| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Jianbin Sun, Na Sai, Tong Zhang, Chaoying Tang, Shuhang Fan, Qin Wang, Da Liu, Xianhai Zeng, Juanjuan Li, Weiwei Guo, Shiming Yang, Weiju Ha. Repeated low-intensity noise exposure exacerbates age-related hearing loss via RAGE signaling pathway. Neurobiology of disease. 2024-12-18. PMID:39694338. |
auditory brainstem response (abr) was monitored to assess changes in hearing thresholds, tracking the effects of noise exposure until the mice reached 12 months of age. |
2024-12-18 |
2024-12-21 |
mouse |
| Niranj A Kumar, Azmi Marouf, Kumar N Alagramam, Ruben Stepanya. The potential of mitochondrially-targeted tetrapeptide in protecting against noise-induced hearing impairment. Neuroreport. 2024-12-11. PMID:39661536. |
efficacy was evaluated based on auditory brainstem response (abr) thresholds, wave amplitudes, and wave latencies in treated and control groups. |
2024-12-11 |
2024-12-14 |
mouse |
| Fabiane Zimmermann, Georgea Espindola Ribeiro, Josiane Hoffmann, Daniela Polo Camargo da Silv. Electrophysiological findings of brainstem auditory evoked potentials in infants with down syndrome: A systematic review and meta-analysis. International journal of pediatric otorhinolaryngology. vol 188. 2024-12-11. PMID:39662083. |
to summarize the evidence on the electrophysiological findings in the auditory brainstem response (abr) in infants with ds. |
2024-12-11 |
2024-12-14 |
Not clear |
| Zeyu Zheng, Peng Zhang, Yang Fu, Yihong Jiang, Jing Zhu, Fei Wang, Shaoheng Li, Zhuoru Zhang, Tong Chang, Tian Li, Min Zhang, Bai Ruan, Xiaocheng Wan. The potential role of the SIRT1-Nrf2 signaling pathway in alleviating hidden hearing loss via antioxidant stress. Cell biology international. 2024-12-02. PMID:39618038. |
in vivo, we employed auditory brainstem response (abr) testing and ribbon synapses counting to assess changes in mouse hearing function, and observed the morphology of hair cells through scanning electron microscopy. |
2024-12-02 |
2024-12-06 |
mouse |
| M Simamora, S Zizlavsky, T J A Harjoprawito, T Wiguna, B E Medise, R Wibawant. Correlation between auditory brainstem responses, hyperacusis, and severity of autism spectrum disorder in young children with normal hearing at a tertiary referral center in Indonesia. The Medical journal of Malaysia. vol 79. issue 6. 2024-11-30. PMID:39614784. |
auditory disorders, including hyperacusis, are common in asd, yet the correlation between auditory brainstem response (abr) wave latencies and asd severity, especially with hyperacusis, is under-researched. |
2024-11-30 |
2024-12-06 |
Not clear |
| Uğur Belet, Ateş Mehmet Akşit, Ebru Kösemiha. Comparison of LS CE-Chirp and Click Stimuli in Auditory Brainstem Responses in High-Frequency Hearing Loss. Ear and hearing. 2024-11-25. PMID:39582114. |
the auditory brainstem response (abr) is an evoked potential used to estimate the hearing thresholds and identify potential auditory pathologies. |
2024-11-25 |
2024-11-27 |
Not clear |
| Juan Carlos Alvarado, Verónica Fuentes-Santamaría, Zaskya Benítez-Maicán, Carmen María Díaz García, María Cruz Gabaldón Ull, José M Jui. An electrophysiological early marker of age-related hearing loss in the Wistar rat model. Heliyon. vol 10. issue 22. 2024-11-25. PMID:39584077. |
the goal of the present study was to determine, through a detailed study of the auditory brainstem response (abr) waves, the possible existence of an early functional marker for the onset of presbycusis in an animal model. |
2024-11-25 |
2024-11-27 |
rat |
| Luke A Shaheen, Brad N Buran, Kirupa Suthakar, Seth D Koehler, Yoojin Chun. ABRpresto: An algorithm for automatic thresholding of the Auditory Brainstem Response using resampled cross-correlation across subaverages. bioRxiv : the preprint server for biology. 2024-11-22. PMID:39574590. |
the auditory brainstem response (abr) is an essential diagnostic indicator of overall cochlear health, used extensively in both basic research and clinical studies. |
2024-11-22 |
2024-11-24 |
mouse |
| Emre Soylemez, Aydın Sinan Apaydin, Tugce Gurel Soylemez, Borna Farhoomand, Dursun Ceyla. Auditory evoked brainstem responses and medial olivocochlear efferent system in migraine patients with phonophobia. Neurological research. 2024-11-20. PMID:39566556. |
this study aims to investigate auditory evoked brainstem responses (abr) and distortion product otoacoustic emission (dpoae) suppression in migraine patients with and without phonophobia. |
2024-11-20 |
2024-11-23 |
Not clear |
| Nele De Poortere, Sarineh Keshishzadeh, Hannah Keppler, Ingeborg Dhooge, Sarah Verhuls. Intrasubject variability in potential early markers of sensorineural hearing damage. The Journal of the Acoustical Society of America. vol 156. issue 5. 2024-11-20. PMID:39565141. |
fifteen normal-hearing young adults underwent repeated measures of (extended high-frequency) pure-tone audiometry, speech-in-noise intelligibility, distortion-product otoacoustic emissions (dpoaes), and auditory evoked potentials; comprising envelope following responses (efr) and auditory brainstem responses (abr). |
2024-11-20 |
2024-11-23 |
Not clear |
| Meghan Graeca, Randy Kulesz. Impaired brainstem auditory evoked potentials after in utero exposure to high dose paracetamol exposure. Hearing research. vol 454. 2024-11-17. PMID:39550993. |
we investigated this hypothesis by recording and analyzing click-evoked auditory brainstem responses (abr) at postnatal day 21 and 29 in sprague-dawley rats. |
2024-11-17 |
2024-11-22 |
rat |
| Jinkyung Kim, Jesus Maldonado, Dorothy W Pan, Patricia M Quiñones, Samantha Zenteno, John S Oghalai, Anthony J Ricc. Semicircular canal drug delivery safely targets the inner ear perilymphatic space. JCI insight. vol 9. issue 21. 2024-11-08. PMID:39513368. |
measurements of auditory brainstem response (abr), vibrometry, and vestibular behavioral and sensory-evoked potential (vsep) revealed preserved hearing and vestibular functions after artificial perilymph injections. |
2024-11-08 |
2024-11-16 |
Not clear |
| Meng Xu, Shiwen Zhong, Na Zhu, Sifan Wang, Jingyi Wang, Xiang Li, Xiang Ren, Hui Kon. Oxidative and endoplasmic reticulum stress in diabetes-related hearing loss: Protective effects of thioredoxin. Life sciences. 2024-11-08. PMID:39515416. |
type 2 diabetes models were induced in wild-type and trx transgenic (tg) mice, with auditory brainstem response (abr) used to evaluate hearing changes. |
2024-11-08 |
2024-11-16 |
mouse |
| Chanbeom Kwak, Yuseon Byun, Sunghwa You, Junghee Sagong, Do-Yun Kim, Wan-Ho Cho, Tae Hoon Kong, Soo Hee Oh, In-Ki Jin, Michelle J Suh, Hyo-Jeong Lee, Seong Jun Choi, Dongchul Cha, Kyung-Ho Park, Young Joon Se. Understanding Standard Procedure in Auditory Brainstem Response: Importance of Normative Data. Journal of audiology & otology. vol 28. issue 4. 2024-11-06. PMID:39501685. |
the auditory brainstem response (abr) is a noninvasive test that measures neural activity in response to auditory stimuli. |
2024-11-06 |
2024-11-08 |
Not clear |
| Melissa J Polonenko, Ross K Maddo. Fundamental frequency predominantly drives talker differences in auditory brainstem responses to continuous speech. JASA express letters. vol 4. issue 11. 2024-11-06. PMID:39504231. |
modeled responses suggested that the speech and click abr differences were reasonably predicted by peripheral and brainstem processing of stimulus acoustics. |
2024-11-06 |
2024-11-09 |
human |
| Chaoyong Tian, Yao Li, Yang Yang, Juan Qu, Dingjun Zh. Hydralazine alleviates noise-induced hearing loss by scavenging acrolein. Neuroscience letters. 2024-11-04. PMID:39491127. |
auditory function was evaluated by auditory brainstem response (abr) testing and scanning electron microscopy. |
2024-11-04 |
2024-11-06 |
rat |
| Philip B Fullante, Patrick John P Labra, Juan Miguel A Mauricio, Amadona R Luistro, Portia Grace F Marcelo, Luis G Sison, Charlotte M Chion. Evaluation of an Investigational Hearing Screening Device ( Acta medica Philippina. vol 57. issue 9. 2024-11-01. PMID:39483798. |
evaluation of an investigational hearing screening device ( this pilot human trial demonstrates the ability of the investigational newborn hearing screening device to provide acoustic stimulation to produce evoked potentials, as well as its ability to capture and acquire auditory evoked potentials, especially the auditory brainstem response (abr) wave v. this pilot study also demonstrates the ease of recognizing and identifying abr waves in the graphical presentation of the evoked potentials over time. |
2024-11-01 |
2024-11-03 |
human |
| Catherine Manuela Lee-Ramos, Al Francis L Bontogon, Angelica S Collanto, Patrick John P Labra, Luis G Sison, Charlotte M Chion. Hearing Screening through Frequency Analysis of Auditory Brainstem Response Using PhysioNet Data. Acta medica Philippina. vol 57. issue 9. 2024-11-01. PMID:39483803. |
responding to the reality of neonate patients with delayed childhood development due to late diagnosis of and intervention on hearing impairment, this study aims to determine the features based on time-frequency domain of auditory brainstem response (abr) signals and to test the protocol on abr signals from physionet. |
2024-11-01 |
2024-11-03 |
Not clear |
| Chun Liang, Tian-Ying Zhai, Shu Fang, Jin Chen, Li-Man Liu, Ning Yu, Hong-Bo Zha. ATP-gated P2x7 receptor is a major channel type at type II auditory nerves and required for hearing sensitivity efferent controlling and noise protection. bioRxiv : the preprint server for biology. 2024-10-28. PMID:39464017. |
knockout (ko) of p2x7 increased hearing sensitivity with enhanced acoustic startle response (asr), auditory brainstem response (abr), and cochlear microphonics (cm) by increasing ohc electromotility, an active cochlear amplifier in mammals. |
2024-10-28 |
2024-10-30 |
mouse |
| Durga S Kumar, Sreeraj Konadat. Effect of Level and Frequency of Forward Masker on Auditory Brainstem Response. American journal of audiology. 2024-10-17. PMID:39418572. |
thus, the present study focused on employing fm electrophysiological analogous such as auditory brainstem responses (abr) to the behavioral masking experiments to objectively measure the frequency and level of processing in the auditory system, from the periphery to the brainstem level. |
2024-10-17 |
2024-10-20 |
Not clear |