Paper

320-Channel Active Probe for High-Resolution Neuromonitoring and Responsive Neurostimulation

Volume Number:
9
Issue Number:
1
Pages:
Starting page
34
Ending page
49
Publication Date:
Publication Date
June 2014

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Abstract

We present a 320-channel active probe for high-spatial-resolution neuromonitoring and responsive neurostimulation. The probe comprises an integrated circuit (IC) cell array bonded to the back side of a pitch-matched microelectrode array. The IC enables up to 256-site neural recording and 64-site neural stimulation at the spatial resolution of 400 μm and 200 μm, respectively. It is suitable for direct integration with electrode arrays with the shank pitch of integer multiples of 200 μm. In the presented configuration, the IC is bonded with a 8 × 8 400 μm-pitch Utah electrode array (UEA) and up to additional 192 recording channels are used for peripheral neuromonitoring. The 0.35 μm CMOS circuit array has a total die size of 3.5 mm × 3.65 mm. Each stimulator channel employs a current memory for simultaneous multi-site neurostimulation, outputs 20 μA-250 μA square or arbitrary waveform current, occupies 0.02 mm 2 , and dissipates 2.76 μW quiescent power. Each fully differential recording channel has two stages of amplification and filtering and an 8-bit single-slope ADC, occupies 0.035 mm 2 , and consumes 51.9 μW. The neural probe has been experimentally validated in epileptic seizure propagation studies in a mouse hippocampal slice in vitro and in responsive neurostimulation for seizure suppression in an acute epilepsy rat model in vivo .

Description

R. Shulyzki et al., "320-Channel Active Probe for High-Resolution Neuromonitoring and Responsive Neurostimulation," in IEEE Transactions on Biomedical Circuits and Systems, vol. 9, no. 1, pp. 34-49, Feb. 2015, doi: 10.1109/TBCAS.2014.2312552.

Country
CAN
Affiliation
University of Toronto, Canada
IEEE Region
Region 07 (Canada)
Email