The lack of scientists equally trained and prepared to understand both mathematics and biology/medicine hampers the development and application of computer simulation methods in biology and neurogastrobiology. Currently, there are no texts for navigating the extensive and intricate field of mathematical and computational modeling in neurogastrobiology. This book bridges the gap between mathematicians, computer scientists and biologists, and thus assists in the study and analysis of complex biological phenomena that cannot be done through traditional in vivo and in vitro experimental approaches.The book recognizes the complexity of biological phenomena under investigation and treats the subject matter with a degree of mathematical rigor. Special attention is given to computer simulations for interpolation and extrapolation of electromechanical and chemoelectrical phenomena, nonlinear self-sustained electromechanical wave activity, pharmacological effects including co-localization and co-transmission by multiple neurotransmitters, receptor polymodality, and drug interactions.Mathematical Modeling and Simulation in Enteric Neurobiology is an interdisciplinary book and is an essential source of information for biologists and doctors who are interested in knowing about the role and advantages of numerical experimentation in their subjects, as well as for mathematicians who are interested in exploring new areas of applications.Contents:Overview of Enteric NeurobiologyMyoelectrical Activity of the Smooth MusclePharmacology of Myoelectrical ActivityPhysicochemical Basis of Synaptic TransmissionNeuronal AssembliesMultiple NeurotransmissionFunctional UnitDynamics of Intestinal PropulsionReadership: Advanced undergraduate and graduate students in mathematical modeling and computational biology; biologists, doctors and mathematicians interested in the application of mathematics in neurobiology; researchers in pharmacology and drug discovery.