electromechanical excitable biological media Nonlinear dynamic waves in

ological experiments. demonstrate good qualitative and quantitative agreement with the results of physitromechanical wave of contraction-relaxation is studied numerically. The results the collagen and elastin fibers. The dynamics of the propagating nonlinear elecgeneration. Passive relaxation forces are mainly due to the elastic properties of chanical coupling concludes intracellular calcium dependent mechanisms of force behavior of each oscillator is based on Hodgkin-Huxley formalism. Electromegating wave of depolarization along the syncytium. The description of electrical Strong connections among oscillators are provided by an intermittent fast propamyogenic syncytium is considered as a continuum of weakly connected oscillators. state) with concurrent development of active forces of contraction-relaxation. The slow oscillatory activity (at the resting state) and spiking activity (at the excited based on electrophysiological and mechanical experimental data demonstrating muscle layer of the gut is formulated. The general assumptions of the model are A mathematical model of electromechanical conjugation in a longitudinal smooth