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Cardiac Medications Anticoagulants Anti platelet agents Ace inhibitors

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1 Cardiac Medications Anticoagulants Anti platelet agents Ace inhibitors
Angiotensin 2 receptor blockers Beta blockers Combined beta and alpha blockers Calcium channel blockers Cholesterol lowering medications Digitalis diuretics

2 Direct Adrenergic Antagonists
Alpha blockers Beta blockers Alpha plus beta blockers

3 Adrenergic Receptor Responses to Stimulation
LOCATION RECEPTOR RESPONSE Cardiovascular Blood vessels alpha1 and beta2 Constriction / dilation Cardiac muscle beta1 Increased contractility AV Node beta1 Increased heart rate SA Node beta1 Increased heart rate

4 Muscle beta2 Decreased motility Sphincters alpha1 Constriction
LOCATION RECEPTOR RESPONSE Gastrointestinal Muscle beta2 Decreased motility Sphincters alpha1 Constriction

5 Bladder alpha1 Constriction sphincter Penis alpha1 Ejaculation
LOCATION RECEPTOR RESPONSE Genitourinary Bladder alpha1 Constriction sphincter Penis alpha1 Ejaculation Uterus alpha1 and beta2 Contraction/ relaxation

6 Bronchial beta2 Dilation/relaxation muscles
LOCATION RECEPTOR RESPONSE Respiratory Bronchial beta2 Dilation/relaxation muscles

7 Alpha selective Blockers
Divided into alpha1 and alpha2 receptors Differentiated by their location on nerves 1 selective: (ends with –sin or –cin) Prazosin, Terazosin Doxazocin, Tamsulocin 2 selective: (inhibits Negative feedback) Yohimbine

8 Alpha 1 blockers Effects: Blocks vaso- and aterioconstriction  vasodilation and arteriodilaton  Decrease in Blood pressure. Blocks alpha receptors in the eye (pupillary dilator muscle)  Miosis Reduces Bladder tone and allows for more motility (especially in patients with Urinary retention, BPH)

9 Alpha 1 blockers Uses/Side effects
Drugs  Arteriodilation, used in Raynauld’s Phenomenon  Increase Urinary Motility, used in Urinary rentention or BPH (Prazosin/Tamsulosin is most commonly used in BPH) Side effects: Nasal Congestion, Hypotension

10 2 selective blockers Yohimbine Prevents Negative feedback  Increased Release of Epinephrine and Norepinephrine Claimed to be an Aphrodisiac Potential uses: Impotence, Co-administrated with drug induced sexual dysfuction

11 Alpha Blockers (non-selective)
Phenoxybenzamine (Non-competitive) Phentolamine (competitive)

12 Phenoxybenzamine Non-competitive alpha adrenergic antagonist.
Net effect: α 1 blockage > α 2 blockage Uses: malignant HTN, Pheochromocytoma, HTN 2° to Clonidine Withdrawal, Cheese Reaction

13 Phentolamine Non-selective Competitive Alpha Blocker
Used in HTN, Cocaine induced HTN. Decreases the workload of the heart, and decreases the risk of MI

14 Competitve Antagonist Vs. Non-competitive Antagonist

15 phenoxybenzamine Non-competitive Alpha receptor antagonist - used in pheochromocytoma, malignant hypertension, Clonidine Withdrawal, Cheese Syndrome Prazosin, tamsulosin, doxazosin 1 selective: uses-mild to moderate HTN, BPH, Raynaud’s yohimbine 2 antagonist: Used in impotence

16 Alpha Blockers side effects
Body System Side/Adverse Effects Cardiovascular Palpitations, orthostatic hypotension, tachycardia, edema, dysrhythmias, chest pain CNS Dizziness, headache, drowsiness, anxiety, depression, vertigo, weakness, numbness, fatigue

17 Body System Side/Adverse Effects
Gastrointestinal Nausea, vomiting, diarrhea, constipation, abdominal pain Other Incontinence, nose bleeding, tinnitus, dry mouth, pharyngitis, rhinitis

18 Selective a1- adrenoblocker
Prasosin Selective a1- adrenoblocker Administration treatment of essential hypertension stabile cardiac insufficiency Side effects “phenomenon of first dose”: sudden decreasing of blood pressure and even development of orthostatic collapse after first administrations of the drug Prophylaxis: administration of half-dose before sleep

19 Beta blockers Most widely used antihypertensive drugs Two subgroups:
Nonselective Beta Blockers (Propranolol Beta1 & Beta2) Reduce heart rate, decrease force of ventricular contraction, suppress impulse conduction through the AV node, suppress secretion of renin, bronchoconstriction. Cardioselective Agents (Metoprolol-Beta1 only) Same as nonselective except it does not block bronchial beta2 receptors so does not increase airway resistance

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23 Uses of Beta Blockers Anti-angina: decreases demand for myocardial oxygen Cardioprotective: inhibits stimulation by circulating catecholamine Class II antidysrhythmic Antihypertensive Treatment of migraine headaches Glaucoma (topical use)

24 Side effects of Beta blockers
Body System Side/Adverse Effects Blood Agranulocytosis, thrombocytopenia Cardiovascular AV block, bradycardia, congestive heart failure, peripheral vascular insufficiency CNS Dizziness, mental depression, lethargy, hallucinations

25 Other Impotence, rash, alopecia, bronchospasms
Beta Blockers Body System Side/Adverse Effects Gastrointestinal Nausea, dry mouth, vomiting, diarrhea, cramps, ischemic colitis Other Impotence, rash, alopecia, bronchospasms

26 Beta Blocking Agents: Nursing Implications
Rebound hypertension or chest pain may occur if this medication is discontinued abruptly. Patients should notify their physician if they become ill and unable to take medication. Inform patients that they may notice a decrease in their tolerance for exercise; dizziness and fainting may occur with increased activity. Notify the physician if these problems occur.

27 Monitor BP, HR Monitor activity tolerance Monitor liver enzymes, renal function studies Instruct patient to change positions slowly to avoid syncope episodes Monitor for respiratory distress Monitor for hyper and hypoglycemia Take with foods to decrease GI side effect (nausea, diarrhea).

28 pharmacokinetics

29 toxicity

30 Clinical presentation

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33 Treatment

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36 Adrenergic Blocking Agents: Nursing Implications
Remember that alpha blockers may precipitate hypotension. Remember that beta blockers may precipitate bradycardia, hypotension, heart block, CHF, and bronchoconstriction. Avoid OTC medications because of possible interactions. Possible drug interactions may occur with: Antacids (aluminum hydroxide type) Diuretics and cardiovascular drugs Oral hypoglycemic agents

37 Tachycardia (alpha blockers) Lethargy Bradycardia Depression
Monitor for side effects, including: Hypotension Fatigue Tachycardia (alpha blockers) Lethargy Bradycardia Depression Heart block Insomnia CHF Vivid nightmares Increased airway resistance

38 Alpha and Beta Antagonists
Labetalol (doesn’t cross Placenta, also used in pregnancy) Blocks alpha receptors  Decrease BP Blocks beta receptors  Decreases HR Used in Severe HTN, Angina

39 VASODILATORS (VENODILATORS)
There are different types of vasodilators, including: Arterial dilators (mainly affect the arteries) Venous dilators (mainly affect the veins) Mixed dilators (affect veins and arteries) Direct vasodilators Hydralazine (Apresoline) Sodium Nitroprusside Minoxidil

40 Vasodilator drugs can be classified based on their site of action (arterial versus venous) or by mechanism of action. Some drugs primarily dilate resistance vessels (arterial dilators; e.g., hydralazine), while others primarily affect venous capacitance vessels (venous dilators; e.g., nitroglycerine). Most vasodilator drugs, however, have mixed arterial and venous dilator properties (mixed dilators; e.g., alpha-adrenoceptor antagonists, angiotensin converting enzyme inhibitors). It is more common, however, to classify vasodilator drugs based on their primary mechanism of action

41 Hydralazine Hydralazine (Apresoline) is a direct-acting smooth muscle relaxant used to treat hypertension by acting as a vasodilator primarily in arteries and arterioles. By relaxing vascular smooth muscle, vasodilators act to decrease peripheral resistance, thereby lowering blood pressure and decreasing afterload

42 Clinical Use Hydralazine is not used as a primary drug for treating hypertension because it elicits a reflex sympathetic stimulation of the heart (the baroreceptor reflex). The sympathetic stimulation may increase heart rate and cardiac output, and in patients with coronary artery disease may cause angina pectoris or myocardial infarction. Hydralazine may also increase plasma renin concentration, resulting in fluid retention. In order to prevent these undesirable side-effects, hydralazine is usually prescribed in combination with a beta-blocker (e.g., propranolol) and a diuretic. Hydralazine is used to treat severe hypertension, but again, it is not a first-line therapy for essential hypertension. However, hydralazine is the first-line therapy for hypertension in pregnancy, with methyldopa.

43 Side effects Common side-effects include: § Diarrhea
§                     Compensatory tachycardia due to baroreceptor reflex ->Angina §                     Headache §                     Loss of appetite §                     Nausea or vomiting §                     Depression §                     Drug-Induced Lupus Erythematosus                    Patients given hydralazine over a period of six months may develop a lupus-like syndrome or other immune-related diseases that, in general, are reversible with withdrawal.

44 Minoxidil Minoxidil is an antihypertensive vasodilator medication also known for its ability to slow or stop hair loss and promote hair regrowth Minoxidil was first used exclusively as an oral drug (trade name Loniten) to treat high blood pressure. However, it was discovered to have an interesting side-effect:Minoxidil may cause increased growth or darkening of fine body hairs. When the medication is discontinued, the hair will return to normal within 30 to 60 days.

45 Side effects  Side effects of oral minoxidil may include swelling of the face and extremities, rapid and irregular heartbeat, lightheadedness Pseudoacromegaly is an extremely rarely reported side effect of large doses of oral minoxidil.

46 Sodium Nitroprusside Rapidly and consistently acting vasodilator
Relaxes both resistance and capacitance vessels Unlike hydralazine it produces decrease in cardiac work and no reflex tachycardia. Improves ventricular function in heart failure by reducing preload Uses: Hypertensive Emergencies Adverse effects: All are due release of cyanides (thiocyanate) – palpitation, pain abdomen, disorientation, psychosis, weakness and lactic acidosis.

47 Calcium Channel Blockers
Drugs the prevent calcium ions from entering cells Vascular Smooth Muscle: Calcium channels regulate contraction If channels are blocked, contraction will be prevented and vasodilation will result Act selectively on peripheral arterioles and arteries and arterioles of the heart (no effect on veins)

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49 Indications Hypertension Prinzmetal’s angina:
Chest pain caused by vasospasm of the coronary arteries usually occurring at rest rather than during exercise. Chronic stable angina A-fib or flutter; Paroxysmal supraventricular tachycardia

50 Nursing Interventions
Monitor BP, HR, heart rhythm Monitor liver enzymes, renal function Take with food to increase absorption Assure stool softener is ordered to prevent constipation

51 Three chemical families in CCB’s
Verapamil: Blocks calcium channels in blood vessels and in the heart Used for: Angina Pectoris (vasodilation) Hypertension Cardiac dysrhythmias Careful administration/contraindications: Cardiac failure, AV block, sick sinus syndrome Diltiazem: similar to Verapamil

52 Nifidipine Relaxes vascular smooth muscle and dilates coronary and peripheral arteries More effect on vessels less on myocardium Used for: Prophylaxis of Angina Pectoris (vasodilation) Hypertension

53 Nitrates Vasodilators 2nd line of pharmacologic intervention
Decrease O2 demand and allow more blood to coronary arteries Decreased pre-load Decreased after-load Increased blood flow to Ischemic Myocardium

54 Available forms: Sublingual Ointments Chewable tablets Inhalable sprays Capsules Intravenous solutions

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56 Used to treat or prevent angina
Relieves anginal pain by relaxing smooth muscles in the blood vessels (vasodilation) by several mechanisms Dilate veins Dilate coronary arteries Dilate arterioles

57 Adverse Effects Headache Tachycardia postural hypotension Flushing
Usually diminish in intensity and frequency with continued use Tachycardia postural hypotension Flushing Dizziness Tolerance may develop

58 Nitrate Tolerance Occurs with chronic administration of long acting nitrates. Efficacy of drug diminishes with chronic exposure. To overcome this tolerance the dose schedule aims to leave your blood free of nitrate, or with very low levels of it, for a few hours each day. This is why the slow-release tablets may not be prescribed at equal intervals throughout the day. This can result in your body being free of nitrate in the early hours when you are asleep

59 Nitroglycerin sublingual tablets
Nitroglycerin sublingual tablets should not be chewed, crushed, or swallowed. They work much faster when absorbed through the lining of the mouth. Place the tablet under the tongue or between the cheek and gum, and let it dissolve. Do not eat, drink, smoke, or use chewing tobacco while a tablet is dissolving. Nitroglycerin sublingual tablets usually give relief in 1 to 5 minutes. However, if the pain is not relieved, you may use a second tablet 5 minutes after you take the first tablet. If the pain continues for another 5 minutes, a third tablet may be used. If you still have chest pain after a total of 3 tablets, contact your doctor or go to a hospital emergency room right away. Do not drive yourself and call 911 if necessary.

60 Precautions While Using nitroglycerin
Do not take sildenafil (Viagra®)  while you are using nitroglycerin. Using these medicines together may cause blurred vision, dizziness, lightheadedness, or fainting. Dizziness, lightheadedness, or fainting may occur, especially when you get up quickly from a lying or sitting position. Getting up slowly may help. Also, lying down for a while may relieve dizziness or lightheadedness. Dizziness, lightheadedness, or fainting is also more likely to occur if you drink alcohol, stand for long periods of time, exercise, or if the weather is hot. While you are taking nitroglycerin, be careful to limit the amount of alcohol you drink. Also, use extra care during exercise or hot weather or if you must stand for long periods of time.

61 ANTIARRHYTHMIC DRUGS Class I: Sodium Channel Blockers
Class II: Beta Blockers Class III: Potassium Channel Blockers Class IV: Calcium Channel Blockers Class V: Other Antidysrhythmic Drugs

62 Class I – blocker’s of fast Na+ channels
Subclass IA procainamide Good oral bioavailability Used as IV to avoid hypotension quinidine Metabolized in the liver

63 Class IA Drugs Uses Supraventricular and ventricular arrhythmias
Quinidine is rarely used for supraventricular arrhythmias Oral quinidine/procainamide are used with class III drugs in refractory ventricular tachycardia patients with implantable defibrillator IV procainamide used for hemodynamically stable ventricular tachycardia IV procainamide is used for acute conversion of atrial fibrillation including Wolff-Parkinson-White Syndrome (WPWS)

64 Class IA Drugs Toxicity
quinidine AV block Torsades de pointes arrhythmia because it ↑ ERP (QT interval) Shortens A-V nodal refractoriness (↑AV conduction) by antimuscarinic like effect ↑digoxin concentration by : 1- displace from tissue binding sites 2- ↓renal clearance Ventricular tachycardia procainamide Asystole or ventricular arrhythmia Hypersensitivity : fever, agranulocytosis Systemic lupus erythromatosus (SLE)-like symptoms: fever, pleural-pericardial inflammation. Symptoms are dose and time dependent

65 Class IB Drugs They shorten Phase 3 repolarization
↓ the duration of the cardiac action potential Class IB lidocaine mexiletine tocainide

66 Agents of Class IB Adverse effects: 1- neurological effects
Lidocaine Used IV because of extensive 1st pass metabolism Lidocaine is the drug of choice in emergency treatment of ventricular arrhythmias Has CNS effects: drowsiness, numbness, convulstion, and nystagmus Mexiletine These are the oral analogs of lidocaine Mexiletine is used for chronic treatment of ventricular arrhythmias associated with previous myocardial infarction Adverse effects: 1- neurological effects 2- negative inotropic activity Uses They are used in the treatment of ventricular arrhythmias arising during myocardial ischemia or due to digoxin toxicity They have little effect on atrial or AV junction arrhythmias (because they don’t act on conduction velocity)

67 Class IC Drugs They markedly slow Phase 0 fast depolarization
They markedly slow conduction in the myocardial tissue Class IC flecainide propafenone Notice: Class 1C drugs are particularly of low safety and have shown even increase mortality when used chronically after MI

68 Class II ANTIARRHYTHMIC DRUGS (β-adrenergic blockers)
Uses Treatment of increased sympathetic activity-induced arrhythmias such as stress- and exercise-induced arrhythmias Atrial flutter and fibrillation. AV nodal tachycardia. Reduce mortality in post-myocardial infarction patients Protection against sudden cardiac death Mechanism of action Negative inotropic and chronotropic action. Prolong AV conduction (delay) Diminish phase 4 depolarization  suppressing automaticity(of ectopic focus)

69 Class II ANTIARRHYTHMIC DRUGS
Propranolol (nonselective): was proved to reduce the incidence of sudden arrhythmatic death after myocardial infarction Metoprolol reduce the risk of bronchospasm Esmolol: Esmolol is a very short-acting β1-adrenergic blocker that is used by intravenous route in acute arrhythmias occurring during surgery or emergencies selective

70 Class III ANTIARRHYTHMIC DRUGS K+ blockers
Prolongation of phase 3 repolarization without altering phase 0 upstroke or the resting membrane potential They prolong both the duration of the action potential and ERP Their mechanism of action is still not clear but it is thought that they block potassium channels

71 sotalol amiodarone ibutilide
Class III sotalol amiodarone ibutilide Uses: Ventricular arrhythmias, especially ventricular fibrillation or tachycardia Supra-ventricular tachycardia Amiodarone usage is limited due to its wide range of side effects

72 Amiodarone (Cordarone)
Amiodarone is a drug of multiple actions and is still not well understood It is extensively taken up by tissues, especially fatty tissues (extensive distribution) t1/2 = 60 days Amiodarone antiarrhythmic effect is complex comprising class I, II, III, and IV actions Dominant effect: Prolongation of action potential duration and refractoriness It slows cardiac conduction, works as Ca2+ channel blocker, and as a weak β-adrenergic blocker Toxicity Most common include GI intolerance, tremors, ataxia, dizziness, and hyper-or hypothyrodism disturbed night vision Others: liver toxicity, photosensitivity, gray facial discoloration, neuropathy, muscle weakness, and weight loss The most dangerous side effect is pulmonary fibrosis which occurs in % of the patients

73 Class IV ANTIARRHYTHMIC DRUGS (Calcium Channel Blockers)
Calcium channel blockers decrease inward Ca2+ currents resulting in a decrease of phase 4 spontaneous depolarization (SA node) They slow conductance in Ca2+ current-dependent tissues like AV node. Examples: verapamil & diltiazem Because they act on the heart only and not on blood vessels.

74 Uses Mechanism of action
They bind only to depolarized (open) channels  prevention of repolarization They prolong ERP of AV node  ↓conduction of impulses from the atria to the ventricles So they act only in cases of arrhythmia because many Ca2+ channels are depolarized while in normal rhythm many of them are at rest Uses More effective in treatment of atrial than ventricular arrhythmias. Treatment of supra-ventricular tachycardia preventing the occurrence of ventricular arrhythmias Treatment of atrial flutter and fibrillation

75 contraindication Contraindicated in patients with pre-existing depressed heart function because of their negative inotropic activity Adverse effects Cause bradycardia, and asystole especially when given in combination with β-adrenergic blockers

76 Treatment of atrial flutter/fibrillation
1st: Reduce thrombus formation by using anticoagulant warfarin 2nd: Prevent the arrhythmia from converting to ventricular arrhythmia: First choice: class II drugs: After MI or surgery Avoid in case of heart failure Second choice: class IV Third choice: digoxin Only in heart failure of left ventricular dysfunction 3rd: Conversion of the arrhythmia into normal sinus rhythm: Class III: IV ibutilide, IV/oral amiodarone, or oral sotalol Class IA: Oral quinidine + digoxin (or any drug from the 2nd step) Class IC: Oral propaphenone or IV/oral flecainide Use direct current in case of unstable hemodynamic patient

77 Treatment of ventricular arrhythmia
Premature ventricular beat (PVB) First choice: class II IV followed by oral Early after MI Second choice: amiodarone Avoid using class IC after MI  ↑ mortality Treatment of ventricular tachycardia First choice: Lidocaine IV Repeat injection Second choice: procainamide IV Adjust the dose in case of renal failure Third choice: class III drugs Especially amiodarone and sotalol

78 (IA, IC, class III)  torsades de pointes.
Classes II and IV  bradycardia (don’t combine the two) In atrial flutter use (1st ↓impulses from atria to ventricular to prevent ventricular tachycardia) Class II Class IV Digoxin. 2nd convert atrial flutter to normal sinus rhythm use: Ibutilide Sotalol IA or IC. If you use quinidine combine it with digoxin or β blocker (because of its anti muscarinic effect) Avoid IC in myocardial infarction because it ↑ mortality

79 Other Antidysrhythmic Drugs
Adenosine: Slows conduction through the AV node Treats SVT Short plasma half life (less than 10 seconds) Given IVP—closest IV site to the heart, followed by push of saline

80 Digoxin

81 pharmacology

82 toxicity

83 Clinical presentation

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85 treatment

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