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AUTONOMIC NERVOUS SYSTEM PART OF EFFERENT DIVISION OF PERIPHERAL NERVOUS SYSTEM ANATOMY OF THE ANS • PRESYMPATHETIC NEURON -- CELL BODY IN CNS • POSTSYMPATHETIC NEURON --CELL BODY IN PERIPHERAL NERVOUS SYSTEM • AUTONOMIC PLEXUS PARASYMPATHETIC VS SYMPATHETIC DIVISIONS EMBRYONIC DEVELOPMENT SYMPATHETIC DIVISION • • • • LOCATED IN LATERAL HORNS IN GRAY MATTER T-1 TO L-2 THORACOLUMBAR LEAVES SPINAL CORD THROUGH VENTRAL ROOMS • ENTER VENTRAL RAMI OF SPINAL NERVES • ENTER SYMPATHETIC CHAIN GANGLIA • SYMPATHETIC TRUNKS SYMPATHETIC NERVOUS SYSTEM • RAMI COMMUNICANTES – WHITE – GRAY SYMPATHETIC CHAIN GANGLIA • PARAVERTERBRAL GANGLIA • SYMPATHETIC TRUNK • WHITE RAMI COMMUNICANTES – MYELINATED – CARRY IMPULSES FROM SPINAL NERVE TO CHAIN GANGLIA • GRAY RAMI COMMUNICANTES FATE OF PREGANGLIONIC NEURONS UPON ENTERING SYMPATHETIC CHAIN GANGLIA MAY SYNAPSE WITH POSTGANGLIONIC IN SYMPATHETIC CHAIN GANGLIA AT THE SAME LEVEL • RETURN TO SPINAL NERVE TO INNERVATE EFFECTORS. GRAY RAMI COMMUNICANTES ARE FORMED BY UNMYELINATED POSTGANGLIONIC AXONS AS THEY PASS FROM CHANIN GANGLIA TO SPINAL NERVES MAY TRAVEL UP OR DOWN WITHIN SYMPATHETIC TRUNKS BEFORE SYNAPSING WITH POSTGANGLIONIC NEURONS THAT SUPPLY EFFECTORS IN SKIN, HEAD, OR THORAX MAY PASS THROUGH SYMPATHETIC CHAIN GANGLIA WITHOUT SYNAPSING AND SYNAPSE WITH POSTGANGLIONIC NEURONS IN COLLATERA GANGLIA • SUPPLY VISCERA OF ABDOMINOPELVIC CAVITY PARASYMPATHETIC SYSTEM PARASYMPATHETIC DIVISION • PREGANGLIONIC NEURON CELL BODIES LOCATED IN BRAIN NUCLEI OR IN LATERAL PORTIONS OF GRAY MATTER IN SPINAL CORD (S-2 THROUGH S-4) • FIBERS DO NOT TRAVEL THROUGH RAMI OF SPINAL NERVE • DO NOT INNERVATE SWEAT GLANDS, ARRECTOR PILI, AND CUTANEOUS BLOOD VESSEL • MOST BLOOD VESSELS ARE NOT INNERVATED BY PARASYMPATHETIC PREGANGLIONIC PARASYMPATHETIC AXONS IN CRANIAL NERVES • III,VII,IX AND X • SYNAPSE WITH POSTGANGLIONIC NEURONS IN GANGLIA • NEAR STRUCTURES INNERVATED SACRAL PREGANGLIONIC PARASYMPATHETIC AXONS • LEAVE VENTRAL ROOTS OF SPINAL NERVES • FORM A PELVIC NERVE THAT SUPPLIES VISCERA OF PELVIC CAVITY ANATOMICAL DIFFERENCES BETWEEN THE DIVISIONS • LOCATION OF PREGANGLIONIC NEURON CELL BODIES • FIBER LENGTH LOCATION OF PREGANGLIONIC NEURON CELL BODIES • SYMPATHETIC --- LATERAL HORNS OF SPINAL CORD GRAY MATTER FROM T-1 TO L-2 • PARASYMPATHETIC --- BRAIN STEM AND LATERAL HRONS OF SPINAL CORD GRAY MATTER FROM S-1 THROUGH S-4 FIBER LENGTH • SHORT SYMPATHETIC PREGANGLIONIC AXONS-LONG SYMPATHETIC POSTGANGLIONIC AXONS • LONG PARASYMPATHETIC PREGANGLIONIC AXONS-SHORT PARASYMPATHETIC POSTGANGLIONIC AXONS NEUROTRANSMITTERS OF THE AUTONOMIC NERVOUS SYSTEM EPINEPHRINE VS NOREPINEPHRINE SITES FOR RELEASE OF ACETYLCHOLINE IN THE PERIPHERAL NERVOUS SYSTEM • NEUROMUSCULAR JUNCTIONS • ALL PREGANGLIONIC NEURONS IN ANS • ALL PARASYMPATHETIC POSTGANGLIONIC NEURONS • SYMPATHETIC POSTGANGLIONIC NEURONS INNERVATING SWEAT GLANDS SITES FOR RELEASE OF NOREPINEPHRINE IN THE PERIPHERAL NERVOUS SYSTEM • MOST SYMPATHETIC POSTGANGLIONIC NEURONS • ADRENAL MEDULLA RECEPTORS OF THE AUTONOMIC NERVOUS SYSTEM • CHOLINERGIC NICOTINIC MUSCARINIC • ANDRENERGIC ALPHA 1 ALPHA 2 BETA 1 BETA 2 NICOTINIC RECEPTORS • NICOTINE MIMICS EFFECTS • PRESENT ON POSTGANGLIONIC NEURONS IN GANGLI OF THE ANS • ALSO ON SKELETAL MUSCLE AT NEUROMUSCULAR JUNCTIONS • CHANNEL LINKED RECEPTORS • BLOCKED BY TETRAETHYLAMMONIUM--IN AUTONOMIC GANGLIA • BLOCKED BY CURARE--AT NEUROMUSCULAR JUNCTION MUSCARINIC RECEPTORS • MUSCARINE MIMICS EFFECTS • ON EFFECTORS SUPPLIED BY PARASYMPATHETIC POSTGANGLIONIC RECEPTORS • G PROTEIN LINKED RECEPTORS • BLOCKED BY ATROPINE ANDRENERGIC RECEPTORS • • • • ALPHA BETA ALL ARE G LINKED RECEPTORS NON CHANNEL LINKED RECEPTORS NOREPINEPHRINE • BINDS WITH – – – – ALPHA 1-- EFFECTIVELY ALPHA 2 -- EFFECTIVELY BETA 1-- EFFECTIVELY BETA 2 --WEAKLY IF AT ALL EPINEPHRINE • BINDS EFFECTIVELY WITH – – – – ALPHA 1-- EFFECTIVELY ALPHA 2 -- EFFECTIVELY BETA 1-- EFFECTIVELY BETA 2 --EFFECTIVELY ALPHA 1 RECEPTORS • MOST COMMON ALPHA RECEPTOR • ACTIVATES G PROTEINS • G PROTEINS ACTIVATE ENZYMES ALPHA 2 RECEPTORS • LESS COMMON THAN ALPHA 1 • ACTIVATES INHIBITORY G PROTEINS • REDUCE THE FORMATION OF cyclic AMP BETA 1 RECEPTORS • HEART AND KIDNEYS • ACTIVATES G PROTEINS • STIMULATES PRODUCTION OF cyclic AMP BETA 2 RECEPTOR • MOST COMMON BETA RECEPTOR • ACTIVATES STIMULATORY G PROTEINS IMPORTANCE OF DIFFERENT RECEPTORS • AT LEAST PARTIALLY RESPONSIBLE FOR DIFFENCE IN ACTIVITY OF EPINEPHRINE AND NOREPINEPHRINE FUNCTIONS OF THE AUTONOMIC NERVOUS SYSTEM • DUAL INNERVATION • FREQUENTLY (BUT NOT ALWAYS) HAVE OPPOSITE ACTIONS • MOSTS ORGANS ARE PREDOMINANTLY CONTROLLED BY ONE DIVISION OR THE OTHER PARASYMPATHETIC • HOUSEKEEPING FUNCTIONS • MAINTAINING BODY FUNCTIONS UNDER CALM CONDITIONS • INDIVIDUAL ACTIVATION OF INDIVIDUAL ORGANS SYMPATHETIC • FIGHT OR FLIGHT • HANDLES EMERGENCIES • WIDESPREAD ACTIVATION EXAMPLES OF ORGANS INNERVATED BY ANS • • • • • • • • HEART BRONCHIOLES BRONCHIAL GLANDS IRIS OF EYE CILIARY MUSCLE SWEAT GLANDS URINARY BLADDER BLOOD VESSELS HEART • SYMPATHETIC • INCREASE RATE OF CONTRACTION • PARASYMPATHETIC • DECREASE RATE OF CONTRACTION BRONCHIOLES • SYMPATHETIC • DILATION • PARASYMPATHETIC • CONSTRICTION BRONCHIAL GLANDS • SYMPATHETIC • POSSIBLE INHIBITION OF SECERETION • PARASYMPATHETIC • STIMULATION OF SECRETION IRIS OF EYE • SYMPATHETIC • PARASYMPATHETIC • DILATION OF PUPIL • CONSTRICTION OF PUPIL • CONTRACTION OF RADIAL MUSCLES • CONTRACTION OF CIRCULAR MUSCLES CILIARY MUSCLE • SYMPATHETIC • SLIGHT RELAXATION • PARASYMPATHETIC • CONTRACTION • ACCOMODATES FOR NEAR VISION URINARY BLADDER • SYMPATHETIC • RELAXATION • PARASYMPATHETIC • CONTRACTION BLOOD VESSELS • • • • • SYMPATHETIC CONSTRICTION SKIN SALIVARY GLANDS ABDOMINAL VISCERA • EXTERNAL GENITALIA • PARASYMPATHETIC • EXTERNAL GENITALIA ADRENAL MEDULLA • SYMPATHETIC • STIMULATION OF SECRETION • PARASYMPATHETIC • NO EFFECT LIVER • SYMPATHETIC • INCREASED RELEASE OF GLUCOSE • PARASYMPATHETIC • NO EFFECT SWEAT GLANDS • SYMPATHETIC • STIMULATION OF SECRETION • PARASYMPATHETIC • NO EFFECT THE AUTONOMIC NERVOUS SYSTEM AND SENSORY INPUTS • ACTIVITIES OF ANS ARE MOTOR ONLY • NEED INPUT FROM SENSORY SYSTEM • TO MONITOR BODY FUNCTIONS AS A WHOLE AND INDIVIDUAL ORGANS • ENTEROCEPTIVE RECEPTORS • BELOW CONSCIOUS LEVEL CONTROL OF THE AUTONOMIC NERVOUS SYSTEM • GENERALLY BELOW OUR CONSCIOUS CONTROL • UNDER CERTAIN CIRCUMSTANCES VOLUNTARY CONTROL IS POSSIBLE – DUE TO CONNECTIONS BETWEEN ANS AND CNS – PRIMARILY IN BRAIN STEM AND SPINAL CORD BIOFEEDBACK MECHANISMS • EXERCISES MODIFY BODY FUNCTIONS • VISUALIZATION • RECITATION MEDITATION AND THE ANS • • • • YOGA MEDITATION BREATHING THERAPY INHIBITS SYMPATHETIC NERVOUS SYSTEM DRUGS AND THE ANS • MEDICINAL • SUBSTANCE ABUSE MEDICINAL DRUGS • SYMPATHOMIMETIC • SYMPATHOLYTIC • PARA SYMPATHOMIMETIC DRUGS • ANDRENERGIC DRUGS THAT STIMULATE SYMPATHETIC NERVOUS SYSTEM • EITHER NATURAL OR MAN MADE • EPINEPRINE • EPINEPHRINE • ISOPROTERENOL • DOPAMINE • EPHEDRINE • TERBUTALINE • PHENYLEPHRINE EPINEPHRINE • • • • ALPHA AND BETA RECEPTORS ANAPHYLACTIC SHOCK ASTHMA BRONCHOSPASM NOREPINEPHRINE • ALPHA AND BETA RECEPTORS • ELEVATE BLOOD PRESSURE IN HYPOTENSION • ADMINISTERED INTROVENOUSLY • LIMITED USES DUE TO SIDE EFFECTS ISOPROTERENOL • LIMITED USE DUE TO POOR ABSORPTION IN GI TRACT • ADMINISTERED SUBLINGUALLY OR AS NASAL SPRAY FOR SOME CARDIAC ARRYTHMIAS DOPAMIME • PRECURSOR FOR NOREPINEPHRINE • LOW DOSAGES ACTIVATES BETA RECEPTORS • HIGHER DOSAGES ACTIVATES ALPHA RECEPTORS • USED FOR HYPOTENSION AND RESISTANT CONGESTIVE HEART FAILURE EPHEDRINE, TERBUTALINE, AND PHENYLEPHRINE • EPHEDRINE – SIMILAR TO EPINEPHRINE – SLOWER TO BEGIN WORKING – LAST LONGER • TERBUTALINE – BETA RECEPTOR – LITTLE CARDIAC STIMULATION • PHENYLEPHRINE – CAUSES NASAL CONSTRICTION – USED IN COLD MEDICATIONS SYMPATHOLYTIC • ANDRENERGIC BLOCKING DRUGS • REDUCE OR BLOCK EFFECTS OF SYMPATHETIC NERVOUS SYSTEM • ALPHA BLOCKING AGENTS • BETA BLOCKING AGENTS ALPHA BLOCKING AGENTS • LIMITED USES MEDICALLY – RAYNAUD’S DISEASE – AFTER FROSTBITE – ATERIOSCLEROSIS OBLITERANS • VASODILATOR • TALOZOLINE • PHENTOLAMINE BETA BLOCKING AGENT • PRODUCES EFFECTS IN CARDIOVASCULAR SYSTEM • REDUCE HEART RATE • REDUCE MYOCARDIAL CONTRACTION • REDUCED STROKE VOLUME • REDUCES CARDIAC OUTPUT AND OXYGEN CONSUMPTION • LOWERS BLOOD PRESSURE OVER LONG HAUL • PROPANOLOL PARASYMPATHOMIMETIC • CHOLINERGIC DRUGS • VASODILATES PERIPHERAL BLOOD VESSELS • CHOINE ESTERS • CHOLINERGIC ALKALOIDS • ANTICHOLINESTERASES CHOLINE ESTERS • BETHANECHOL • INCREASES MOTILITY OF BOWEL AND BLADDER CHOLINERGIC ESTERS • PILOCARPINE • CONSTRICTS PUPIL IN TREATMENT OF GLAUCOMA ANTICHOLINESTERASES • PHYSOSTIGIMINE – REVERSES EFFECTS OF ATROPINE POISONING • EDROPHONIUM CHLORIDE – MYASTHENIA GRAVIS DIAGNOSIS • BLOCK ENZYME • PROLONG ACTION OF AC h PARASYMPATHOLYTIC DRUGS • ATROPINE – – – – – PLANT ALKALOID (NIGHTSHADE) PUPIL DILATION FAST HEART RATE REDUCES SECRETION OF EXOCRINE GLANDS RELAXES SMOOTH MUSCLE • ANTICHOLINERGIC • OPPOSES ACTION OF ACETYLCHOLINE
