Abstract
AbstractIn this paper, we introduce a new, open-source software developed in Python for analyzing Auditory Brainstem Response (ABR) waveforms. ABRs are a far-field recording of synchronous neural activity generated by the auditory fibers in the ear in response to sound, and used to study acoustic neural information traveling along the ascending auditory pathway. Common ABR data analysis practices are subject to human interpretation and are labor-intensive, requiring manual annotations and visual estimation of hearing thresholds. The proposed new Auditory Brainstem Response Analyzer (ABRA) software is designed to facilitate the analysis of ABRs by supporting batch data import/export, waveform visualization, and statistical analysis. Techniques implemented in this software include algorithmic peak finding, threshold estimation, latency estimation, time warping for curve alignment, and 3D plotting of ABR waveforms over stimulus frequencies and decibels. The excellent performance on a large dataset of ABR collected from three labs in the field of hearing research that use different experimental recording settings illustrates the efficacy, flexibility, and wide utility of ABRA.
Publisher
Cold Spring Harbor Laboratory
Reference31 articles.
1. Detecting Cochlear Synaptopathy Through Curvature Quantification of the Auditory Brainstem Response
2. Predicting synapse counts in living humans by combining computational models with auditory physiology;The Journal of the Acoustical Society of America,2022
3. Burkard, Robert , and Manny Don . "The auditory brainstem response (ABR)." Translational Perspectives in Auditory Neuroscience: Hearing Across the Life Span–Assessment and Disorders. San Diego, CA: Plural Publishing (2012): 161-200.
4. Use of non-invasive measures to predict cochlear synapse counts