Machine Learning Identification of Tinnitus-Related Features in Auditory Peripheral Spontaneous Activity in a Guinea Pig Noise-Induced Tinnitus Model

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Machine learning identification of tinnitus-related features in auditory peripheral spontaneous activity in a guinea pig noise-induced tinnitus model

Objectives
Tinnitus affects millions globally, yet its clinical assessment relies on subjective reports, limiting diagnostic accuracy and treatment development. This study aimed to identify objective, tinnitus-related features within ensemble spontaneous activity (ESA) recorded from the cochlear surface in a guinea pig model and to evaluate their reversibility using extracochlear electrical stimulation (EES) and machine learning.
Design
ESA was recorded from four groups: normal controls, noise-exposed animals with tinnitus, noise-exposed animals without tinnitus, and tinnitus animals after EES. Spectral features—central frequency, bandwidth, skewness, and kurtosis—were extracted using Fast-Fourier Transform and sliding window analysis. Behavioral tinnitus was assessed using the gap-prepulse inhibition of the acoustic startle reflex (GPIAS). Five machine learning models were trained to classify tinnitus status based on EES-reversible spectral features, with SHAP analysis used to identify key predictors.
Results
Tinnitus-related spectral alterations were observed in frequency bands associated with the exposure noise and its harmonic/subharmonic ranges. These changes were reversed by EES, coinciding with behavioral improvement in GPIAS. The support vector machine achieved the highest classification performance (AUC = 0.962). SHAP analysis identified central frequency (1400–1600 Hz) and skewness (8000–9000 Hz; 16,000–17,000 Hz) as the most informative features.
Conclusions
These findings suggest that specific ESA spectral features serve as objective and reversible biomarkers of tinnitus in a guinea pig model, offering potential for translation to clinical diagnostics and therapeutic monitoring.

Study on guinea pigs, but nevertheless I thought it contains at least two promising tracks:

• Figuring out objective biomarkers for tinnitus
• EES as a possible track to reverse changes

If I'm not mistaken, it's not the first time electrical stimulation of the cochlea has been thought to be a possible efficient agent against tinnitus. I believe a very old study even demonstrated its efficiency in humans. If anyone feels like delving deeper into this topic, please don't hesitate to correct me or add further information.

Honestly, my gut feeling is that EES should be a viable candidate for becoming one of the main pillars of treatment research. Not the only one, sure, but one worth committing to.