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Fig. 12.1 Slow electrical bursting recorded from a mouse islet Provided by J. Ren and L.S. Satin

Fig. 12.1 Slow electrical bursting recorded from a mouse islet Provided by J. Ren and L.S. Satin The Islets of Langerhans, Islam, Md. Shahidul (Ed.) ISBN: 978-90-481-3270-6, Springer.

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Fig. 12.1 Slow electrical bursting recorded from a mouse islet Provided by J. Ren and L.S. Satin

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  1. Fig. 12.1 Slow electrical bursting recorded from a mouse islet Provided by J. Ren and L.S. Satin The Islets of Langerhans, Islam, Md. Shahidul (Ed.) ISBN: 978-90-481-3270-6, Springer

  2. Fig. 12.2 Model simulation of bursting. The model is described in [42] and the computer code can be downloaded from www.math.fsu.edu/~bertram/software/islet The Islets of Langerhans, Islam, Md. Shahidul (Ed.) ISBN: 978-90-481-3270-6, Springer

  3. Fig. 12.3 A Compound islet Ca2+ oscillations measured using fura-2/AM. Reprinted with permission from [79] and [76] The Islets of Langerhans, Islam, Md. Shahidul (Ed.) ISBN: 978-90-481-3270-6, Springer

  4. Fig. 12.4 Three types of oscillations typically observed in islets.Reprinted with permission from [24, 51, 79] The Islets of Langerhans, Islam, Md. Shahidul (Ed.) ISBN: 978-90-481-3270-6, Springer

  5. Fig. 12.5 Schematic diagram illustrating the central hypothesis of the dual oscillator model. Reprinted with permission from [51, 85] The Islets of Langerhans, Islam, Md. Shahidul (Ed.) ISBN: 978-90-481-3270-6, Springer

  6. Fig. 12.6 A 15-second pulse of the muscarinic agonist carbachol (25 μM) synchronizes Ca2+ oscillations in islets maintained in 11.1 mM glucose. Reprinted with permission from [91] The Islets of Langerhans, Islam, Md. Shahidul (Ed.) ISBN: 978-90-481-3270-6, Springer

  7. Fig. 12.7 Mathematical simulation showing that the interaction between a population of model islets and the liver leading to islet synchronization and large insulin oscillations. Reprinted with permission from [105] The Islets of Langerhans, Islam, Md. Shahidul (Ed.) ISBN: 978-90-481-3270-6, Springer

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