A voltage-step method for detecting high-frequency transient current components in deep brain tissue: preliminary in vivo measurements in rats
Authored by Sultan Mahmud , Domenica Baez , Anyu Jiang , Yitong Zhao , Baibhab Chatterjee , Adam Khalifa , and Chris Rourk
Posted
July 8, 2026
Server
bioRxiv
Abstract
A test technique for measuring high-frequency transient current components in deep brain tissue is presented. The technique applies a voltage pulse with a high value in dV/dt, generating a corresponding current pulse with high dI/dt that can elicit measurable transient current responses from the electrode–tissue interface and adjacent brain tissue; responses are analyzed in the frequency domain by Fast Fourier Transform at a 200 kHz sampling frequency. The method was motivated by prior evidence that ferritin and neuromelanin in catecholaminergic tissue may support high-frequency conduction properties that have not previously been characterized in vivo. The protocol was applied in 277 measurements across five Sprague Dawley rats at cortical and basal ganglia locations in different locations in the brain. Preliminary spectral results show differences between catecholaminergic regions and cortical tissue that support further development and validation of the method.
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