From spikes to speech: NeuroVoc - A biologically plausible vocoder framework for auditory perception and cochlear implant simulation [0.03%]
从尖峰到语音:神经词汇——听觉感知和人工耳蜗仿真的生物可塑性声码器框架
Jacob de Nobel,Jeroen J Briaire,Thomas H W Bäck et al.
Jacob de Nobel et al.
We present NeuroVoc, a flexible model-agnostic vocoder framework that reconstructs acoustic waveforms from simulated neural activity patterns using an inverse Fourier transform. The system applies straightforward signal processing to neurog...
Characteristic cortical alterations in auditory neuropathy: An EEG study [0.03%]
听神经病的皮层异常特征:一项EEG研究
Xin Zhou,Xiaonan Wu,Suwei Ma et al.
Xin Zhou et al.
Auditory neuropathy (AN) is a complex auditory disorder characterized by disproportionately poor speech discrimination despite preserved auditory sensitivity, substantially impacting daily communication and overall quality of life. This stu...
Sex- and age-specific effects on auditory brainstem responses in the valproic acid-induced rat model of autism [0.03%]
valsproic酸诱导的自闭症大鼠模型听性脑干反应的性别及年龄特异性效应
Sara Cacciato-Salcedo,Ana B Lao-Rodríguez,Manuel S Malmierca
Sara Cacciato-Salcedo
Prenatal exposure to valproic acid (VPA) provides a well-established rodent model of autism, yet its effects on auditory brainstem/midbrain processing across sex and development remain elusive. We recorded click-evoked auditory brainstem re...
An immersive ecological measure of noise-induced functional interference in adults with hyperacusis [0.03%]
成人耳鸣的功能性干扰的生态噪音测量法研究
Pierre H Bourez,Guillaume T Vallet,Nathalie Gosselin et al.
Pierre H Bourez et al.
Noise interfering with everyday activities is a common experience in many daily soundscapes. However, for individuals with intolerance to loud sounds, a condition called hyperacusis, these soundscapes can have a severe impact, greatly impai...
ABR Wave I is enhanced with 4 kHz chirp compared to traditional broadband click [0.03%]
与传统的宽带点击声相比,ABR波I通过4kHz的声音信号得到了增强
Carly Furlong,Akshay R Maggu
Carly Furlong
The Wave I of the Auditory Brainstem Response (ABR) has been increasingly proposed as a potential neural marker for subtle auditory-neural deficits. However, the existing standard click-evoked ABR protocols in humans are limited due to redu...
Perspectives on self-management of noise intrusion in daily living with hyperacusis [0.03%]
对超敏感症患者日常生活中的噪声侵扰进行自我管理的见解
Nicolas Dauman,Soly I Erlandsson,Alain Londero et al.
Nicolas Dauman et al.
Background: Previous studies on noise intolerance have recommended further research into the lived experience of hyperacusis in order to better understand the specific needs and strategies used by those affected. We condu...
Effect of cognitive load on cervical vestibular evoked myogenic potentials [0.03%]
认知负荷对颈椎 vestibular 可诱导肌源性电位的影响
Rahina Abubacker,Aravind Kumar Rajasekaran,Anannya Adhikari et al.
Rahina Abubacker et al.
While vestibular responses have traditionally been viewed as reflexive and brainstem-mediated, emerging evidence suggests they are susceptible to modulation by higher-order cognitive processes. This study aimed to investigate the influence ...
Multichannel auditory cortical responses in misophonia: A neurophysiological investigation [0.03%]
违音症患者的多通道听觉皮层反应:一项神经生理学研究
Kamalakannan Karupaiah,Rakesh Trinesh,Ajith Kumar Uppunda et al.
Kamalakannan Karupaiah et al.
Misophonia is characterized by intense emotional responses to specific sounds, yet its neurophysiological basis remains unclear. This study investigated auditory cortical processing using multichannel auditory late latency responses (ALLR)....
Suitability of one-axis measurements for quantifying complex cochlear motion under bone conduction stimulation [0.03%]
骨导刺激下单轴测量表征耳蜗复杂运动的适用性研究
Antonio G Bustos,Ivo Dobrev,Guy Fierens et al.
Antonio G Bustos et al.
Bone Conduction (BC) refers to the transmission of sound vibrations through the bones of the skull, producing a similar hearing sensation to that of the conventional air-conduction pathway, which transmits sound from the eardrum to the audi...
Ted W Cranford,Margaret A Morris,Petr Krysl et al.
Ted W Cranford et al.
Baleen whales produce and receive underwater sounds with wavelengths much longer than their bodies, despite having ears approximately the size of a human fist. How do they hear long wavelength sounds with relatively small ears? In 2015, we ...