Hybrid Modeling and Simulation of Insulin Secretion Pathway in Pancreatic Islets

Yang Pu; Layne T. Watson; Yang Cao; Saangho Lee; David C. Samuels

doi:10.1109/BIBE.2010.34

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BIBE
2010
2010 IEEE International Conference on Bioinformatics and Bioengineering
Abstract - Hybrid Modeling and Simulation of Insulin Secretion Pathway in Pancreatic Islets

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2010 IEEE International Conference on Bioinformatics and Bioengineering

Hybrid Modeling and Simulation of Insulin Secretion Pathway in Pancreatic Islets

Philadelphia, Pennsylvania USA

May 31-June 03

ISBN: 978-0-7695-4083-2

	ASCII Text	x
	Yang Pu, Saangho Lee, David C. Samuels, Layne T. Watson, Yang Cao, "Hybrid Modeling and Simulation of Insulin Secretion Pathway in Pancreatic Islets," 2012 IEEE 12th International Conference on Bioinformatics & Bioengineering (BIBE), pp. 156-161, 2010 IEEE International Conference on Bioinformatics and Bioengineering, 2010.

	BibTex	x
	@article{ 10.1109/BIBE.2010.34, author = {Yang Pu and Saangho Lee and David C. Samuels and Layne T. Watson and Yang Cao}, title = {Hybrid Modeling and Simulation of Insulin Secretion Pathway in Pancreatic Islets}, journal ={2012 IEEE 12th International Conference on Bioinformatics & Bioengineering (BIBE)}, volume = {0}, year = {2010}, isbn = {978-0-7695-4083-2}, pages = {156-161}, doi = {http://doi.ieeecomputersociety.org/10.1109/BIBE.2010.34}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - 2012 IEEE 12th International Conference on Bioinformatics & Bioengineering (BIBE) TI - Hybrid Modeling and Simulation of Insulin Secretion Pathway in Pancreatic Islets SN - 978-0-7695-4083-2 SP156 EP161 A1 - Yang Pu, A1 - Saangho Lee, A1 - David C. Samuels, A1 - Layne T. Watson, A1 - Yang Cao, PY - 2010 VL - 0 JA - 2012 IEEE 12th International Conference on Bioinformatics & Bioengineering (BIBE) ER -

Yang Pu

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/BIBE.2010.34

Insulin secreted by pancreatic islet beta-cells is the principal regulating hormone of glucose metabolism. Disruption of insulin secretion may cause glucose to accumulate in the blood, and result in diabetes mellitus. Although deterministic models of the insulin secretion pathway are available, the stochastic aspect of the biological pathway has not been explored. As a first step in this direction, we present a hybrid model of the insulin secretion pathway, in which the delayed rectifying K+ channels are treated as stochastic events. Simulation results of our hybrid model demonstrate that our model not only can reproduce the bursts of electrical activity as the deterministic model does, but also can be used to predict the magnitude of the total number of the delayed rectifying K+ channels per cell needed in order to prevent the function of this pathway from disruption by stochastic effects. The coupling effect of multiple cells is also studied based on the hybrid model, which shows the synchronization behavior of the cells.

Citation:

Yang Pu, Saangho Lee, David C. Samuels, Layne T. Watson, Yang Cao, "Hybrid Modeling and Simulation of Insulin Secretion Pathway in Pancreatic Islets," bibe, pp.156-161, 2010 IEEE International Conference on Bioinformatics and Bioengineering, 2010

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