Title :
An impact sensing platform for spinal cord injury experiments
Author :
Ochoa, M. ; Rahimi, R. ; Ziaie, Babak ; Shi, Ruoyun
Author_Institution :
Sch. of Electr. & Comput. Eng., Purdue Univ., West Lafayette, IN, USA
Abstract :
Real-time measurement of rat/guinea pig spinal cord mechanics during ex vivo experiments remains a nontrivial task due to the small size of the cord and the short impulse duration. To address this issue, we present an inexpensive strain measurement platform. It consists of an array of flexible, Parylene-C-passivated, pointed cantilevers of polyvinyl fluoride (PVDF) that penetrate the wall of an acrylic chamber. When a spinal cord is placed in the chamber and stimulated mechanically, its vibrations translate onto the PVDF cantilevers which in turn generate an electrical signal for recording. Vibrometer experiments of the cantilever reveal a deflection of up to 58 nm at its resonant frequency (~50 kHz). Voltage from a cantilever in a cord phantom has been recorded at two distances from the point of impact, showing 37 mV at 5 mm and 21 mV at 20 mm for a 40 kPa impact pressure.
Keywords :
biomechanics; biomedical measurement; cantilevers; injuries; neurophysiology; phantoms; real-time systems; strain measurement; PVDF cantilevers; Parylene-C-passivated cantilever; acrylic chamber; cantilever voltage; cord phantom; electrical signal; flexible array; impact point; impact sensing platform; polyvinyl fluoride pointed cantilever; pressure 40 kPa; rat/guinea pig spinal cord mechanics; real-time measurement; resonant frequency; short impulse duration; size 20 mm; size 5 mm; spinal cord injury experiment; strain measurement platform; vibrometer experiment; voltage 21 mV; voltage 37 mV; Laser beam cutting; Resonant frequency; Spinal cord injury; Strain; Strain measurement; Vibrations;
Conference_Titel :
SENSORS, 2013 IEEE
Conference_Location :
Baltimore, MD
DOI :
10.1109/ICSENS.2013.6688175
