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Drugs Affecting the Nervous System

Drugs Affecting the Nervous System. Jane Bordner , Rn BSN Instructor of Nursing HACC Central Pennsylvania’s Community College Nursing 102 Fall 2012. Nervous System Review. 2 Major divisions CNS PNS. The Central and Autonomic Nervous Systems. Central nervous system (CNS)

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Drugs Affecting the Nervous System

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  1. Drugs Affecting the Nervous System Jane Bordner, Rn BSN Instructor of Nursing HACC Central Pennsylvania’s Community College Nursing 102 Fall 2012

  2. Nervous System Review • 2 Major divisions • CNS • PNS

  3. The Central and Autonomic Nervous Systems • Central nervous system (CNS) • Made up of brain and spinal cord • Receives signals from sensory receptors (vision, pressure, pain, cold, warmth, touch, smell)

  4. The Central and Autonomic Nervous Systems • PNS • 2 Divisions • Somatic- voluntary-conscious control • Autonomic- involuntary-unconscious control • Sympathetic- fight or flight epinephrine/norepinephrine • Parasympathetic- rest or digest • acteylocholine • 2 Types of Nerves • Afferent – to the brain • Efferent-from sensory organs

  5. The Central and Autonomic Nervous Systems (cont’d) • Peripheral nervous system • Afferent nerves—transmit signals to the spinal cord and brain • Efferent nerves—carry impulses from CNS to other parts of body.

  6. Autonomic Nervous System (ANS) • 2 systems often have opposing functions • Stimulate or inhibit • Most organ are innervated by both

  7. Autonomic Nervous System • Sympathetic - Adrenergic • “Fight or Flight”

  8. Sympathetic Nervous System

  9. Autonomic Nervous System • Parasympathetic -Cholinergic • “Rest and Digest”

  10. Parasympathetic Nervous System

  11. Synapses

  12. Neurotransmitters

  13. 1. Message travels along nerve; when it approaches nerve ending a neurotransmitter is released 2. Neurotransmitter is received by next cell 3. Some of neurotransmitter gets reabsorbed 4. When enough neurotransmitter is received by next nerve cell message moves forward

  14. Messenger Molecule (hormone, neurotransmitter, or drug) Cell surface Cell surface Biochemical Response

  15. Sympathetic • Major Neurotransmitters (Catecholamines) • Epinephrine • Norepinephrine • Dopamine

  16. Effects of Sympathetic System • Increase heart rate • Relax bronchial smooth muscles • Pupil dilation • Increased metabolism • Decreased GI motility • Peripheral vasoconstriction

  17. Neuroreceptors • Alpha 1: vasoconstriction of arterioles, relax bladder, eyes, liver • Alpha 2: skeletal blood vessels, pancreas • Beta 1: AV and SA node stimulation = increased heart rate and contraction strength • Beta 2: relaxes smooth muscle of bronchi and uterus • Dopaminergic

  18. Sympathetic Neurotransmitters • Act on alpha, beta, or dopaminergic receptor sites • Example: • Alpha 1 receptors are found in peripheral blood vessels, when stimulated they cause peripheral vasoconstriction which leads to increased BP

  19. Parasympathetic Activity • Major Neurotransmitter (Cholinergic) • Acetylcholine

  20. Parasympathetic Neuroreceptors • Cholinergic receptors • Muscarinic • Both excitation and inhibition • Salivation • Lacrimation • Gastric acid secretion • Slow onset • Nicotinic • Excitation • Fast onset • Short duration

  21. Parasympathetic Effects • Decrease heart rate • Constrict bronchial smooth muscle • Pupil constriction • Increased GI motility • Increased secretions • Increased bladder tone

  22. Nicotinic Alpha Beta Muscarinic 1 2 1 2

  23. Drug Effects • Drug effect depends on: • Specific receptor it interacts with • Number of receptors • Typeof receptors • Drug specificity • Antagonist = Block • Agonist = Stimulate

  24. Drug Effects • Imitateneurotransmitters’ action • Blockneurotransmitters’ action • Enhance or inhibit • synthesis • storage • release • breakdown

  25. Drug Categories • ANS drugs are categorized by • Site of action • Effect • Receptor

  26. Drug Categories • Sympathomimetics • Adrenergics • Sympatholytics • Adrenergic blockers • Parasympathomimetics • Cholinergics • Parasympatholytics • Cholinergic blockers

  27. SympathomimeticsAKAAdrenergic Agents

  28. Sympathomimetics/ Adrenergic Agents • Catecholamines • Noncatecholamines • Primary Actions • Increase heart rate • Increase BP • Relax bronchial smooth muscle • Relax GI tract • Coronary artery vasodilation • Peripheral vascular vasoconstriction

  29. Catecholamines • Stimulate alpha and betareceptors • Mimic action of epinephrine, norepinephrine, and dopamine • Examples: • dobutamine HCL (Dobutrex, Intropin, Dopastat ) • Epinephrine (Adrenalin, EpiPen ) • Norepinephrine (Levophed) • isoproterenol HCL (Isuprel)

  30. Catecholamines • Uses • Severe hypotensive crisis • Cardiac arrest • Anaphylactic shock • Special considerations • Destroyed by digestive enzymes

  31. “Cat”echolamines • Side Effects • Severe throbbing headache • Dizziness • Anxiety • Fear • Palpitations • Hypertension

  32. Noncatecholamines • Similar responses • More receptor selective • Slower acting • Longer lasting • Can be given PO • Usually given SC or by inhaler

  33. Noncatecholamines • Examples • albuterol (Proventil) • metaproterenol sulfate (Alupent) • terbutaline (Brethine) • phenylephrine HCL (Neo-Synephrine) • Uses • Bronchospasm (Asthma/Emphysema) • Nasal congestion • Preterm labor

  34. Bronchoconstriction

  35. Noncatecholamines • Side Effects • Tachycardia • Palpitations • Tremors • Hypertension • Headache • Anxiety

  36. Adrenergic Agents • Nursing Measures • Monitor VS frequently • Monitor breath sounds • Monitor blood glucose in Diabetic

  37. SympatholyticsAKAAdrenergic blockers

  38. Adrenergic Blocking Agents • AKA • Sympatholytics • Antiadrenergics • Antagonisticeffect • Classified by site of action • Alpha Adrenergic Blockers • Beta Adrenergic Blockers

  39. Alpha Adrenergic Blocking Agents • Action • Relax smooth muscle • Peripheral vasodilation • Uses • Antihypertensives • Vascular H/A • Raynaud’s Disease • Buerger’s Disease

  40. Alpha Adrenergic Blocking Agents • Side Effects • Hypotension • Tachycardia • Dizziness • H/A • Nursing Actions • Postural BP • Teach to avoid caffeine

  41. Alpha Adrenergic Blocking Agents • Examples • ergotamine tartrate (Ergostat) • Inhaler, PO or SL • Treat migraine H/A • phenoxybenzamine HCL (Dibenzyline) • Antihypertensive • Treat Raynaud’s Disease • doxazosinmesylate (Cardura) • prazosin HCL (Minipress) • terazosin (Hytrin) • Arteriole and venous vasodilation lower BP

  42. Beta Adrenergic Blocking Agents • AKA • Beta Blockers • Most widely usedgroup • Beta 1receptors = heart • Beta 2receptors = bronchi and blood vessels • Mixed= Nonselective blocking agents

  43. Beta Adrenergic Blocking Agents • Effect • Lower HR • Decrease BP • Constrict pupil • Decrease production of aqueous humor • Uses • Cardiac Arrhythmias • HTN • Angina • Glaucoma

  44. Beta Adrenergic Blocking Agents • Mixed • *labetalol (Normodyne) • Selective Beta-1 • esmolol (Brevibloc) • *metoprolol (Lopressor/Toprol XL/Betaloc ) • acebutolol (Sectral) • betaxolol (Kerlone) • bisoprolol (Zebeta) • *atenolol (Tenormin) • Non-selective Beta-1 and Beta-2 • *propranolol (Inderal) • *nadolol (Corgard) • pindolol (Visken) • carteolol (Cartrol ) • *sotalol (Betapace) • Timolol (Blocadren/Timoptic ) • penbutolol (Levatol) * Most commonly used

  45. Beta Adrenergic Blocking Agents • Treatment of Glaucoma • Decrease IOP by decreasing production of aqueous humor • betaxolol (Betoptic) • timololmaleate (Timoptic) • levobunolol HCL (Betagan) • Can cause systemic side effects

  46. Beta Adrenergic Blocking Agents • Side Effects • Hypotension • Bradycardia • Dizziness • Insomnia • Wheezing and Bronchospasm

  47. Beta Adrenergic Blocking Agents • Nursing Measures • Never give with antacid • Check apical pulse for one minute before administering • Closely monitor blood glucose in diabetic pt. • Teach pt. to not discontinue abruptly

  48. ParasympathomimeticsAKACholinergics

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