Chapter 16 Anatomy & Physiology Fifth Edition Seeley/Stephens/Tate (c) The McGraw-Hill Companies,...
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Transcript of Chapter 16 Anatomy & Physiology Fifth Edition Seeley/Stephens/Tate (c) The McGraw-Hill Companies,...
![Page 1: Chapter 16 Anatomy & Physiology Fifth Edition Seeley/Stephens/Tate (c) The McGraw-Hill Companies, Inc.](https://reader036.fdocuments.us/reader036/viewer/2022062304/56649ec55503460f94bd0d11/html5/thumbnails/1.jpg)
Chapter 16
Anatomy & Physiology
Fifth Edition
Seeley/Stephens/Tate
(c) The McGraw-Hill Companies, Inc.
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The Autonomic System ---simplified
• The peripheral nervous system consist of:– Afferent neurons: from the periphery to CNS,
Reflex loop (sensory - ascending)– Efferent neurons: from the CNS to periphery,
Somatic motors – skeletal muscles
ANS – smooth muscles, cardiac muscle and glands
(motor – descending)• Innervation of these two systems differ:
– Afferent neurons connect directly to CNS through synapses.
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• Efferent neurons of somatic division connect directly from the CNS to the skeletal muscles.
• Efferent neurons of ANS, which have come out from the spinal cord goes through autonomic ganglions.– Preganglionic neuron (myelinated)--- autonomic ganglion ---
postganglionic neuron (unmyelinated)
• There are two types of ANS; sympathetic division and parasympathetic division.– The sympathetic division: preganglionic fibers from the T and
L regions of the spinal cord make ganglia at the synaptic chain ganglia. They usually stimulate tissue metabolism, increases alertness, get ready for emergencies.
– The parasympathetic division: they originate from the brainstem and the S region of the spinal cord. Conserve energies and sedentary. Also digestion.
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• The neuro transmitters of ANS• Recall, the neurotransmitters for the afferent neurons
and somatic efferent neurons is Ach.• In ANS both Ach and norepinephrine (NE), are used.
– Cholinergic neurons use Ach..– Adrenergic neurons use NE.
– In the sympathetic division:• Preganglionic neurons are cholinergic
• Most of the post ganglionic neurons are adrenergic
• While the postganglionic sweat glands, thermoregulaters are cholinergic.
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• In the parasympathetic division
– Both preganglionic and postganglionic neurons are cholingeric (nicotinic or muscarinic), they generally excitatory (sm. muscles), but can be inhibitory (heart).
– There are other neurotransmitters of ANS, such as, fatty acids like prostaglandins and peptides such as, gastrin, somatostatin, dopamine, etc…
• Receptors of ANS
– There are two types:
1. Cholinergic receptors: ( two subtypes)• Nicotinic receptors for nicotine (alkaloid from tobacco).
– Found in postganglionic neurons in the autonomic neurons and skeletal muscles.
• Muscrininc receptors for muscarine ( from mushrooms)– Found in the effector cell responding to Ach.
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• Ach on the nicotinic receptor opens Na+ channels ( excitatory)
• Ach on the muscarinic receptors modulate G-proteins and the response could be either excitatory or inhibitory. Examples,– Ach + muscarine receptor of cardiac muscle is
inhibitory.– Ach + muscarine receptor of smooth muscle is
excitatory.
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2. Adrenergic receptors– NE is released from the adrenergic postganglionic neurons of the
sympathetic division ---- to adrenergic receptors of the effector cells.
– Two types of adrenergic receptors could be found in the same cell, alpha receptors and beta receptors.
– The action of NE on the adrenergic receptors;• modulates G-proteins.• The response could be either excitatory or inhibitory depending
on the tissues. For example:– NE + beta receptor of cardiac muscles is excitatory.– NE + beta receptor of the stomach smooth muscle is inhibitory.
– Both epinephrine and NE can bind to alpha and beta receptors.– Epinephrine binds to alpha or beta receptors equally.– NE binds to alpha more strongly than beta.
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• Dual innervations of organs with sympathetic and parasympathetic divisions with opposing or cooperative effects.
• The sympathetic division has a more general effect than the parasympathetic division, because epinephrine and norepinephrine are released from the adrenal medulla and circulates through the circulatory system.
• Review clinical focus.
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The End.