1 / 28

AUTONOMIC

AUTONOMIC. SYSTEM. NERVOUS. THE AUTONOMIC NERVOUS SYSTEM. Innervates smooth muscle, cardiac muscle and glands Helps to maintain homeostasis Also called the involuntary or visceral motor system. THE AUTONOMIC NERVOUS SYSTEM. Regulation

genero
Télécharger la présentation

AUTONOMIC

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. AUTONOMIC SYSTEM NERVOUS

  2. THE AUTONOMIC NERVOUS SYSTEM • Innervates smooth muscle, cardiac muscle and glands • Helps to maintain homeostasis • Also called the involuntary or visceral motor system

  3. THE AUTONOMIC NERVOUS SYSTEM • Regulation • By brainstem, spinal cord, hypothalamus and parts of the cerebrum

  4. AUTONOMIC GANGLIA AND CIRCUITS • The motor units of the ANS consist of two neurons: • Preganglionic Neuron • Cell body is in the CNS • Synapses with another neuron before reaching the effector • The synapse occurs in an autonomic ganglion outside the CNS • (The somatic motor unit consists of one neuron with its cell body in the CNS and its axon extending to the effector) • Postganglionic Neuron • Extends from the autonomic ganglion in the PNS to the effector

  5. AUTONOMIC GANGLIA AND CIRCIUTS CNS PNS Effector

  6. THE AUTONOMIC NERVOUS SYSTEM PARASYMPATHETIC SYMPATHETIC

  7. DIVISIONS OF THE ANS: The Sympathetic System (see table 14.4) • Fight or flight system activated in emergency situations • Effects: • Increases heart rate • Dilates bronchial tubes and pupils • Constricts blood vessels • Stimulates secretion of epinephrine and norepinephrine from the adrenal gland • Stimulates sweat glands • Inhibits digestion • Aids in ejaculation in males

  8. THE SYMPATHETIC SYSTEM • Neurons • Emerge through the ventral roots of spinal nerves T1 through L2 (thoracolumabar outflow)

  9. THE SYMPATHETIC SYSTEM • Preganglionic Sympathetic Neurons • Preganglionic bodies are in the lateral horns of the spinal cord at the T1 through L2 levels • Preganglionic sympathetic axons are short • Preganglionic fibers pass through the ventral root into the white rami communicantes

  10. THE SYMPATHETIC SYSTEM • Preganglionic Sympathetic Neurons • Preganglionic sympathetic neurons synapse with a postganglionic neuron in the paravertebral chain ganglia • Paravertebral chain ganglia run lateral to the spinal cord on both sides • There are 22 to 23 pair of paravertebral ganglia on both sides of the vertebral column

  11. THE SYMPATHETIC SYSTEM • Preganglionic Sympathetic Neurons • Preganglionic fibers may ascend or descend within the chain to synapse within a ganglion at a different level • Some sympathetic preganglionic fibers pass through the chain ganglion without synapsing • These are called sympathetic splanchnic nerves

  12. THE SYMPATHETIC SYSTEM • Preganglionic Sympathetic Neurons • Sympathetic splanchnic nerves synapse in ganglia anterior to the vertebral column (near the aorta) • These ganglia are called prevertebral or collateral ganglia • Sympathetic splanchnics innervate smooth muscles of the abdominal and pelvic viscera and their blood vessels

  13. THE SYMPATHETIC SYSTEM • Postganglionic Sympathetic Neurons • Post ganglionic sympathetic axons are long • Post ganglionic sympathetic neurons exit the paravertebral ganglia via the gray rami communicantes (unmyelinated) and re-enter the spinal nerve • From here they continue on to the effector (viscera, blood vessels, sweat glands)

  14. THE SYMPATHETIC SYSTEM • All sympathetic preganglionic neurons release acetylcholine as a neurotransmitter (cholinergic) • Sympathetic postganglionic neurons release norepinephrine (adrenergic) with the exception of neurons to blood vessels and sweat glands (cholinergic)

  15. THE SYMPATHETIC SYSTEM • Adrenal Medulla • Preganglionic sympathetic neurons innervate the adrenal medulla • Cause release of epinephrine and norepinephrine into the bloodstream • Has the same effect as the sympathetic system only lasts 5 to 10 times longer

  16. THE SYMPATHETIC SYSTEM • Norepinephrine & Epinephrine • Norepinephrine and epinephrine both have similar effects on the body • Epinephrine has a greater effect on cardiac stimulation, raising B.P. and increasing metabolic rate • Both are secreted by the adrenal medulla in response to sympathetic stimulation • Same effect as stimulating organs via sympathetic nerves only lasts 5 to 10 times longer

  17. THE PARASYMPATHETIC SYSTEM • Effects: • Constricts the pupils and bronchi • Restores gland and digestive system activity • Slows heartrate

  18. THE PARASYMPATHETIC SYSTEM C.N. III • Neurons: • Emerge with the cranial nerves (III, VII, IX and X) • Some emerge with the sacral spinal nerves • Craniosacral outflow C.N. VII C.N. IX • Neuron cell bodies for the fibers traveling with cranial nerves are in the brainstem • Cell bodies for the fibers traveling with the sacral spinal nerves are in the lateral gray horns of spinal levels S2-S4 C.N. X

  19. THE PARASYMPATHETIC SYSTEM • Preganglionic Parasympathetic Neurons • Preganglionic neurons are long • Preganglionic neurons travel from the CNS almost all the way to the effector before synapsing with a postganglionic neuron

  20. THE PARASYMPATHETIC SYSTEM • Postganglionic Parasympathetic Neurons • Postganglionic parasympathetic neurons are short • Postganglionic neurons synapse with preganglionics on or near the effector organ in terminal ganglia (collectively called intramural ganglia) • Postganglionic neurons travel from the terminal ganglia to the effector cells

  21. THE PARASYMPATHETIC SYSTEM C.N. III • Cranial Outflow • With C.N. III, VII, IX and X • Preganglionic fibers travel with each cranial nerve • Postganglionic fibers for C.N. III, VII and IX travel with C.N. X for distribution to the face C.N. VII C.N. IX • Vagus nerve accounts for 90% of all preganglionic parasympathetic fibers in the body • Parasympathetic fibers from the Vagus nerve supply almost every thoracic and abdominal organ C.N. X

  22. THE PARASYMPATHETIC SYSTEM • Sacral Outflow • Axons run from the spinal cord with the ventral rami of S2-S4 • Fibers branch into pelvic splanchnic nerves • Most fibers go on to synapse in intramural ganglia near the effector organ • Pelvic splanchnics innervate the distal large intestine, urinary bladder, ureters and reproductive organs

  23. ANS RECEPTORS • Cholinergic Receptors • Activated by acetylcholine(Ach) • Two types: • Muscarinic • Found on all effector cells stimulated by postganglionic cholinergic fibers (all parasympathetic target organs and some sympathetic) • Nicotinic • Found on motor end plates of skeletal muscle • Found on all postganglionic neurons (sympathetic and parasympathetic) • Found on the hormone producing cells of the adrenal medulla

  24. ANS RECEPTORS

  25. ANS RECEPTORS • Adrenergic Receptors • Activated by epinephrine and norepinephrine • Two types: • Alpha () • Epinephrine has a greater effect on these than norepinephrine • Found on all sympathetic target organs except the heart • Usually stimulatory when NE or Epinephrine binds to them • Beta () • Found in the heart, adipose tissue and most sympathetic organs • Usually inhibitory when either hormone binds to them (except in the heart) • Cause dilation of blood vessels

  26. ANS RECEPTORS

  27. VISCERAL REFLEXES • Visceral Reflex Arcs

More Related