ABSTRACT
Long-term preclinical study available extracranial brain activator (ECBA) system, ECBAv2, is proposed for the non-anesthetic canine models. The titanium-packaged module shows enhanced durability, even after a year of implantation in the scalp. In addition, the wearable helmet type base station provides a stable experimental environment without anesthesia. In this work, HFS stimulation is induced to six canine models for 30 minutes every day over 4 weeks (10Hz, 40Hz and no stimulation for each pair of subjects). Pre- and post-HFS stimulation PET-CT image shows remarkable increases of glucose metabolism in the temporal and parietal lobes. Moreover, both the 40-Hz and 10-Hz groups shows noticeable increase and the former group has more increments than the latter. Our results establish that HFS stimulation definitely worked as facilitating brain activity which may affect memory and sensory skills, respectively.
Subject(s)
Positron Emission Tomography Computed Tomography , Skull , Animals , Brain/diagnostic imaging , Dogs , Humans , Longitudinal Studies , ScalpABSTRACT
A novel minimally invasive wirelessly powered medical device, a magnetic induction extra-cranial brain stimulation (MI-ECBS) system is implemented for treating neurological disorders, Alzheimer's disease (AD) and Epilepsy. The proposed system provides 2 different types of clinically significant stimulation waveforms for the therapy. For high frequency stimulation (HFS), we used 1mA, 10Hz, rectangular, charge balanced (0.5msec pulse width) pulses for 3sec with 21sec rest (total 600 pulses). Subsequently, under same configuration, a low frequency stimulation (LFS; 1Hz, 600 pulses) protocol was applied to canine-animal models. As a result, complementary neuro-modulation, facilitation and an inhibition are successfully demonstrated with an EEG power spectrum monitoring and the stimulation delivery efficacy is enhanced to 39.57x comparing to conventional transcutaneous direct current stimulation (tDCS).
