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octopamine/moždani udar
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The Role of the Cardioregulatory Nerves in Mediating Heart Rate Responses to Locomotion, Reduced Stroke Volume, and Neurohormones in Homarus americanus.
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Control of decapod crustacean heart activity is believed to be dependent on the regulation of the cardiac ganglion by external input from the central nervous system as well as by circulating neurohormones. This study investigated the roles of these inputs on the heart rates of lobsters exercising on
Modulation of the crayfish swimmeret rhythm by octopamine and the neuropeptide proctolin.
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1. The swimmeret system can be excited by perfusing the neuropeptide proctolin through the isolated ventral nerve cord of the crayfish. Previously silent preparations begin to generate a characteristic motor pattern, the swimmeret rhythm, in the nerves that innervate the swimmerets. The response to
Ontogeny of neurohormonal regulation of the cardiovascular system in the crayfish Procambarus clarkii.
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Adult crayfish have a neurogenic heart which is modulated via inputs from the central nervous system and neurohormones, which act on the cardiac ganglion or directly on the myocardium. This study investigates the ontogeny of cardiac regulation by exploring the temporal sequence of cardiac
State-changes in the swimmeret system: a neural circuit that drives locomotion.
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The crayfish swimmeret system undergoes transitions between a silent state and an active state. In the silent state, no patterned firing occurs in swimmeret motor neurons. In the active state, bursts of spikes in power stroke motor neurons alternate periodically with bursts of spikes in return
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