Authors:
L. R. Silva
;
P. J. Sousa
;
L. M. Goncalves
and
G. Minas
Affiliation:
University of Minho, Portugal
Keyword(s):
Pressure Sensor, Intraluminal Pressure, GI Disorders, Strain Gauges.
Related
Ontology
Subjects/Areas/Topics:
Biomedical Engineering
;
Biomedical Equipment
;
Biomedical Instrumentation
;
Biomedical Instruments and Devices
;
Biomedical Sensors
;
Devices
;
Health Monitoring Devices
;
Human-Computer Interaction
;
Physiological Computing Systems
Abstract:
This paper reports an innovative technique to measure intraluminal pressure in the gastrointestinal tract (GI), which is typically performed through an exam called oesophageal manometry. This type of measurement is performed with a catheter, comprising several pressure sensors along it, and gives important information for the diagnosis of motility and peristalsis disorders in the GI tract. The presented work explores the use of PDMS polymer (Polydimethylsiloxane) as the support material for the pressure sensors. These PDMS layers are placed in the pressure measurements sites of the catheter. The presented work also explores different materials for the metal strain gauges that act as the pressure sensors. Due to the microfabrication techniques, the presented pressure sensors allow on-chip integration (with other microsensors for GI diagnosis), and its pressure measurements will add essential diagnostic information, not only for the GI motility and peristalsis disorders, but also in th
e early cancer detection. The initial mechanical tests showed promising results for the intended application. After optimization of the fabrication process, different experiments are scheduled for simulating the pressure signals that would occur in vivo conditions. In summary this method will permit high integration and good sensitivity measurement, while maintaining low fabrication costs.
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