The Integrative Action of the Autonomic Nervous System: Neurobiology of HomeostasisCambridge University Press, 4 Ê.¤. 2022 Almost all bodily functions are dependent on activity of the autonomic nervous system – from the cardiovascular system, the gastrointestinal tract, the evacuative and sexual organs, to the regulation of temperature, metabolism and tissue defence. Balanced functioning of each aspect of this system is an important basis of our life and well-being. In this long-awaited second edition, the author, a leading figure in this field, provides an up-to-date and detailed description of the cellular and integrative organization of the autonomic nervous system, covering both peripheral and central aspects. The book exposes modern neurobiological concepts that allow us to understand why this system normally runs so smoothly and why its deterioration has such disastrous consequences. This broad overview will appeal to researchers and advanced undergraduate students of the various biological and medical sciences studying how the autonomic nervous system works and to clinicians and physical therapists whose practice involves systems dependent on autonomic functions. |
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| 1 | |
Interoceptive Afferent Neurons and Autonomic | 34 |
FUNCTIONAL ORGANIZATION OF | 71 |
The Peripheral Sympathetic and Parasympathetic Pathways | 86 |
The Enteric Nervous System | 134 |
Mechanisms in Generation of Motility Patterns | 148 |
TRANSMISSION OF SIGNALS IN | 165 |
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Integrative Action of the Autonomic Nervous System: Neurobiology of Homeostasis Wilfrid Jänig ªÁºÒ§Êèǹ¢Í§Ë¹Ñ§Ê×Í - 2006 |
The Integrative Action of the Autonomic Nervous System: Neurobiology of ... Wilfrid Jänig ªÁºÒ§Êèǹ¢Í§Ë¹Ñ§Ê×Í - 2022 |
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action potentials afferent neurons arterial baroreceptors arterial blood pressure autonomic nervous system autonomic neurons autonomic pathways autonomic systems axons behavior blood vessels brain stem cardiomotor neurons cardiovascular caudal cell bodies central circuits cutaneous vasoconstrictor neurons CVLM DMNX dorsal effector electrical stimulation elicited enteric nervous system excitation excitatory Figure functions ganglia ganglion gastrointestinal tract glands hypothalamus inhibition inhibitory interneurons intestine involved Ja¨nig Jänig lamina located McLachlan mechanisms mediated medulla oblongata motor neurons neural neurons innervating neurons projecting nomic noradrenaline nucleus parasympathetic paravertebral patterns pelvic organs peptide peripheral plexus postganglionic neurons preganglionic axons receptors reflex pathways regulation release respiratory responses rostral RVLM sacral skeletal muscle skin somatic spinal autonomic spinal cord spinal visceral afferent stim Subchapter sudomotor supraspinal sympa sympathetic neurons sympathetic premotor neurons synaptic inputs target organs telencephalon thetic tion transmission transmitter types urinary bladder vagal afferents vasodilation ventrolateral medulla visceral afferent visceral afferent neurons