Title :
Wireless Amperometric Neurochemical Monitoring Using an Integrated Telemetry Circuit
Author :
Roham, Masoud ; Halpern, Jeffrey M. ; Martin, Heidi B. ; Chiel, Hillel J. ; Mohseni, Pedram
Author_Institution :
Electr. Eng. & Comput. Sci. Dept., Case Western Reserve Univ., Cleveland, OH
Abstract :
An integrated circuit for wireless real-time monitoring of neurochemical activity in the nervous system is described. The chip is capable of conducting high-resolution amperometric measurements in four settings of the input current. The chip architecture includes a first-order DeltaSigma modulator (DeltaSigmaM) and a frequency-shift-keyed (FSK) voltage-controlled oscillator (VCO) operating near 433 MHz. It is fabricated using the AMI 0.5 mum double-poly triple-metal n -well CMOS process, and requires only one off-chip component for operation. Measured dc current resolutions of ~ 250 fA, ~ 1.5 pA, ~ 4.5 pA, and ~ 17 pA were achieved for input currents in the range of plusmn5, plusmn37, plusmn150, and plusmn600 nA, respectively. The chip has been interfaced with a diamond-coated, quartz-insulated, microneedle, tungsten electrode, and successfully recorded dopamine concentration levels as low as 0.5 muM wirelessly over a transmission distance of ~ 0.5 m in flow injection analysis experiments.
Keywords :
amperometric sensors; biochemistry; biomedical electrodes; biomedical electronics; biomedical telemetry; chemical sensors; delta-sigma modulation; frequency shift keying; monitoring; neurophysiology; voltage-controlled oscillators; FSK voltage controlled oscillator; dopamine concentration measurement; double-poly triple-metal n-well CMOS process; first order DeltaSigma modulator; flow injection analysis experiments; frequency shift keyed VCO; high resolution amperometric measurements; integrated telemetry circuit; microneedle tungsten electrode; nervous system; neurochemical activity monitoring; wireless amperometric neurochemical monitoring; wireless real time monitoring; Current measurement; Delta modulation; Frequency shift keying; Integrated circuit measurements; Monitoring; Nervous system; Real time systems; Semiconductor device measurement; Telemetry; Voltage-controlled oscillators; Amperometry; delta–sigma modulator; diamond microelectrode; dopamine; neurochemical monitoring; wireless integrated circuit; Diamond; Dopamine; Electrodes, Implanted; Electronics, Medical; Electrophysiology; Humans; Microelectrodes; Monitoring, Ambulatory; Signal Processing, Computer-Assisted; Telemetry;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2008.2001264
