Title :
Integrated multi-electrode fluidic nitric-oxide sensor and VLSI potentiostat array
Author :
Naware, M. ; Rege, A. ; Genov, R. ; Stanacevic, M. ; Cauwenberghs, G. ; Thakor, N.
Author_Institution :
Dept. of Biomed. Eng., Johns Hopkins Univ. Sch. of Med., Baltimore, MD, USA
Abstract :
Nitric oxide (NO) serves as an important intercellular messenger in the human body, and is mechanistically involved in vascular disease, stroke, chronic hear failure, and epilepsy. We present a multi-electrode NO measurement sensor with integrated microfluidics. An array of carbon-based electrodes detect the spatial and temporal diffusion profile of NO in a PDMS laminar fluidic channel. The array interfaces to a multichannel potentiostatic VLSI system recording the amperometric output in real time, with five orders of magnitude in dynamic range over four scales down to hundreds of picoamperes. The integrated sensor-fluidic-VLSI system is expected to serve as a powerful tool to study the diffusion mechanism of NO under different fluid flow paradigms.
Keywords :
VLSI; amperometric sensors; array signal processing; biodiffusion; biomedical electrodes; biomedical electronics; biosensors; cellular transport; integrated circuit testing; laminar flow; medical signal detection; microelectrodes; microfluidics; microsensors; neurophysiology; nitrogen compounds; NO; VLSI potentiostat array; amperometric measurement; carbon based electrode; chronic hear failure; diffusion mechanism; epilepsy; fluid flow paradigms; human body; integrated microfluidics; integrated multielectrode fluidic NO sensor; integrated multielectrode fluidic nitric oxide sensor; integrated sensor fluidic VLSI system; intercellular messenger; laminar fluidic channel; medical signal detection; multichannel potentiostatic VLSI system; spatial diffusion profile; stroke; temporal diffusion profile; vascular disease; Diseases; Dynamic range; Electrodes; Epilepsy; Fluid flow; Humans; Microfluidics; Real time systems; Sensor arrays; Very large scale integration;
Conference_Titel :
Circuits and Systems, 2004. ISCAS '04. Proceedings of the 2004 International Symposium on
Print_ISBN :
0-7803-8251-X
DOI :
10.1109/ISCAS.2004.1328931
