Title :
Perspectives on MEMS in bioengineering: a novel capacitive position microsensor [and laser surgery and drug delivery applications]
Author :
Pedrocchi, Alessandra ; Hoen, Storrs ; Ferrigno, Giancarlo ; Pedotti, Antonio
Author_Institution :
Dept. of Bioeng., Politecnico di Milano, Italy
Abstract :
We describe a novel capacitive position sensor using micromachining to achieve high sensitivity and large range of motion. These sensors require a new theoretical framework to describe and optimize their performance. Employing a complete description of the electrical fields, the sensor should deviate from the standard geometries used for capacitive sensors. By this optimization, the sensor gains a twofold increase in sensitivity. Results on a PC board 10× model imply that the micromachined sensor should achieve a sensitivity of less than 10 nm over 500-μm range of travel. Some bioengineering applications are addressed, including positioning of micromirrors for laser surgery and dose control for implantable drug delivery systems.
Keywords :
biocontrol; capacitive sensors; drug delivery systems; electrostatic actuators; laser applications in medicine; laser mirrors; micro-optics; micromachining; micropositioning; microsensors; optical control; prosthetics; surgery; MEMS; bioengineering; capacitive position microsensor; dose control; electrostatic actuator; high sensitivity; implantable drug delivery systems; large range of motion; laser beam steering; laser surgery; micromachining; micromirror positioning; optical tweezers; optimization; Biomedical engineering; Biosensors; Capacitive sensors; Drug delivery; Geometry; Laser surgery; Micromachining; Micromechanical devices; Microsensors; Sensor phenomena and characterization; Drug Delivery Systems; Electric Conductivity; Electrodes; Equipment Design; Laser Therapy;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
