dc.contributor.author	Krushinitskaya, Olga
dc.date.accessioned	2013-01-17T13:05:59Z
dc.date.accessioned	2013-01-18T04:03:54Z
dc.date.available	2013-01-17T13:05:59Z
dc.date.available	2013-01-18T04:03:54Z
dc.date.issued	2012
dc.identifier.citation	Krushinitskaya, O. (2012). Osmotic sensor for blood glucose monitoring applications (Doctoral thesis at Vestfold University College, [Tønsberg]).
dc.identifier.isbn	978-82-7860-230-0
dc.identifier.issn	1893-9007
dc.identifier.uri	http://hdl.handle.net/11250/149097
dc.description	Papers number 1, 3, 4, 6 and 8 in this thesis are not available in this archive due to publishers' restrictions.
dc.language.iso	eng
dc.relation.ispartofseries	Doctoral theses at Vestfold University College;1
dc.relation.haspart	1. Krushinitskaya, O., Häfliger, P., Vinsand, T., Tønnessen, T. I., Jakobsen, H., & Johannessen, E. A. (2009). Novel Osmotic Sensor for a Continuous Implantable Blood-Sugar Reader 6th International Workshop on Wearable Micro and Nano Technologies for Personalized Health (pHealth) (pp. 25-28): IEEE conference proceedings. doi: 10.1109/PHEALTH.2009.5754830
dc.relation.haspart	2. Krushinitskaya, O., Tenstad, E., Vinsand, T., Tønnessen, T. I., Jakobsen, H., & Johannessen, E. (2009). Osmotic glucose sensor for continuous measurements in vivo. Proceedings of MicroTAS 2009, The 13th International Conference on Miniaturized Systems for Chemistry and Life Sciences, Jeju, South Korea, 1–5 November 2009 (pp. 1654-1655): The Chemical and Biological Microsystems Society. [FULL TEXT BELOW]
dc.relation.haspart	3. Krushinitskaya, O. G., Tønnessen, T. I., Jakobsen, H., & Johannessen, E. A. (2011). Characterization of nanoporous membranes for implementation in an osmotic glucose sensor based on the concanavalin A–dextran affinity assay. Journal of Membrane Science, 376(1-2), 153-161. doi: 10.1016/j.memsci.2011.04.009
dc.relation.haspart	4. Krushinitskaya, O. G., Tønnessen, T. I., Jakobsen, H., & Johannessen, E. (2011). The assessment of potentially interfering metabolites and dietary components in blood using an osmotic glucose sensor based on the concanavalin A-dextran affinity assay. Biosensors & bioelectronics, 28(1), 195-203. doi: 10.1016/j.bios.2011.07.019
dc.relation.haspart	5. Krushinitskaya, O., Tønnessen, T. I., Jakobsen, H., & Johannessen, E. (2009). Osmotic Sensor for Biomedical Research. Proceedings of IMAPS Nordic 2009 (pp. 13-16): IMAPS Nordic. [FULL TEXT BELOW]
dc.relation.haspart	6. Johannessen, E., Krushinitskaya, O., Sokolov, A., Häfliger, P., Hoogerwerf, A., Hinderling, C., . . . Akselsen, B. (2010). Toward an injectable continuous osmotic glucose sensor. Journal of Diabetes Science and Technology, 4(4), 882-892.
dc.relation.haspart	7. Krushinitskaya, O. G., Tønnessen, T. I., Jakobsen, H., & Johannessen, E. (2010). Membrane dynamics of an implantable osmotic glucose sensor. Paper presented at the Diabetes Technology Meeting, Bethesda, Maryland, 11-13 Nov. 2010. [ABSTRACT BELOW]
dc.relation.haspart	8. Leal, A., Valente, A., Ferreira, A., Soares, S., Ribeiro, V., Krushinitskaya, O., & Johannessen, E. A. (2011). Glucose Monitoring System Based on Osmotic Pressure Measurements. Sensors & Transducers Journal, 125(2), 30-41.
dc.title	Osmotic sensor for blood glucose monitoring applications
dc.type	Doctoral thesis

Osmotic sensor for blood glucose monitoring applications

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