Title :
CMOS-Based Tactile Microsensor for Medical Instrumentation
Author :
Tomi Salo;Kay-Uwe Kirstein;Tobias Vancura;Henry Baltes
Author_Institution :
Phys. Electron. Lab., Swiss Fed. Inst. of Technol., Zurich
Abstract :
This paper presents a novel tactile sensing device aimed at a variety of medical instrumentation applications, including extravascular blood pressure monitoring, distinguishing a coronary artery from a nearby running cardiac vein, and locating the site of a coronary occlusion. The monolithically integrated microsensor is fabricated using an industrial CMOS process with a limited number of postmicromachining steps. Using the tonometric principle, an array of membrane capacitors can detect and monitor the pulsatile pressure variations inside a blood vessel
Keywords :
"Microsensors","Instruments","Biomedical monitoring","Blood pressure","Arteries","Veins","Textile industry","CMOS process","Biomembranes","Capacitors"
Journal_Title :
IEEE Sensors Journal
DOI :
10.1109/JSEN.2006.886902
