing loss, but symmetry and magnitude of hearing loss were unexplained. Aim: Audiological profile of a child with LKS: A clinical case study. Materials and Methods: All audiological tests such as tuning fork test, otoscopic examination, pure-tone audiometry, immittance audiometry, otoacoustic emission, and auditory brainstem response tests were administered. Results: Audiological objective diagnostic test indicated that LKS syndrome has normal hearing sensitivity in both the ears. Conclusion: Postlingual communication skills may get severely hampered in LKS. Hence, the inclusion of audiological diagnostic test battery will increase the chances of early identification, accurate referral, diagnosis, and monitoring of a child with LKS which is extremely important for a positive prognosis. Finally, it is important to remember the genetic nature of LKS syndrome and its effect on communication. Educational planning should take the prospect of future postlingual speech disorder into consideration. [ABSTRACT FROM AUTHOR]

Published

2024

21. Early cochlear implantation: exploring electrophysiological thresholds and their role in pre-behavioural recommendations.

Author

Walchhuetter, Alexandra P., Dowell, Richard C., Rance, Gary, and Leigh, Jaime

Abstract

Background and Aims: Studies investigating the relationship between initial electrophysiological thresholds and subsequent behavioural hearing thresholds have demonstrated uncertainty as to whether initial results can provide an accurate estimation of an infant's functional hearing. This estimation must be accurate if a cochlear implant (CI) is to be considered before behavioural audiometry.This study aims to explore the variance between initial electrophysiological thresholds and subsequent behavioural hearing thresholds in infants to determine under which conditions electrophysiological results can be used to support a CI recommendation before behavioural audiology. Methods: This is a prospective cohort study of 63 infants with suspected severe to profound hearing loss, referred to the Cochlear Implant Clinic, Melbourne, before 12 months of age. The assessment protocol includes auditory brainstem response, auditory steady state response, tympanometry, and behavioural audiometry. Conclusion: For most infants undergoing CI candidacy evaluation, initial electrophysiological thresholds are an accurate reflection of their subsequent behavioural thresholds. An alternative CI candidacy pathway is recommended for infants who show profound sensorineural hearing loss on initial electrophysiological testing, in the absence of middle ear effusion, prematurity, or auditory neuropathy features, to provide CI recommendations before behavioural thresholds are obtained. This would lead to reduced delay to implantation and improved oral language outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

22. Neural Delays in Processing Speech in Background Noise Minimized after Short-Term Auditory Training.

Author

Skoe, Erika and Kraus, Nina

Subjects

*STIMULUS & response (Psychology), *YOUNG adults, *SIGNAL-to-noise ratio, *NEUROPLASTICITY, *NERVOUS system

Abstract

Simple Summary: Background noise poses a significant detriment to speech perception. Here, as a continuation of our prior work, we provide biological evidence that cognitively-based auditory training lessens the physiologic impact of background noise, resulting in shorter (i.e., earlier) frequency-following response latencies after 20 training sessions. Background noise disrupts the neural processing of sound, resulting in delayed and diminished far-field auditory-evoked responses. In young adults, we previously provided evidence that cognitively based short-term auditory training can ameliorate the impact of background noise on the frequency-following response (FFR), leading to greater neural synchrony to the speech fundamental frequency(F0) in noisy listening conditions. In this same dataset (55 healthy young adults), we now examine whether training-related changes extend to the latency of the FFR, with the prediction of faster neural timing after training. FFRs were measured on two days separated by ~8 weeks. FFRs were elicited by the syllable "da" presented at a signal-to-noise ratio (SNR) of +10 dB SPL relative to a background of multi-talker noise. Half of the participants participated in 20 sessions of computerized training (Listening and Communication Enhancement Program, LACE) between test sessions, while the other half served as Controls. In both groups, half of the participants were non-native speakers of English. In the Control Group, response latencies were unchanged at retest, but for the training group, response latencies were earlier. Findings suggest that auditory training can improve how the adult nervous system responds in noisy listening conditions, as demonstrated by decreased response latencies. [ABSTRACT FROM AUTHOR]

Published

2024

23. Is It Possible to Use the Speech-Evoked Auditory Brainstem Response Test During Sleep as It Is Used During Wakefulness?

Author

Khoshkhou, Ahmad, Shaabani, Moslem, Bakhshi, Enayatollah, and Javanbakht, Mohanna

Subjects

*CROSS-sectional method, *WORD deafness, *T-test (Statistics), *ELECTROENCEPHALOGRAPHY, *DESCRIPTIVE statistics, *MANN Whitney U Test, *BRAIN stem, *SLEEP, *PSYCHOLOGICAL tests, *DATA analysis software, *AUDITORY evoked response, *WAKEFULNESS, *NONPARAMETRIC statistics, PHYSIOLOGICAL aspects of speech

Abstract

Background and Aim: It is important to know how much are the auditory electrophysiological tests affected by sleep and wakefulness to be employed in different situations. This problem is more important for the speech-evoked Auditory Brainstem Response (speechABR) test that is affected by higher-level processing. This study aimed to compare the results of the speech-ABR test between wakefulness and sleep states. Methods: Sixteen young male adults (aged 20–28 years) with normal hearing participated in this study. The speech-ABR to the /da/ syllable was recorded during wakefulness and sleep. Electroencephalography (EEG) and behavioral tests (eyes position, body movements, etc.) were monitored during the test time to confirm the sleep state. Results: The speech-ABR test parameters showed significant changes during sleep compared to wakefulness (latencies of waves V and A were longer and the amplitudes of waves V and A, the slope of V-A complex, and the spectral magnitude of F1 were lower). However, the spectral magnitude of higher frequencies was not significantly different. In addition, no significant statistical difference was observed in speech-ABR parameters between right and left ears. Conclusion: Although the speech-ABR originates from brainstem centers, unlike conventional click-evoked ABR, it is affected by sleep as it is affected by the higher-level auditory processing functions. Although, further studies are needed. However, our study opens the way for many applied auditory studies about the possibility to use speech-ABR for auditory processing assessments in sleep state of different population groups, such as neonates. [ABSTRACT FROM AUTHOR]

Published

2024

24. Auditory Brainstem Response Testing in Children with Speech and Language Pathology: A Non-Randomized Observational Study.

Author

Aras, Ivana, Vlahović, Sanja, Stevanović, Siniša, Pavičić Dokoza, Katarina, and Košec, Andro

Subjects

*AUDITORY perception testing, *AUTISM, *RETROSPECTIVE studies, *TERTIARY care, *BRAIN stem, *LANGUAGE disorders, *COGNITION disorders, *ASPERGER'S syndrome, *AUDITORY evoked response, *SPEECH therapy, *CHILDREN

Abstract

Introduction: The aim of this study was to compare auditory brainstem response (ABR) findings of normal-hearing preschool children with different types of speech and language pathology. Methods: This retrospective, non-randomized, cohort study was conducted at a tertiary speech and hearing rehabilitation institution according to STROBE guidelines. The study enrolled 123 preschool children diagnosed with speech language pathology and normal hearing. The participants included children with developmental language disorder, autism spectrum disorder, isolated articulation pathology, organic brain lesions, cognitive delay, and a group of very young children with clinically significant speech development delay. All patients underwent standard ABR procedures. Results: The latencies were the longest in the group of children with organic lesion, followed by the group of children with autism spectrum disorder, then the group with developmental language disorder, and the young children group. In the group of children with articulation pathology and the cognitive delay group, the latencies were the shortest. Conclusion: This study showed a connection between several groups of children with language pathology that includes comprehension problems and prolongation of ABR latencies. [ABSTRACT FROM AUTHOR]

Published

2024

25. Supra-Threshold LS CE-Chirp Auditory Brainstem Response in the Elderly.

Author

Maass, Juan C., Leiva, Alexis, Torrente, Mariela, Vergara, Rodrigo, Belkhiria, Chama, Delgado, Carolina, and Delano, Paul H.

Subjects

*OLDER people, *AUDITORY pathways, *HEARING levels, *AUDIOGRAM, *HOCKEY

Abstract

Introduction: Aging deteriorates peripheral and central auditory structures and functions. In elders, for an accurate audiological evaluation, it is important to explore beyond the cochlear receptor. Audiograms provide an estimation of hearing thresholds, while the amplitudes and latencies of supra-threshold auditory brainstem response (ABR) can offer noninvasive measures of the auditory pathways functioning. Regarding ABR, in young populations, level-specific chirp (LS CE-chirp) stimulus has been proposed as an alternative synchronizing method to obtain larger ABR responses than those evoked by clicks. However, the supra-threshold characteristics of chirp evoked ABR, and their association to hearing thresholds is relatively unknown in the elderly. The aim of this study was to evaluate supra-threshold LS CE-chirp ABRs in an aged population by comparing their features with click ABRs, and evaluating their relationship with audiometric hearing thresholds. Methods: We carried out a cross-sectional study to characterize the hearing of 125 adults aged over 65 years. We determined the audiometric hearing thresholds and supra-threshold ABRs elicited by LS CE-chirp and click stimuli at 80 dB nHL. We evaluated associations by means of partial correlations and covariate adjustment. We performed specific frequencies' analysis and subgroup analysis per hearing level. Results: Wave V responses had significantly shorter latencies and larger amplitudes when elicited by LS CE-chirp as compared to click-evoked responses. Audiometric hearing thresholds correlated with age, but ABR characteristics did not. We found mild correlations between hearing thresholds and ABR characteristics, predominantly at higher frequencies and with chirp. We found scarce evidence of correlation between ABR characteristics and the average of behavioral hearing thresholds between 0.5 to 4 kHz (0.5–4 kHz PTA). After subgroup analysis according to the hearing level, no stronger or more significant correlations were found between ABR characteristics and 0.5–4 kHz PTA. Discussion: In this study, we found that supra-threshold LS CE-chirp ABR presented some of the previously described similitudes and differences with supra-threshold click ABR in younger populations. Although, the average amplitude and latency of wave V evoked by LS CE-chirp were larger and faster than those evoked by clicks, these results should be taken with caution at the individual level, and further studies are required to state that LS CE-chirp ABRs are better than click ABRs in elders for clinical evaluations. We did not find consistent associations between hearing thresholds and supra-threshold wave V features, suggesting that these measures should be considered independently in the elderly. [ABSTRACT FROM AUTHOR]

Published

2024

26. Effect of prosthetic management and its timing on otological and audiological outcomes in infants with cleft lip and palate: A clinical trial.

Author

Aboelsayed, Kamel M. S., Abdel Razek, Mahmoud Khamis, Assal, Samir, Habib, Ahmed M. A., and Negm, Rana A.

Subjects

CLEFT lip, CLEFT palate, OTITIS media, MIDDLE ear, INFANTS, CLINICAL trials

Abstract

Purpose: To evaluate how prosthetic management affects the otological and audiological state of infants with cleft lip and palate by preventing or treating otitis media (OM). Materials and Methods: Thirty infants with cleft lip and palate (L/P) were assigned to three equal groups according to the age of prosthetic intervention; Group I: immediately after birth, Group II: 2 months old, Group III: 5 months old. Assessment of middle ear function by tympanometry and hearing quality by auditory brainstem response (ABR) under natural sleep was conducted before and after prosthetic treatment every month till 10 months of age. Data from the study groups were compared. Results: No statistically significant differences were found between Gp I and Gp II in the 2nd, 3rd, and 4th months for right and left ears (p > 0.05). In the 5th month, statistically significant differences between the three groups were found in tympanometry for right (p = 0.011) and left (p = 0.024) ears also, in ABR for right (p = 0.007) and left (p = 0.011) ears. Tympanometric readings starting from the 6th till the 10th month showed no statistically significant differences between the three groups (p >0.05). The final ABR outcomes of the 10th month indicated statistically significant differences between the three groups for both ears (p = 0.027). Conclusions: Early prosthetic care could delay the development of OM, so it could potentially improve the otological and audiological state in infants with cleft L/P. However, prosthetic treatment may not be able to completely prevent or eliminate middle ear disorders. [ABSTRACT FROM AUTHOR]

Published

2024

27. Evaluation of the auditory brainstem response test in patients with type 2 diabetes mellitus.

Author

Sheikhzadeh, Mahbubeh, Bagheri, Fereshteh, Bayani, Mohammad Ali, Kami, Milad, and Monadi, Mohsen

Subjects

TYPE 2 diabetes, WORD deafness, BRAIN stem, DIABETES complications, PEOPLE with diabetes

Abstract

Background: Hearing loss is an unknown complication of diabetes mellitus (DM). The aim of this study was to evaluate hearing function using auditory brainstem response (ABR) in diabetic patients. Methods: The present case-control study was performed on thirty diabetic patients as a case group and thirty healthy individuals as a control group. Baseline demographic information, HbA1c level, and duration of diabetes were obtained from all diabetic patients. In all subjects, the ABR and pure-tone audiometry (PTA) tests were performed and the results were analyzed using the t-test and logistic regression. Results: The absolute latency of I was significantly lower in diabetes patients. The absolute latency of III and the interpeak latencies (IPL) I-III were significantly higher in diabetic patients. No significant relationship was noticed in the absolute latency of V and the IPL I-V among diabetic patients in the right and left ears (P>0.05). Conclusion: The results of this study suggested that diabetes may cause central auditory dysfunction manifested on the absolute latency of III, the IPL I-III and III-V. [ABSTRACT FROM AUTHOR]

Published

2024

28. The outcomes of an audiological management programme for neonates with hyperbilirubinaemia

Author

Moleboge M. Matshete, Samantha Govender, and Sam T. Ntuli

Subjects

hyperbilirubinaemia, hearing loss, auditory brainstem response, otoacoustic emissions, low birth weight, neonates, serum bilirubin level., Oral communication. Speech, P95-95.6

Abstract

Background: Hyperbilirubinaemia is a contributing condition to the prevalence of neonatal hearing loss. Because of its pathophysiology, the use of Otoacoustic Emissions (OAE) and Automated Auditory Brainstem Response (AABR) testing is essential in diagnosing hearing loss. Two-tier screening models are typically used in developing world contexts; however, a combined approach to testing (using both tests) should be used for early detection. Blood serum levels should also be monitored to determine how they impact audiological test results. Objectives: To determine the outcomes of using a combined testing approach of both OAE and Auditory Brainstem Response (ABR) for both screening and diagnostic testing of neonates with hyperbilirubinaemia and studying the relationship between the test results and the serum bilirubin levels. Method: A cross-sectional, comparative design was utilised. Forty neonates were tested (80 ears). Neonates underwent hearing screening and diagnostic testing (ABR and/or AABR and DPOAE tests). The study was conducted at a hospital in South Africa. Results: One-third (32.5%) of the neonates had comorbidities. Screening results indicated that the AABR test could identify more cases of abnormalities than DPOAEs (p = 0.001). Participants with a serum level greater than 10 mg/dL presented with abnormal diagnostic ABR test results while passing the DPOAE test (p 0.001). Conclusion: Combined use of ABR and DPOAE testing yielded a greater identification of auditory pathology than using either test alone. Serum bilirubin levels can be used as an indicator for combination testing. Contribution: Combined use of ABR and DPOAE testing leads to greater identification of auditory pathology.

Published

2024

29. Acoustic Sensory Ecology of Diving Alcid Seabirds and Potential Noise Impacts

Author

Smith, Adam B., Kissling, Michelle, Rasmussen, Marianne, Kolbeinsson, Yann, Capuano, Alyssa M., Fischer McMorrow, Iris, Lewis, Steve, Shero, Michelle R., Aran Mooney, T., Sisneros, Joseph, Section editor, Popper, Arthur N., editor, Sisneros, Joseph A., editor, Hawkins, Anthony D., editor, and Thomsen, Frank, editor

Published

2024

30. Temporary Threshold Shift in Turtles

Author

Mannes, Lena Marie, Wahlberg, Magnus, Christensen-Dalsgaard, Jakob, Popper, Arthur N., Section editor, Popper, Arthur N., editor, Sisneros, Joseph A., editor, Hawkins, Anthony D., editor, and Thomsen, Frank, editor

Published

2024

31. Comparison of Auditory Brainstem Maturation in Prematurely Born Twin and Singleton Infants: A Retrospective Study

Author

Soltanparast, Sanaz and Bagheri, Fereshteh

Published

2024

32. Evaluation of Hearing Loss in Patients with Essential Tremor

Author

Emis Cansu Yaka, Murat Ünal, and Okan Dogu

Subjects

audiometry, auditory brainstem response, essential tremor, hearing loss, Neurology. Diseases of the nervous system, RC346-429

Abstract

Background: Essential tremor (ET) is a common chronic progressive disease, characterized by postural and action tremor. Abnormalities within the cerebello-thalamocortical pathways are thought to be involved in ET. In some studies, it was reported that there is an association between ET and hearing loss. Objective: In this study, our goal is to examine the electrophysiological changes of the structures forming the auditory pathway in ET cases, and the relationship of these changes with clinical findings and understand if the pathology underlying hearing loss in ET is cochlear or retrocochlear. Materials and Methods: One hundred sequential ET patients who had referred to Mersin University Faculty of Medicine Neurology Department, and 100 healthy individuals that are equivalent in terms of age and gender were conducted to investigate this association. Detailed medical history, neurologic examination, audiologic examination, pure-tone audiometry (PTA), tympanometry, and auditory brainstem response (ABR) analyses also known as brainstem auditory-evoked potentials were applied to all patients and controls. Results: The mean age of patients with ET was 56.38 ± 16.73, and the mean age of individuals in the control group was 56.47 ± 16.86. Nineteen of the patients with ET, and two healthy individuals from the control group had hearing problems (P < 0.001). In this study, there were no significant differences found in audiometric and ABR examinations in terms of hearing loss between the ET group and control group. However, in audiometric and ABR analyses, an increase in hearing loss was found to be correlated with an increase in tremor severity. In PTA test, hearing loss was higher in those with high-intensity tremor severity than in the group with mild tremor severity. This was statistically significant. P (KW)

Published

2024

33. Evaluation of the auditory brainstem response test in patients with type 2 diabetes mellitus

Author

Mahbubeh Sheikhzadeh, Fereshteh Bagheri, Mohammad Ali Bayani, Milad kami, and Mohsen Monadi

Subjects

hearing loss, diabetes mellitus, auditory brainstem response, interpeak latencies, pure-tone audiometry, Internal medicine, RC31-1245

Abstract

Background: Hearing loss is an unknown complication of diabetes mellitus(DM). The aim of this study was to evaluate hearing function using auditory brainstem response (ABR) in diabetes patients. Methods: The present case-control study was performed on thirty diabetic patients as a case group and thirty healthy individuals as a control group. Baseline demographic information, HbA1c level, and duration of diabetes were obtained from all diabetic patients. In all subjects, the ABR and pure-tone audiometry (PTA) tests were performed and the results were analyzed using the t-test and logistic regression. Results: The absolute latency of I was significantly lower in diabetes patients. The absolute latency of III and the interpeak latencies (IPL) I-III were significantly higher in diabetic patients. No significant relationship was noticed in the absolute latency of V and the IPL I-V among diabetic patients in the right and left ears (P>0.05). Conclusion: The results of this study suggested that diabetes may cause central auditory dysfunction manifested on the absolute latency of III, the IPL I-III and III-V.

Published

2024

34. Performance Comparison of Convolutional Neural Network-Based Hearing Loss Classification Model Using Auditory Brainstem Response Data.

Author

Ma, Jun, Choi, Seong Jun, Kim, Sungyeup, and Hong, Min

Subjects

*CONVOLUTIONAL neural networks, *HEARING disorders, *BRAIN stem, *DEEP learning

Abstract

This study evaluates the efficacy of several Convolutional Neural Network (CNN) models for the classification of hearing loss in patients using preprocessed auditory brainstem response (ABR) image data. Specifically, we employed six CNN architectures—VGG16, VGG19, DenseNet121, DenseNet-201, AlexNet, and InceptionV3—to differentiate between patients with hearing loss and those with normal hearing. A dataset comprising 7990 preprocessed ABR images was utilized to assess the performance and accuracy of these models. Each model was systematically tested to determine its capability to accurately classify hearing loss. A comparative analysis of the models focused on metrics of accuracy and computational efficiency. The results indicated that the AlexNet model exhibited superior performance, achieving an accuracy of 95.93%. The findings from this research suggest that deep learning models, particularly AlexNet in this instance, hold significant potential for automating the diagnosis of hearing loss using ABR graph data. Future work will aim to refine these models to enhance their diagnostic accuracy and efficiency, fostering their practical application in clinical settings. [ABSTRACT FROM AUTHOR]

Published

2024

35. Low temperature induces a significant decrease in auditory sensitivity of Xenopus laevis.

Author

Li, Wenxiu, Zhu, Bicheng, Zhao, Xiaomeng, Li, Jun, and Cui, Jianguo

Subjects

*XENOPUS laevis, *LOW temperatures, *ANIMAL courtship, *WILDLIFE conservation, *AUDITORY pathways

Abstract

Temperature is a critical factor in shaping the physiological and metabolic processes of animals, notably impacting their auditory systems. Particularly, ectotherms face heightened vulnerability to temperature fluctuations. To comprehend the impact of rapid temperature changes on the auditory sensitivity of ectotherms, we measured the auditory sensitivity of Xenopus laevis at 10°C, 20°C, and 30°C respectively, using the auditory brainstem response. Our results reveal a significant decrease in auditory sensitivity of X. laevis at 10°C, with auditory thresholds markedly higher than those observed at 20°C and 30°C. Conversely, as the test temperature increased from 20°C to 30°C, their hearing sensitivity did not decline but tended to become more sensitive. In conclusion, our results suggest that rapid temperature changes have a discernible impact on the hearing sensitivity of X. laevis, particularly at low temperatures. These rapid environmental temperature changes significantly impact the sensory capabilities and courtship behaviours of animals, thereby influencing their population dynamics. Hence, revealing the consequences of rapid temperature fluctuations on sensory sensitivity in ectotherms is crucial for understanding the repercussions of climate change on animal population dynamics. These insights have profound implications for both environmental management and animal conservation. [ABSTRACT FROM AUTHOR]

Published

2024

36. Echolocating Bats Have Evolved Decreased Susceptibility to Noise-Induced Temporary Hearing Losses.

Author

Simmons, Andrea Megela and Simmons, James A.

Subjects

NOISE-induced deafness, HORSESHOE bats, BATS, DOPPLER effect

Abstract

Glenis Long championed the application of quantitative psychophysical methods to understand comparative hearing abilities across species. She contributed the first psychophysical studies of absolute and masked hearing sensitivities in an auditory specialist, the echolocating horseshoe bat. Her data demonstrated that this bat has hyperacute frequency discrimination in the 83-kHz range of its echolocation broadcast. This specialization facilitates the bat's use of Doppler shift compensation to separate echoes of fluttering insects from concurrent echoes of non-moving objects. In this review, we discuss another specialization for hearing in a species of echolocating bat that contributes to perception of echoes within a complex auditory scene. Psychophysical and behavioral studies with big brown bats show that exposures to long duration, intense wideband or narrowband ultrasonic noise do not induce significant increases in their thresholds to echoes and do not impair their ability to orient through a naturalistic sonar scene containing multiple distracting echoes. Thresholds of auditory brainstem responses also remain low after intense noise exposures. These data indicate that big brown bats are not susceptible to temporary threshold shifts as measured in comparable paradigms used with other mammals, at least within the range of stimulus parameters that have been tested so far. We hypothesize that echolocating bats have evolved a decreased susceptibility to noise-induced hearing losses as a specialization for echolocation in noisy environments. [ABSTRACT FROM AUTHOR]

Published

2024

37. Extending Subcortical EEG Responses to Continuous Speech to the Sound-Field.

Author

Bachmann, Florine L., Kulasingham, Joshua P., Eskelund, Kasper, Enqvist, Martin, Alickovic, Emina, and Innes-Brown, Hamish

Subjects

TREATMENT of hearing disorders, HEARING aid fitting, POISSON distribution, RESEARCH funding, T-test (Statistics), ELECTROENCEPHALOGRAPHY, EXPERIMENTAL design, PHYSIOLOGICAL aspects of speech, BRAIN stem, TECHNOLOGY, ACOUSTIC stimulation, SPEECH perception, AUDITORY evoked response, TIME

Abstract

The auditory brainstem response (ABR) is a valuable clinical tool for objective hearing assessment, which is conventionally detected by averaging neural responses to thousands of short stimuli. Progressing beyond these unnatural stimuli, brainstem responses to continuous speech presented via earphones have been recently detected using linear temporal response functions (TRFs). Here, we extend earlier studies by measuring subcortical responses to continuous speech presented in the sound-field, and assess the amount of data needed to estimate brainstem TRFs. Electroencephalography (EEG) was recorded from 24 normal hearing participants while they listened to clicks and stories presented via earphones and loudspeakers. Subcortical TRFs were computed after accounting for non-linear processing in the auditory periphery by either stimulus rectification or an auditory nerve model. Our results demonstrated that subcortical responses to continuous speech could be reliably measured in the sound-field. TRFs estimated using auditory nerve models outperformed simple rectification, and 16 minutes of data was sufficient for the TRFs of all participants to show clear wave V peaks for both earphones and sound-field stimuli. Subcortical TRFs to continuous speech were highly consistent in both earphone and sound-field conditions, and with click ABRs. However, sound-field TRFs required slightly more data (16 minutes) to achieve clear wave V peaks compared to earphone TRFs (12 minutes), possibly due to effects of room acoustics. By investigating subcortical responses to sound-field speech stimuli, this study lays the groundwork for bringing objective hearing assessment closer to real-life conditions, which may lead to improved hearing evaluations and smart hearing technologies. [ABSTRACT FROM AUTHOR]

Published

2024

38. Enhancing Auditory Brainstem Response Classification Based On Vision Transformer.

Author

Ahmed, Hunar Abubakir, Majidpour, Jafar, Ahmed, Mohammed Hussein, Jameel, Samer Kais, and Majidpour, Amir

Subjects

*AUDITORY evoked response, *TRANSFORMER models, *DATA augmentation, *DATA analysis, *MACHINE learning

Abstract

A method for testing the health of ear's peripheral auditory nerve and its connection to the brainstem is called an auditory brainstem response (ABR). Manual quantification of ABR tests by an audiologist is not only costly but also time-consuming and susceptible to errors. Recently in machine learning have prompted a resurgence of research into ABR classification. This study presents an automated ABR recognition model. The initial step in our design process involves collecting a dataset by extracting ABR test images from sample test reports. Subsequently, we employ an elastic distortion approach to generate new images from the originals, effectively expanding the dataset while preserving the fundamental structure and morphology of the original ABR content. Finally, the Vision Transformer method was exploited to train and develop our model. In the testing phase, the incorporation of both the newly generated and original images yields an impressive accuracy rate of 97.83%. This result is noteworthy when benchmarked against the latest research in the field, underscoring the substantial performance enhancement achieved through the utilization of generated data. [ABSTRACT FROM AUTHOR]

Published

2024

39. Tone-burst elicited auditory brainstem responses in full-term and pre-term infants.

Author

Rance, Gary, Tomlin, Dani, and Graydon, Kelley

Abstract

AbstractObjectiveDesignStudy sampleResultsConclusionsTo investigate the reliability of tone-burst auditory brainstem response (TB-ABR) latencies and thresholds in pre-term and full-term infants.TB-ABRs to 500 Hz and 4000 Hz tone-burst stimuli were recorded at two-week intervals over the first six weeks of life in a group of full-term infants (40–46 weeks gestational age [GA]) and over ten weeks (36–46 weeks gestation) in a group of preterm infants. Linear mixed model analyses evaluated within-subject changes and the effects of the subject group, age at assessment, and stimulus frequency on ABR latency and threshold.Twenty-four infants participated. Nine were full-term (GA: 39–41 weeks) and fifteen were healthy pre-term (GA: 28–34 weeks) at birth.TB-ABR wave V latencies at 70 dBnHL decreased throughout the study (p < 0.001) in pre-term babies for both test frequencies by approximately 0.5 ms. There were, however, no group or GA (at birth) effects indicating that response latency normalized in these children by the due date. Similarly, TB-ABR threshold levels in the premature group were elevated (p = 0.001) by approximately 5 dB in pre-term evaluation but were equivalent to those of full-term participants in the post-term assessment period.In healthy, pre-term infants, tone-burst ABR testing is reliable from 36 weeks gestation. [ABSTRACT FROM AUTHOR]

Published

2024

40. Remediation of Perceptual Deficits in Progressive Auditory Neuropathy: A Case Study.

Author

Rance, Gary, Tomlin, Dani, Yiu, Eppie M., and Zanin, Julien

Subjects

*AUDITORY neuropathy, *AUDITORY pathways, *HEARING levels, *AUDITORY perception, *HEARING disorders, *EVOKED response audiometry, *DICHOTIC listening tests

Abstract

Background: Auditory neuropathy (AN) is a hearing disorder that affects neural activity in the VIIIth cranial nerve and central auditory pathways. Progressive forms have been reported in a number of neurodegenerative diseases and may occur as a result of both the deafferentiation and desynchronisation of neuronal processes. The purpose of this study was to describe changes in auditory function over time in a patient with axonal neuropathy and to explore the effect of auditory intervention. Methods: We tracked auditory function in a child with progressive AN associated with Charcot–Marie–Tooth (Type 2C) disease, evaluating hearing levels, auditory-evoked potentials, and perceptual abilities over a 3-year period. Furthermore, we explored the effect of auditory intervention on everyday listening and neuroplastic development. Results: While sound detection thresholds remained constant throughout, both electrophysiologic and behavioural evidence suggested auditory neural degeneration over the course of the study. Auditory brainstem response amplitudes were reduced, and perception of auditory timing cues worsened over time. Functional hearing ability (speech perception in noise) also deteriorated through the first 1.5 years of study until the child was fitted with a "remote-microphone" listening device, which subsequently improved binaural processing and restored speech perception ability to normal levels. Conclusions: Despite the deterioration of auditory neural function consistent with peripheral axonopathy, sustained experience with the remote-microphone listening system appeared to produce neuroplastic changes, which improved the patient's everyday listening ability—even when not wearing the device. [ABSTRACT FROM AUTHOR]

Published

2024

41. Pathophysiology of Postoperative Hearing Disorders after Vestibular Schwannoma Resection: Insights from Auditory Brainstem Response and Otoacoustic Emissions.

Author

Djennaoui, Idir, Puechmaille, Mathilde, Trillat, Chloé, Bécaud, Justine, Saroul, Nicolas, Khalil, Toufic, Avan, Paul, and Mom, Thierry

Subjects

*OTOACOUSTIC emissions, *ACOUSTIC neuroma, *AUDIOMETRY, *HEARING disorders, *EVOKED response audiometry, *SPEECH perception, *BRAIN stem

Abstract

Background: In order to better understand the pathophysiology of surgically induced hearing loss after vestibular schwannoma (VS) surgery, we postoperatively analyzed the hearing status in a series of patients where hearing was at least partially preserved. Methods: Hearing was assessed through tonal audiometry, speech discrimination score, maximum word recognition score (dissyllabic word lists—MaxIS), otoacoustic emissions (OAEs), and auditory brainstem response (ABR). The magnetic resonance imaging (MRI) tumor characterization was also noted. Results: In a series of 24 patients operated on for VS over 5 years, depending on the results of this triple hearing exploration, we could identify, after surgery, patients with either a myelin alteration or partial damage to the acoustic fibers, others with a likely partial cochlear ischemia, and some with partial cochlear nerve ischemia. One case with persisting OAEs and no preoperative ABR recovered hearing and ABR after surgery. Long follow-up (73 ± 57 months) revealed a mean hearing loss of 30 ± 20 dB with a drastic drop of MaxIS. MRI revealed only 25% of fundus invasion. Conclusion: a precise analysis of hearing function, not only with classic audiometry but also with ABR and OEAs, allows for a better understanding of hearing damage in VS surgery. [ABSTRACT FROM AUTHOR]

Published

2024

42. Audiogram Estimation by Auditory Brainstem Response with NB CE-Chirp LS stimulus in Normal Hearing Infants.

Author

Ormundo, Diego da Silva, Fávero, Mariana Lopes, and Lewis, Doris Ruthy

Subjects

*AUDIOGRAM, *BRAIN stem, *INFANTS, *AUDIOMETRY, *HEARING disorders

Abstract

Introduction NB CE-Chirp LS was developed to improve the audiogram estimation by auditory brainstem response (ABR) thresholds during audiological assessment of infants and difficult to test children. However, before we know how the stimulus behaves in several types of hearing loss, it is important we know how the stimulus behaves in normal hearing infants. Objective To describe ABR thresholds with NB CE-Chirp LS stimulus for 500, 1,000, 2,000, and 4,000 Hz, as well as the amplitude and absolute latency for ABR thresholds. Methods Auditory brainstem response thresholds were evaluated with the Eclipse EP25 system. NB CE-Chirp LS was presented using an ER-3A insert earphone. EEG filter was 30 Hz high-pass and 1,500 Hz low-pass. The ABR threshold was defined as the lowest intensity capable of clearly evoke wave V, accompanied by an absent response 5 dB below. Results Eighteen normal hearing infants were evaluated. The mean and standard deviation (SD) of the ABR threshold (dB nHL) were: 23.8 (±4.2); 14.4 (±5.7); 6.0 (±5.0); and 7.0 (±5.9). The mean and SD of the absolute latency (ms) were: 8.86 (±1.12); 9.21 (±0.95); 9.44 (±0.78); and 9.64 (±0.52). The mean amplitude (nV) and SD were: 0.123 (±0.035); 0.127 (±0.039); 0.141 (±0.052); and 0.105 (±0.028), respectively, for 500, 1,000, 2,000 and 4,000 Hz. Conclusion Auditory brainstem response threshold with NB CE-Chirp LS reaches low levels, in special for high frequencies. It provides absolute latencies similar between frequencies with robust amplitude. The results obtained brings to the examiner more confidence in the results registered. [ABSTRACT FROM AUTHOR]

Published

2024

43. Assessment of Effects of Chronic Mobile Phone Usage on Auditory Functions: A Study at a Tertiary Care Teaching Hospital in Northern India.

Author

Saroch, Pallavi, Kalsotra, Gopika, and Kalsotra, Parmod

Subjects

*CELL phones, *TEACHING hospitals, *OTOACOUSTIC emissions, *TERTIARY care, *HOSPITAL care

Abstract

Genuine concerns are being increased regarding potential health risks associated with the radiation exposure while using mobile devices. To study the effects of mobile phone usage on auditory functions. The detailed history of the patient was obtained with special emphasis on total cumulative usage [in years], average daily use [in minutes]. According to the years of exposure, subjects were divided into Group A (< 5 years of exposure) and Group B (> 5 years of exposure) and according to the average daily usage of mobile phones, subjects were divided into Group 1 (< 60 min daily usage) and Group 2 (> 60 min of daily usage). After that systemic examination was done. Audiological testing included pure tone audiometry (PTA) with extended high frequencies (0.250–12 kHz), Otoacoustic emissions (OAE) and Auditory Brainstem response (ABR) testing and middle latency response (MLR) were performed. Out of 100 subjects, maximum subjects (38%) in the present study were in the age group of 21–30 years with male: female ratio of 1.6:1. The main associated complaints in the subjects at the time of enrolment in the study included ear warmth (34%) followed by aural fullness (20%) and tinnitus (17%). In Group A, mild SNHL was seen in 3 (11.54%) subjects in whom 2 had > 60 min average daily use and 1 had < 60 min daily use. In Group B 19 (25.68%) subjects had mild SNHL out of which 6 were in Group 2 and 13 were in Group 1. In group B 2 (2.7%) subjects had moderate SNHL. Increase in latencies of Na and Pa were noted with prolonged and frequent exposure to mobile phones in MLR. It is advised to limit the usage of mobile phones so as to reduce the damage caused by EMRs to the auditory system. [ABSTRACT FROM AUTHOR]

Published

2024

44. HDR syndrome, detected in the neonatal period by newborn hearing screening.

Author

Takai, Shunsuke, Adachi, Mika, Takahashi, Hiyori, Shirakura, Masayuki, Honkura, Yohei, Yamauchi, Daisuke, and Katori, Yukio

Subjects

*HYPOPARATHYROIDISM, *NEWBORN screening, *SENSORINEURAL hearing loss, *HEARING disorders, *SYNDROMES, *GENETIC testing

Abstract

Hypoparathyroidism, deafness, and renal dysplasia (HDR) syndrome is an autosomal dominant disorder. Because HDR syndrome is caused by haploinsufficiency in GATA3, it exhibits variation in the onset and progression of hearing loss. In previous reports, the automated auditory brainstem response (AABR) was considered insufficient to detect sensorineural hearing loss caused by HDR syndrome. We report a case of HDR syndrome whose congenital hearing loss was detected by newborn hearing screening (NHS) using AABR. In this case, HDR syndrome was suspected due to hearing loss, hypocalcemia, and her family history. Genetic testing confirmed the diagnosis of HDR syndrome at 5 months of age. Because the phenotype of hearing loss due to HDR syndrome is variable and includes progressive hearing loss, these cases may not be detected by the HNS. However, most of the previous reports were published before the NHS became common and given the frequency of hearing loss complications in HDR syndrome. We consider that there is a reasonable number of HDR syndrome cases with abnormalities on the NHS. We believe that the NHS may also be useful for early detection of hearing loss due to HDR syndrome. [ABSTRACT FROM AUTHOR]

Published

2024

45. The Effects of Sedation on Auditory Brainstem Response in Pediatric Population: A Systematic Review

Author

Tayyebe Fallahnezhad, Mohammad Amin Sharafi, Malihah Mazaheryazdi, Farnoush Jarollahi, and Akram Pourbakht

Subjects

Auditory brainstem response, sedation, chloral hydrate, children, dexmedetomidine, intranasal drug administration, Medicine, Surgery, RD1-811

Abstract

Background and Aim: Auditory Brainstem Response (ABR) is crucial for evaluating auditory pathway function in pediatric patients. However, obtaining reliable ABR measurements in young children can be challenging due to their inability to stay still and quiet during the test. Sedation is frequently used to facilitate ABR testing in this population, but the most practically effective sedation method and its impact are still uncertain. This systematic review aimed to thoroughly investigate the success rates (completion of ABR in both ears) associated with different sedation techniques. Recent Findings: In recent review (2000-2022), Ten studies, identified through a comprehensive search of electronic databases, were included in the analysis. The studies reported significant variation in success rates for ABR testing with sedation, ranging from 70% to 100%. This suggests that the effectiveness of sedation may not be uniform across all situations. The included studies employed a wide variety of sedation techniques, highlighting the lack of a standardized approach in this area. Conclusion: These findings highlight the heterogeneity in sedation practices and success rates for pediatric ABR testing. This emphasizes the importance of tailoring the sedation approach to the specific needs of each child while carefully considering the potential risks associated with each sedation method. Further research is warranted to establish standardized protocols for sedation in pediatric ABR , ensuring optimal test efficacy while prioritizing patient safety. Research Square registration DOI: (https://doi.org/10.21203/rs.3.rs-388140/v1).

Published

2024

46. Evaluation of newborn hearing screening program in Jordan

Author

Faten S. Obeidat, Noura Alothman, Rania Alkahtani, Sameer Al-Najjar, Mohammad Obeidat, Asia Y. Ali, Elham Ahmad, and Alia A. Alghwiri

Subjects

hearing screening, hearing loss, newborn, otoacoustic emission, auditory brainstem response, Jordan, Pediatrics, RJ1-570

Abstract

IntroductionThe Newborn Hearing Screening (NHS) program was officially launched in Jordan in 2021. Since its inception, no studies have examined the effectiveness of the program. This study seeks to assess the effectiveness and outcomes of the NHS program in Jordan.MethodsA retrospective cross-sectional study was conducted to investigate the program coverage rate, referral rate, loss to follow-up rate and the hearing status of newborns who successfully completed the necessary diagnostic assessment. Live births in all hospitals administered by the Ministry of Health (MoH) in Jordan from July 2021 to November 2023 were included.ResultsOut of 25,825 newborns delivered, 99.4% (25,682) were screened. A referral rate of 0.7% (189) was recorded. Approximately 61.9% of those referred (n = 117) had normal hearing, while 31.7% (60 infants) were diagnosed with hearing loss. The prevalence of congenital hearing loss was 0.14%, and the mean age for identifying hearing loss was 11 months.DiscussionThe current status of the NHS program in Jordan is promising. The program has achieved most benchmarks recommended by the Joint Committee on Infant Hearing (JCIH), demonstrating encouraging outcomes. There is a need to investigate and address the factors causing delays in the identification of hearing loss in Jordan.

Published

2024

47. Correlation Analysis and Comparison of Adult CE-Chirp ABR Response Threshold and Pure Tone Hearing Threshold

Author

He-ying CHENG, Yun-ge ZHANG, Yan CHEN, Sun YIN, Ming LÜ, Chun-xiao LI

Subjects

forensic medicine, ce-chirp, auditory brainstem response, pure tone hearing threshold, v-wave response threshold, hearing impairment, Medicine

Abstract

Objective To study the application of CE-Chirp in the evaluation of hearing impairment in forensic medicine by testing the auditory brainstem response （ABR） in adults using CE-Chirp to analyze the relationship between the V-wave response threshold of CE-Chirp ABR test and the pure tone hearing threshold. Methods Subjects （aged 20-77 with a total of 100 ears） who underwent CE-Chirp ABR test in Changzhou De’an Hospital from January 2018 to June 2019 were selected to obtain the V-wave response threshold， and pure tone air conduction hearing threshold tests were conducted at 0.5， 1.0， 2.0 and 4.0 kHz， respectively， to obtain pure tone listening threshold. The differences and statistical differences between the average pure tone hearing threshold and V-wave response threshold were compared in different hearing levels and different age groups. The correlation， differences and statistical differences between the two tests at each frequency were analyzed for all subjects. The linear regression equation for estimating pure tone hearing threshold for all subjects CE-Chirp ABR V-wave response threshold was established， and the feasibility of the equation was tested. Results There was no statistical significance in the CE-Chirp ABR response threshold and pure tone hearing threshold difference between different hearing level groups and different age groups （P>0.05）. There was a good correlation between adult CE-Chirp ABR V-wave response threshold and pure tone hearing threshold with statistical significance （PPConclusion The use of CE-Chirp ABR V-wave response threshold can be used to evaluate subjects’ pure tone hearing threshold under certain conditions， and can be used as an audiological test method for forensic hearing impairment assessment.

Published

2024

48. Universal newborn hearing screening program in Saudi Arabia: Current insight

Author

Noura Alothman, Reem Elbeltagy, and Reem Mulla

Subjects

Hearing screening, Hearing loss, Newborn, Auditory brainstem response, Saudi Arabia, Otorhinolaryngology, RF1-547

Abstract

Newborn hearing screening (NHS) programs are essential to identify hearing loss early in life and to improve outcomes in children. In Saudi Arabia, the national NHS program has been operational since 2016; however, few studies have evaluated its status, and none have covered all provinces across the country. This cross-sectional retrospective study provides an overview of the program's status across all provinces, focusing on screening coverage rates, referral/fail rates, and follow-up procedures. In 2021, 199,034 newborns were screened, with a coverage rate of 92.6% and an overall referral/fail rate of 1.87%. These performance measures provide a foundation for future progress and improvements. This study highlights the importance of ongoing efforts to enhance the program's effectiveness and sustainability.

Published

2024

49. GRP78 protein metabolism in obese and diabetic rats: a study of its role in metabolic disorders

Author

Kai Xi, Hua-Ping Li, Yue-Hui Wang, Yang-Yang Li, Lei Wang, Miao-Miao Zhang, Xi Zhang, and Bing-Wen Xing

Subjects

Auditory brainstem response, Cochlea histology, Diabetic rat, Endoplasmic reticulum stress, Obese rat, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract Objective This study aimed to compare and analyze the expression and significance of the GRP78 protein in cochlear cell injury induced by a high glucose and high-fat diet in obese and diabetic rats. Methods Male SD rats were randomly divided into two groups: normal (NC) and high-fat (HF) groups. The NC group was fed a standard diet for eight weeks, while the HF group received a high-glucose, high-fat diet. The HF group was further categorized into the obesity group (OB group) and the type II diabetes mellitus group (T2DM group). To induce a type II diabetes mellitus (T2DM) model, the T2DM group received an intraperitoneal injection of a small dose of STZ (45 mg/kg). After four weeks on the original diet, body weight, blood glucose, blood lipid levels, and auditory brainstem response (ABR) thresholds were measured. The cochlea was dissected, and its morphology was observed using HE staining. Immunohistochemistry and western blotting were utilized to examine the expression level of the GRP78 protein in the cochlea. Results (1) The ABR threshold demonstrated a statistically significant difference between the T2DM group and the OB group (P

Published

2024

50. GRP78 protein metabolism in obese and diabetic rats: a study of its role in metabolic disorders

Author

Xi, Kai, Li, Hua-Ping, Wang, Yue-Hui, Li, Yang-Yang, Wang, Lei, Zhang, Miao-Miao, Zhang, Xi, and Xing, Bing-Wen

Published

2024