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Chapter 7 The Peripheral Nervous System: Efferent Division V edit. Pg. 237-255 VI edit. Pg. 233-251 VII edit. Pg. 237-255 Nervous System Central Nervous System (CNS) Brain, Spinal Cord Peripheral Nervous System (PNS) Cranial/Spinal Nerves Organization of the Nervous System © Brooks/Cole - Thomson Learning Peripheral Nervous System Somatic Nervous System Consist of cranial and spinal nerves innervating skeletal muscles Autonomic Nervous System Consist of nerve fibers innervating visceral organs Differences between autonomic and somatic nervous systems Somatic Nervous System Autonomic Nervous System Carry motor information out of the NS Regulate autonomous body functions Efferent motor fibers originate in brain stem or spinal cord Efferent fibers originate in brain stem or spinal cord There is only one efferent neuron innervating the effector organ (skeletal muscles) There are two efferent neurons innervating the effector organ (visceral organs) Motor nerve fibers release acetylcholine which acts on nicotinic ACh receptors Efferent fibers release two types of neurotransmitters (see difference between sympathetic and parasympathetic systems) Efferent Output in the Autonomic Nervous System: Two-Neuron Chain (Brain stem or Spinal cord) (Visceral organ) © Brooks/Cole - Thomson Learning Functional Division Between Autonomic Nervous System Sympathetic System Parasympathetic System Mediate fight or flight responses Mediate rest or digest responses Autonomic Nervous System: Sympathetic and Parasympathetic Branches Sympathetic efferent fibers originate in the thoracic/lumbar segments of the spinal cord (blue) Parasympathetic fibers originate in brain stem and sacral portion of spinal cord (red) Origin of Sympathetic Preganglionic Fibers in Spinal Cord Sympathetic autonomic ganglia run along the spinal cord (sympathetic ganglion chain or trunk) Parasympathetic ganglia is located near the effector organ Preganglionic neurons and parasympathetic postganglionic fibers release acetylcholine (ACh) Sympathetic postganglionic fibers release noradrenaline (norepinephrine, NE) Acetylcholine (ACh) acts on two type of receptors: muscarinic or nicotinic mAChR nAChR nAChR mAChR 1) Nicotinic AChR (nAChR): found on postganglionic neurons. Ligandgated receptors 2) Muscarinic AChR (mAChR): found on the effector organs innervated by parasympathetic fibers. G-protein coupled receptors Noradrenaline acts on two types of receptors: Adrenergic Receptors Adrenergic receptors (AR): G protein coupled receptors 1) Alpha AR: a1, a2 (NA binding > A binding) 2) Beta AR: b1, b2 b1, NA binding=A binding b2, NA binding < A binding Arteries Heart Airways http://www.medmovie.com/2003demos/alphav12.swf The Adrenal Medulla (a modified component of the sympathetic nervous system) 1) The adrenal medulla is the inner component of the adrenal gland ACh nAChR 2) Preganglionic fibers release ACh that binds to nAChR to release NA (20%) and A (80%) into the circulation The adrenal medulla is a modified sympathetic ganglion found in the adrenal gland that releases adrenaline and noradrenaline into the general circulation Functional Division Between Autonomic Nervous System Sympathetic System Parasympathetic System Mediate fight or flight responses Mediate rest or digest responses Sympathetic System Parasympathetic System Flight or fight response Rest or digest response Autonomic fibers originate from thoracic and lumbar spinal segments Autonomic ganglion is located near the spinal cord, far from effector organ Postganglionic fibers release noradrenaline Autonomic fibers originate from brain stem and sacral spinal segments Autonomic ganglion is located far from the spinal cord, near the effector organ Postganglionic fibers release acetylcholine Eye Lacrimal gland Parotid gland Nasal mucosa Sympathetic Salivary glands Spinal nerves Sympathetic trunk Liver Splanchino nerves Adrenal gland Tonic activity Dual innervation of Parasympathetic visceral organs by Trachea the sympathetic Lung Cranialand nerves parasympathetic systems (except Heart blood vessels, Stomach sweat glands, salivary glands) Gall bladder Pancreas Spleen Sympathetic preganglionic fiber Sympathetic postganglionic fiber Spinal nerves Kidney Small intestine Colon Rectum Urinary bladder Genitalia Parasympathetic preganglionic fiber Parasympathetic postganglionic fiber Autonomic Control of Pupilary Reflex http://www.drugs.com/mtm/atropine_ophthalmic.html Autonomic Control of Lens: Accommodation To focus on a distant object To focus on a close object Fight or Flight Response Stress Danger Increase heart beats (b1) Increase blood pressure (Vasoconstriction, a1) Increase air flow into airways (b2) Release of glycogen into blood stream Dilation of skeletal blood vessels (a2) Dilation of pupils Increase sweating (ACh) Down regulation of digestion and urinary activity How does the heart and blood vessels respond to activation of the sympathetic nervous system? Sympathetic NS b1 Heart Blood vessels a2 a1 http://www.ac-creteil.fr/biotechnologies/doc_heartregulation.htm http://www.cvphysiology.com/Blood%20Pressure/BP010.htm Increase contraction of muscles in wall of heart: increase pumping force Increase dilation of skeletal blood vessels: bring more blood to muscles Vasoconstriction: reduce blood supply to skin Peripheral Nervous System Somatic Nervous System Consist of cranial and spinal nerves innervating skeletal muscles Autonomic Nervous System Consist of nerve fibers innervating visceral organs The Somatic Nervous System Somatic motoneurons innervate skeletal muscles Skeletal muscles consist of individual muscle fibers (cells) Cross section of a muscle Motor Unit: consist of all muscle fibers innervated by one motor neuron Neuromuscular Junction © Brooks/Cole - Thomson Learning Generation of End Plate Potential Action potential arrives at nerve terminal Ca entry into nerve terminal Release of acetylcholine into synaptic cleft Binding of Ach to Ach receptors at the motor end plate Generation of action potential in muscle fiber http://www.blackwellpublishing.com/matthews/myosin.html http://www.blackwellpublishing.com/matthews/nmj.html Termination of neuromuscular activity The enzyme acetylcholinesterase breakdowns acetylcholine © Brooks/Cole - Thomson Learning Electrical Activity at the Neuromuscular Junction Electromyogram: A test used to record the electrical activity of muscles. When muscles are active, they produce an electrical current that is usually proportional to the level of muscle activity. An electromyogram (EMG) is also called a myogram. The electromyogram can be use to detect changes in the motor unit Normal Motor neuron disease Fibrillations Muscle fiber disease Fasciculation Drugs Affecting Neuromuscular Transmission Curare: Bind to nAChR Black widow spider venom: Stimulate ACh release Botulinum toxin: Block release of ACh
