Glucose monitoring system based on osmotic pressure measurements. Leal, A., Valente, A., Ferreira, A., Soares, S., Ribeiro, V., Krushinitskaya, O., & Johannessen, E. Sensors and Transducers, 2011.
abstract   bibtex   
This paper presents the design and development of a prototype sensor unit for implementation in a long-term glucose monitoring system suitable for estimating glucose levels in people suffering from diabetes mellitus. The system utilizes osmotic pressure as the sensing mechanism and consists of a sensor prototype that is integrated together with a pre-amplifier and data acquisition unit for both data recording and processing. The sensor prototype is based on an embedded silicon absolute pressure transducer and a semipermeable nanoporous membrane that is enclosed in the sensor housing. The glucose monitoring system facilitates the integration of a low power microcontroller that is combined with a wireless inductive powered communication link. Experimental verification have proven that the system is capable of tracking osmotic pressure changes using albumin as a model compound, and thereby show a proof of concept for novel long term tracking of blood glucose from remote sensor nodes. © 2011 IFSA.
@article{
 title = {Glucose monitoring system based on osmotic pressure measurements},
 type = {article},
 year = {2011},
 keywords = {Continuous,Glucose sensor,Osmosis,Osmotic pressure,Semipermeable membrane},
 volume = {125},
 id = {0d008c38-a0c4-3a5a-86cf-cd89ea4e3262},
 created = {2018-03-01T10:45:10.053Z},
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 last_modified = {2018-03-01T10:45:10.053Z},
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 abstract = {This paper presents the design and development of a prototype sensor unit for implementation in a long-term glucose monitoring system suitable for estimating glucose levels in people suffering from diabetes mellitus. The system utilizes osmotic pressure as the sensing mechanism and consists of a sensor prototype that is integrated together with a pre-amplifier and data acquisition unit for both data recording and processing. The sensor prototype is based on an embedded silicon absolute pressure transducer and a semipermeable nanoporous membrane that is enclosed in the sensor housing. The glucose monitoring system facilitates the integration of a low power microcontroller that is combined with a wireless inductive powered communication link. Experimental verification have proven that the system is capable of tracking osmotic pressure changes using albumin as a model compound, and thereby show a proof of concept for novel long term tracking of blood glucose from remote sensor nodes. © 2011 IFSA.},
 bibtype = {article},
 author = {Leal, A. and Valente, A. and Ferreira, A. and Soares, S. and Ribeiro, V. and Krushinitskaya, O. and Johannessen, E.A.},
 journal = {Sensors and Transducers},
 number = {2}
}
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