This document provides an overview of cardiovascular pharmacology. It discusses drugs used to treat hypertension, angina, heart failure, and cardiac arrhythmias. Specifically, it covers the mechanisms and management of hypertension in depth. It describes the renin-angiotensin-aldosterone system and its role in long-term blood pressure control. It also discusses the classification and treatment of hypertension, including the mechanisms and clinical uses of the main antihypertensive drug classes - diuretics, sympatholytics, beta-blockers, and drugs acting on the renin-angiotensin-aldosterone system. Adverse effects of the various antihypertensive agents are also outlined.
Mechanism of urine formation
Definition and classification of diuretics
MOA and SAR of each class
Their dose and adverse effects
Pharmacologicaol uses
all about diuretics
Mechanism of urine formation
Definition and classification of diuretics
MOA and SAR of each class
Their dose and adverse effects
Pharmacologicaol uses
all about diuretics
pharmacology is the most important part of the pharmacy field and every pharmacist should have the good knowledge about that and there are different parts and one important part is consists of the anticholinesterase drugs.
This presentation was delivered over two days to second year pharmacy students enrolled in a course in pharmacology & toxicology. This lecture is designed to accompany Goodman & Gilman's (12e) chapter 11.
• Cilostazol is a selective inhibitor of phosphodiesterase 3 (PDE3) and it is an antiplatelet drug and a vasodilator.
• Cilostazol can interact with Omeprazole, Fluoxetine, Fluvoxamine, Aspirin, Ticlopidine, Ticagrelor, Nefazodone, Azole antifungals, Idelalisib, Amiodarone, Cobicistat, Piperaquine and Ginkgo.
Management of Hypertension in Diabetic Patients with Chronic Kidney Disease: ...O. E.Nyandi PhD
South Pacific Medical Education Conference Presentation byDr Osborne E Nyandiva on Conference Presentation : Management of Hypertension in Diabetic Patients with Chronic Kidney Disease: A pathologist perspective view in SAMOA and NEW ZEALAND
Diabetes is associated with markedly increased cardiovascular risk, a risk compounded with imposition of chronic kidney disease (CKD). More than 80% of people with diabetes and CKD have hypertension, and many have an obliterated nocturnal blood pressure “dip,” the normal physiological drop in blood pressure during sleep. Appropriate blood pressure measurement is the Achilles heel of hypertension management, especially in diabetic kidney disease (DKD). The prevalence of kidney disease and diabetes is increasing among the people of the Pacific with an unknown proportion having metabolic syndrome. The preponderance of those with diabetic kidney disease (DKD) will not progress to kidney failure, but rather will succumb to cardiovascular disease (CVD).
Management of Hypertension in Diabetic Patients with Chronic Kidney Disease: ...O. E.Nyandi PhD
Diabetes is associated with markedly increased cardiovascular risk, a risk compounded with imposition of chronic kidney disease (CKD). More than 80% of people with diabetes and CKD have hypertension, and many have an obliterated nocturnal blood pressure “dip,” the normal physiological drop in blood pressure during sleep. Appropriate blood pressure measurement is the Achilles heel of hypertension management, especially in diabetic kidney disease (DKD).
pharmacology is the most important part of the pharmacy field and every pharmacist should have the good knowledge about that and there are different parts and one important part is consists of the anticholinesterase drugs.
This presentation was delivered over two days to second year pharmacy students enrolled in a course in pharmacology & toxicology. This lecture is designed to accompany Goodman & Gilman's (12e) chapter 11.
• Cilostazol is a selective inhibitor of phosphodiesterase 3 (PDE3) and it is an antiplatelet drug and a vasodilator.
• Cilostazol can interact with Omeprazole, Fluoxetine, Fluvoxamine, Aspirin, Ticlopidine, Ticagrelor, Nefazodone, Azole antifungals, Idelalisib, Amiodarone, Cobicistat, Piperaquine and Ginkgo.
Management of Hypertension in Diabetic Patients with Chronic Kidney Disease: ...O. E.Nyandi PhD
South Pacific Medical Education Conference Presentation byDr Osborne E Nyandiva on Conference Presentation : Management of Hypertension in Diabetic Patients with Chronic Kidney Disease: A pathologist perspective view in SAMOA and NEW ZEALAND
Diabetes is associated with markedly increased cardiovascular risk, a risk compounded with imposition of chronic kidney disease (CKD). More than 80% of people with diabetes and CKD have hypertension, and many have an obliterated nocturnal blood pressure “dip,” the normal physiological drop in blood pressure during sleep. Appropriate blood pressure measurement is the Achilles heel of hypertension management, especially in diabetic kidney disease (DKD). The prevalence of kidney disease and diabetes is increasing among the people of the Pacific with an unknown proportion having metabolic syndrome. The preponderance of those with diabetic kidney disease (DKD) will not progress to kidney failure, but rather will succumb to cardiovascular disease (CVD).
Management of Hypertension in Diabetic Patients with Chronic Kidney Disease: ...O. E.Nyandi PhD
Diabetes is associated with markedly increased cardiovascular risk, a risk compounded with imposition of chronic kidney disease (CKD). More than 80% of people with diabetes and CKD have hypertension, and many have an obliterated nocturnal blood pressure “dip,” the normal physiological drop in blood pressure during sleep. Appropriate blood pressure measurement is the Achilles heel of hypertension management, especially in diabetic kidney disease (DKD).
Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
Biological screening of herbal drugs: Introduction and Need for
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2024.06.01 Introducing a competency framework for languag learning materials ...Sandy Millin
http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
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2. Module Outline
• Drugs used in Hypertension
• Drugs used in Angina Pectoris
• Drugs Used in Heart Failure
• Drugs used in Cardiac Arrhythmias
Sewasew Amsalu (MD) CVS Pharmacology
4. Hypertension
• Sustained increase in blood pressure ≥140/90
Classification
Systolic
(mmHg)
Diastolic
(mmHg)
Normal* <120 <80
Prehypertension 120-139 80-89
Stage 1 140-159 90-99
Stage 2 >160 >100
*Arterial pressure less than 90/60 mmHg are considered hypotension,
and therefore not normal. Sewasew Amsalu (MD) CVS Pharmacology
5. Regulation of BP
• Bp is regulated by short and long term mechanisms
• Short term- sympathetic and parasympathetic activation
• Long term- RAAS
• Note: Blood pressure in a hypertensive patient is controlled by the same
mechanisms that are operative in normotensive subjects
Sewasew Amsalu (MD) CVS Pharmacology
6. Long term
Renin-Angiotensin-Aldosterone system
• The RAAS is pivotal in long-term BP control
• The RAAS is responsible for:
• Maintenance of sodium balance
• Control of blood volume
• Control of blood pressure
• RAAS (renin release from the juxtaglomerular apparatus) is stimulated by:
• Fall in BP
• Fall in circulating volume
• Sodium depletion
Sewasew Amsalu (MD) CVS Pharmacology
8. Fig: Response of the ANS and the renin–angiotensin–aldosterone system to a decrease in blood pressure.
Sewasew Amsalu (MD) CVS Pharmacology
9. Hypertension
• Two basic types of hypertension
• Primary (essential) hypertension (90-95%)
• Treated with drugs in addition to lifestyle changes (e.g., exercise, proper nutrition, weight
reduction, stress reduction).
• Secondary hypertension (5-10%)
• Identifiable underlying condition such as renal artery disease, thyroid disease, primary
hyperaldosteronism, pregnancy, etc.
Sewasew Amsalu (MD) CVS Pharmacology
10. • reactivity of resistance vessels & resultant in peripheral
resistance
• hereditary defect
• Sodium homeostatic effect
• The kidneys are unable to excrete appropriate amounts of sodium for any given BP. As a result
sodium and fluid are retained and the BP increases
Likely causes essential hypertension
Sewasew Amsalu (MD) CVS Pharmacology
11. Other factors
Age-BP tends to rise with age, possibly as a result of decreased arterial compliance
• Genetics and family history-history of hypertension correlation exists between sibs
rather than parent and child
Environment-Mental and physical stress both increase blood pressure
Salt intake-Reducing salt intake in hypertensive individuals does lower blood pressure
Weight
Alcohol intake
Race
Black populations are genetically found to be salt retainers
Sewasew Amsalu (MD) CVS Pharmacology
12. Secondary Hypertension
• 5-10% of all hypertension has an identifiable
cause
• Renal disease
• Drug Induced
• NSAIDs
• Oral contraceptive
• Corticosteroids
Sewasew Amsalu (MD) CVS Pharmacology
• Pregnancy
• pre-ecclampsia
• Endocrine
• Conn’s Syndrome
• Cushings disease
• Phaeochromocytoma
• Hypo and hyperthyroidism
• Acromegaly
13. Why and how to treat
• The reasons for treating hypertension are obvious
• Reduce cerebrovascular disease by 40-50%
• Reduce MI by 16-30%
• How do we treat?
• stepped approach
• use low doses of several drugs?
• This approach minimises adverse events and maximises patient compliance
Sewasew Amsalu (MD) CVS Pharmacology
14. Monotherapy Vs Polypharmacy
• Monotherapy of hypertension (treatment with a single drug) is
desirable
• compliance is likely to be better
• cost is lower
• Have fewer adverse effects.
• Polypharmacy is common in patients with hypertension require two or
more drugs, each acting by different mechanism.
• Rationale maintaining of blood pressure
Sewasew Amsalu (MD) CVS Pharmacology
15. Anti-hypertensive drugs
• Sympatholytics
Centrally-acting alpha-2 Agonists
Alpha-1 blockers
Beta- Blockers
• Drug acting on Renin-angiotensin-aldosterone system
• Angiotensin converting enzyme inhibitor
• Angiotensin II receptor antagonist
• Diuretics
Sewasew Amsalu (MD) CVS Pharmacology
16. Anti-hypertensive drugs…..
• Drug acting on blood vessels
a. Arteriolar vasodialators
i. Calcium channel blocker: Verapamil, Diltiazam, Nifedipine
ii. Hydralazine
iii. Minoxidil
b. Arteriolar venular vasodilators
E.g. Sodium nitroprusside
Sewasew Amsalu (MD) CVS Pharmacology
17. 1. Diuretics
• The kidney regulates the ionic composition and volume of urine by the
reabsorption or secretion of organic solutes and electrolytes
• at five functional zones along the nephron,
• Proximal convoluted tubule
• Descending loop of Henle
• Ascending loop of Henle
• Distal convoluted tubule
• Collecting duct
Sewasew Amsalu (MD) CVS Pharmacology
19. Ascending loop of Henle
• Impermeable to H20.
• Active reabsorption of Na+, K+ , and Cl- is mediated by a Na+ / K+ / 2Cl- co
transporter.
• Mg2+ and Ca2+ enter the interstitial fluid via the paracellular pathway.
• The ascending loop is a diluting region of the nephron.
• Approximately 25-30% of the tubular sodium chloride reabsorption occurs
Sewasew Amsalu (MD) CVS Pharmacology
21. Mechanism of action
• Bind to Na+/K+/2Cl- cotransporter complex
• Site- luminal border of the thick ascending limb of loop of Henle and inhibit
Cl- reabsorption.
• Loop diuretics are more potent than thiazides as diuretics.
• The antihypertensive effect is mainly due to reduction of blood volume.
Pharmacokinetics
• Diuresis begins 30 mins after an oral dose and last up to 6 hrs.
• They act after they are secreted into the kidney tubule by the
proximal tubule anion transport mechanisms.
Sewasew Amsalu (MD) CVS Pharmacology
22. Clinical indications
• Loop diuretics are indicated in cases of severe hypertension which is
associated with renal failure, heart failure or liver cirrhosis.
• Acute pulmonary edema of congestive heart failure.
• Acute renal failure.
• Marked edema due to congestive heart failure, nephrotic syndrome,
and liver cirrhosis.
• Hypercalcemia
Sewasew Amsalu (MD) CVS Pharmacology
23. Adverse effects
• Ototoxicity: Hearing can be affected especially if used in
conjunction with aminoglycosides. Vestibular function is less
likely to be affected.
• Acute hypovolemia, hypotension, and cardiac arrhythmia.
• Hypokalemia and alkalosis.
Sewasew Amsalu (MD) CVS Pharmacology
24. Distal convoluted tubule (DCT)
• About 10% sodium chloride is reabsorbed via Na+/Cl-
transporter
• Ca2+ excretion is regulated by parathyroid hormone
1.2. Thiazide and Thiazide-like diuretics
• Hydrochlorothiazide
• Bendroflumethiazide
• Chlorthalidone
Sewasew Amsalu (MD) CVS Pharmacology
25. Mechanism of action and effects:
• inhibit the Na+/Cl- cotransporter
• Site- luminal surface of DCT and early collecting duct
• Has longer duration than loop diuretics.
Sewasew Amsalu (MD) CVS Pharmacology
26. Clinical indications
1- Hypertension.
Thiazides are appropriate for most patients with mild or moderate
hypertension and normal renal and cardiac function.
2- Congestive heart failure
3- Nephrogenic diabetes insipidus.
Sewasew Amsalu (MD) CVS Pharmacology
27. Collecting tubule and duct:
• Responsible for Na+, K+ exchanges, H+
secretion, and K+ reabsorption.
• Stimulation of aldosterone receptors
results in Na+ reabsorption and K+
secretion.
• Antidiuretic hormone (ADH) receptor
promote the reabsorption of water from
the collecting tubules and ducts.
1.3. Potassium sparing diuretics
• Spironolactone
• Eplerenone
• Amiloride
• Triamterene
Sewasew Amsalu (MD) CVS Pharmacology
28. • Site- late DCT and cortical collecting duct.
• Spironolactone, canrenone(active metabolite) and
“eplerenone” compete with aldosterone for its cytoplasmic
receptors.
Sewasew Amsalu (MD) CVS Pharmacology
1- Combined with thiazides or loop diuretics.
• They are used as adjuncts with thiazides or loop diuretics to avoid excessive
potassium depletion and to enhance the natriuretic effect of others.
• The diuretic action of these drugs is weak when administered alone.
2- Primary hyperaldosteronism And Secondary hyperaldosteronism caused by
congestive heart failure, hepatic cirrhosis, and nephrotic syndrome.
Mechanism of action
Clinical indications
29. Adverse effects:
1- Hyperkalemia especially in
presence of renal disease or other
drugs that reduce renin
angiotensin system as β-blockers,
NSAIDs, ACEIs, or ARBs.
3- Gynecomastia, impotence,
benign prostatic hyperplasia are
reported with spironolactone.
Eplerenone does not cause these
problems.
Sewasew Amsalu (MD) CVS Pharmacology
30. Major clinical uses of diuretics
1) Edema due to heart failure, nephrotic syndrome, and hepatic cirrhosis.
• Mild edema can be controlled by thiazide diuretic.
• More marked edema usually requires the use of a loop diuretic.
• If resistant, combination
2- Hypertension: Low doses of a thiazide diuretic are usually used.
• Loop or spironolactone useful for resistant hypertension.
• Initial hypotensive effects of diuretics is associated with a reduction of blood
volume and cardiac output→ but after 6-8 weeks blood volume normalizes
but peripheral vascular resistance decreases (hence used as an anti-
hypertensive)
• Gradual loss of Na+ → fall in ICF smooth muscle Na+ → fall in ICF muscle
Ca2+→ vascular tone decreased
Sewasew Amsalu (MD) CVS Pharmacology
31. Major……………
3- Acute renal failure: A loop or an osmotic diuretic.
4- Hypercalcemia: Loop diuretic with saline infusion.
5- Hypercalciuria: Thiazide diuretic.
6- Glaucoma: acetazolamide and dorzolamide.
7- Acute Brain injury: Mannitol.
8- Diabetes insipidus: Thiazides.
• Thiazides are the preferred diuretics for hypertension
• single daily dose
• cause persistent volume depletion which is required to lower BP
Sewasew Amsalu (MD) CVS Pharmacology
32. 2. Sympatholytics- Centrally-acting alpha-2 Agonists
• Centrally acting sympathetic depressants act by stimulating α2- receptors
located in the vasomotor centre of the medulla.
• As a result, sympathetic out flow from the medulla is diminished and
either total peripheral resistance or cardiac out put decreases.
Sewasew Amsalu (MD) CVS Pharmacology
33. Sympatholytics used in Hypertension
Centrally-Acting Drugs
α1-receptor
Blockers
Imidazoline receptor
Agonists-Relmenidine,
Moxonidine
α2-Receptor agonists
Methyldopa
Both Imidazoline & α2-
Agonists- Clonidine
●Prazosin
●Terazocin
●Doxazosin
Indications
HTN with diabetes and
dyslipidemia: Improve
insulin sensitivity &
lipid profile.
Hypertension with
pregnancy(DOC due to
large established safety
to fetus).
Severe hypertension
(induces rapid reduction of
BP).
Hypertension in
patients with
prostate
hypertrophy.
Adverse Effects
No sedation or dryness Sedation, dryness,
Hepatotoxicity,
Hemolytic anemia
Sedation, Dryness,
Bradycardia, Rebound ↑
BP on withdrawal
Posturalhypotensio
n & reflex
tachycardia
Sewasew Amsalu (MD) CVS Pharmacology
34. Clonidine
Therapeutic use:
1. Management of mild to moderate hypertension (alone or in
combination)
2. Menopausal flushing and prophylaxis of migrine headache
2nd choice drug
Sewasew Amsalu (MD) CVS Pharmacology
35. Adverse effects
• Clonidine withdrawal can cause hypertensive crisis (receptors
upregulated)
• Depression
• Avoid alcohol & CNS depressants, gradual withdrawal to prevent rebound
hypertension.
• Toxicity: Sedation and drowsiness (20%), sexual dysfunction and
xerostomia.
Sewasew Amsalu (MD) CVS Pharmacology
36. α – Methyldopa……
Therapeutic use
• Moderate to severe hypertension
• Methyl dopa is preferably used during pregnancy.
Sewasew Amsalu (MD) CVS Pharmacology
Adverse effect
• Headache
• Fatigue
• forget fullness
• Mental depression
• sleep disturbance
37. α1 Blockers- Prazosin
MOA: decreases TPR and lowers BP by selectively blocking the α1
adrenergic receptors in vascular smooth muscle.
Effects: HR (unchanged or increased due to reflex tachycardia)
Uses: hypertension, urinary flow obstruction in BPH.
Adverse Effects: severe orthostasis, especially first dose – give at bedtime.
• 2nd choice in mild-moderate hypertension (often used in combination)
Sewasew Amsalu (MD) CVS Pharmacology
38. 3. β-blockers
• β-blockers bind to β-adrenoceptors located in cardiac nodal tissue, the
conducting system, and contracting myocytes.
• The heart has both β1 (predominant) and β2 adrenoceptors.
• MOA- inhibits normal sympathetic effects
• decrease in cardiac output (β1 block) and inhibition of renin release (β1 block of JG
cells)
• Propranolol (and other beta blockers); decrease HR, decrease CO, TPR (early
increase, later decrease) Sewasew Amsalu (MD) CVS Pharmacology
39. •The rate and force of myocardial contraction is
diminished, decreasing cardiac out put and thus, lowering
blood pressure.
•An additional effect which can contribute to a reduction of
blood pressure is that renin release is mediated by
βreceptors. Therefore, receptor blockade prevents
angiotensin II formation and associated aldosterone
secretion, resulting in a decrease in total peripheral
resistance and blood volume.
Sewasew Amsalu (MD) CVS Pharmacology
40. β-blockers
• First generation β-blockers were non-selective
• Second generation β-blockers are more cardioselective (β1
adrenoceptors).
• Note that this relative selectivity can be lost at higher drug doses.
• Third generation β-blockers are drugs that also possess vasodilator
actions through blockade of vascular α-adrenoceptors.
Sewasew Amsalu (MD) CVS Pharmacology
44. Precautions
• Oral B-blocker therapy should not be withdrawn abruptly (particularly in
patients with CAD), to avoid acute tachycardia, hypertension, and/or
ischemia.
• Concurrent use of B-blockers, or CCB (verapamil and diltiazem)-
bradycardia or heart block can occur.
Sewasew Amsalu (MD) CVS Pharmacology
46. 3. Vasodilators
• Hydralazine, Minoxidil, Diazoxide→ arterioles
• Nitroprusside → arterioles and veins
Site of Action- vascular smooth muscle
Mechanism of Action
• Arteriolar vasodilator
• K+ channel opener
Sewasew Amsalu (MD) CVS Pharmacology
47. Indications
1. Hypertension- IV hydralazine is the DOC in severe hypertension during
pregnancy.
2. Congestive Heart Failure
• Not used alone but usually combined with nitrates.
• Potentiates effect of nitrates
• decreasing after load, nitrate tolerance and free radical formation.
3. Mitral Regurgitation
Sewasew Amsalu (MD) CVS Pharmacology
48. Adverse Effects
• Salt retention and edema- need diuretics.
• Reflex tachycardia- need B- blockers.
• can cause myocardial ischemia (don’t use in IHD, CVA)
• used as a 2nd choice
Sewasew Amsalu (MD) CVS Pharmacology
50. Pharmacological Properties
• Potent direct vasodilator (arteriolar and venular) effect decreasing both
preload and afterload.
• Has an immediate effect and very short DOA(2 minutes).
• Converted in RBCs into cyanomethemoglobin and free cyanide which is
metabolized into thiocyanate in liver and excreted by the kidney.
• Dosage: 0.5-10 mg/kg/min IV infusion.
Sewasew Amsalu (MD) CVS Pharmacology
51. Indications :-
1. Hypertensive Emergencies
• hypertensive encephalopathy, severe hypertension
2. Severe Acute Heart Failure
• severe acute HF especially mitral and aortic regurgitation.
• myocardial infarction
• cardiac surgery
• Nitroprusside is now replaced by safer drugs as nitroglycerin or milrinone (an
inotropodilator).
Sewasew Amsalu (MD) CVS Pharmacology
52. Minoxidil
MOA: opens K+ channels in smooth muscles
membrane stabilizes→contraction less likely
• TPR decreased; HR, CO and renal blood flow is increased
• 3rd or 4th choice drug → many side effects
Adverse effects
• H2O/Na+ retention, edema
• reflex tachycardia, hypertrichosis
Sewasew Amsalu (MD) CVS Pharmacology
53. 4. Calcium Channel Blockers
Chemical Type Chemical Names
Non-Dihydropyridines Verapamil
Diltiazem
1,4-Dihydropyridines Nifedipine
Amlodipine
Sewasew Amsalu (MD) CVS Pharmacology
54. Mechanisms of Action
• Selectively block Ca ions from crossing cell membranes in cardiac and
vascular smooth muscles without affecting serum Ca levels
• ↓ TPR
• Significant reduction in afterload but not preload
• Diuretic action secondary to ↑ renal blood flow.
• ↓ Aldosterone secretion.
Sewasew Amsalu (MD) CVS Pharmacology
55. Dihydropyridine
(Nifedipine, Amlodipine)
Therapeutic uses
•Hypertension
•Peripheral vascular disease
More selective for Vessels than cardiac
muscles and nodal tissues
Non-DHP
(diltiazam, verapamil)
• SV arrhythmia
• Angina pectoris
• Hypertension
Selective for nodal tissue and cardiac
muscles than blood vessels
Sewasew Amsalu (MD) CVS Pharmacology
60. Class I (Captopril)
• Not a prodrug
• Rapid onset & short duration (t½ 4-6 h)
• Can be given sublingually in severe hypertension
Class II: (Enalapril)
• Prodrugs (activated first in liver).
• Slow onset & long duration (given once/day).
Sewasew Amsalu (MD) CVS Pharmacology
61. Class III (lisinopril)
• prodrug
• Long duration
• Water soluble, not metabolized in liver and excreted unchanged by the
kidney → given in liver disease
Sewasew Amsalu (MD) CVS Pharmacology
62. Mechanism of Action of ACEIs
ACEIs have dual vasodilator action by:
1. ↓ Angiotensin II formation
2. ↑ Bradykinin through inhibition of its deactivation → direct
Vasodilator & release of potent vasodilators
• Prostaglandins and NO from vascular endothelium
Responsible for side effects like dry cough and angioedema
Sewasew Amsalu (MD) CVS Pharmacology
64. Advantages of ACEIs
1. ↓ Cardiovascular mortality and morbidity.
2. Protect renal function especially in diabetics.
3. No metabolic side effects (no effect on glucose, lipid or uric acid).
4. May improve glucose intolerance in insulin resistance.
5. No changes in heart rate.
Sewasew Amsalu (MD) CVS Pharmacology
65. Adverse effects
- Hypotension and reversible renal failure
- Dry cough
- Angioedema
• First dose syncope and postural hypotension
• Hyperkalemia
• Renal insufficiency (in pts with bilateral renal artery stenosis)
• Dysgeusia (loss of taste)
Sewasew Amsalu (MD) CVS Pharmacology
66. ADVERSE REACTIONS
Hypotension
Renal impairment
Hyperkalemia
(↓ aldosterone)
Related to
↑ Bradykinin
Related to
↓ Angiotensin II
Related to
high Dose Captopril
(immune-base)
Skin allergy
Neutropenia
Proteinuria
Loss of taste.
Acute angioedema
(early)
Chronic dry cough
(late)
Sewasew Amsalu (MD) CVS Pharmacology
67. Contraindications
• Pregnancy-2nd and 3rd trimester
(fetal hypotension, anuria, and renal failure), associated with fetal malformation or death
• Bilateral renal artery stenosis
• severe aortic stenosis
• renal insufficiency
• hyperkalemic states
• Coronary artery disease
• Past history of angioedema.
Sewasew Amsalu (MD) CVS Pharmacology
68. VII. Angiotensin II Receptor Blockers (sartans)
- More selective blockers of angiotensin than ACE
- Have no effect on bradykinin
- Potential for more complete inhibition of angiotensin
- Similar ADR profile except dry cough and angioedema
• Losartan, Valsartan, Irbesartan, Candesartan, Eprosartan, Tasosartan,
and Telmisartan
Sewasew Amsalu (MD) CVS Pharmacology
69. MOA
• Block AT1 responsible for most of the damaging effects of Ag II
• Produces vasodilation and blocks aldosterone secretion (leads to
increased water and salt excretion)
Uses: Hypertension
Sewasew Amsalu (MD) CVS Pharmacology
Contraindications
• Pregnancy (Risk Factor D)
• Bilateral renal artery stenosis
• Severe aortic stenosis
70. Management of Hypertension
Management of Hypertension has two components :
I . Non-pharmacologic Treatment( Lifestyle Modifications)
-Indicated for all patients with hypertension
II. Pharmacologic Treatment
- Indicated in patients who failed or unlikely to to achieve target Blood pressure
with non pharmacologic treatment alone. Non pharmacologic treatment should
be continued while the patients are on pharmacologic treatment.
71. I. Lifestyle Modifications to manage
Hypertension
Lifestyle Modifications to Manage Hypertension
Weight reduction Attain and maintain BMI<25kg/m2
Dietary salt reduction <6gNaCl/d
Adapt DASH-type dietary plan Diet rich in fruits, vegetables, and low fat dairy products with
reduced content of saturated and total fat and reduced salt
Moderation of alcohol
consumption
For those who drink alcohol, consume ≤2 drinks/day in men and ≤1
drink/day in women
Physical activity Regular aerobic activity, e.g., brisk walking for 30 min/d
Cessation of tobacco use Support with tobacco cessation
Stress management Behavioural intervention with stress management
Note: BMI, Body Mass Index; DASH, Dietary Approaches to stop Hypertension (trial)
72. Lifestyle Interventions in the
Management of Hypertension
Exercise
Weight reduction
Alcohol intake reduction
Sodium intake reduction
5-10 mm Hg
1-2 mm Hg/Kg
1 mm Hg/drink/d
1-3 mm Hg/40
mmol/d
Intervention Possible SBP Effect
73. Dietary salt intake
Should not exceed 1 teaspoon full (6g) per day.
Avoid adding salt to food on the table
Processed foods often contain high amounts of salt. E.g. bread,
processed meets such as bacon, sausages, cheese, margarine, packet
soups, tomato sauce, tomato paste, processed spices and other food
additives.
74. Antihypertensive medication
There are five major classes of antihypertensive agents:
• A, Angiotensin Converting Enzyme Inhibitors (ACEIs) and Angiotensin receptor blockers
(ARBs);
• B, β-blockers (BBs);
• C, Calcium Channel Blockers (CCBs);
• D, Thiazide or thiazide-like diuretics; and
• Z, others (sympatholytics, α adrenergic blockers, centrally acting alpha 2- agonists and
direct arterial vasodilators.
This last class contains agents that are rarely used, or are obsolete, and examples
are as follows:
• Sympatholytics and alpha adrenergic blockers e.g. methyldopa and prazocin
• Direct arterial vasodilators e.g. hydralazine
75. First line classes of drugs
Angiotensin Converting Enzyme Inhibitors (ACEIs) and Angiotensin receptor
blockers (ARBs)
Calcium Channel Blockers (CCBs)
Thiazide or thiazide-like diuretic
76. • Long-acting dihydropyridine calcium channel blocker such as
amlodipine as first line drug for the treatment of uncomplicated
essential hypertension in our country.
• It is probably effective for all races; reduces need for monitoring
of electrolytes and renal function; avoids need for different
treatment for women of childbearing age who may become
pregnant.
• Thiazide diuretics such as hydrochlorothiazide to be used as add on
when target BP not achieved on long-acting dihydropyridine calcium
channel blocker such as amlodipine it is less expensive than other
hypertension medications in our setting and are probably effective
for all races.
• If a third agent is needed, the alternative class of medication is ACE
inhibitors
Sewasew Amsalu (MD) CVS Pharmacology
77. Choice of therapy in Pregnancy
• High BP in pregnancy may usually be due to pre-existing essential HTN or to pre-
eclampsia.
• Methyldopa is safe in pregnancy.
• B-blockers are effective and safe in the third trimester.
• Pregnant women and women of childbearing age not on effective contraception should
not be given ACE inhibitors, ARBs, or thiazide/thiazide-like diuretics; CCBs should be
used.
Sewasew Amsalu (MD) CVS Pharmacology
78. • Modified release preparations of nifedipine are also used in HTN in
pregnancy.
• IV labetalol or hydralazine can be used to control hypertensive crisis.
• Magnesium sulphate is the drug of choice to prevent seizures in pre-
eclampsia and eclampsia
Sewasew Amsalu (MD) CVS Pharmacology
79. Drugs used in Heart
failure
Sewasew Amsalu (MD) CVS Pharmacology
80. Heart failure
• Heart failure- inability of the heart to keep up its work load of pumping
blood to the lungs and to the rest of the body
Characterized by:
• Impaired ventricular performance (right or left or both)
• Exercise intolerance: dyspnea, fatigue
• Shortened life expectancy
• Fluid retention
Sewasew Amsalu (MD) CVS Pharmacology
82. Pathogenesis of CHF
Lack or loss of contractile force ed ventricular function reduced CO
As a result a variety of adaptive mechanisms are activated
The compensatory mechanisms are either intrinsic or extrinsic
Sewasew Amsalu (MD) CVS Pharmacology
83. Pathophysiology of cardiac performance
Is a function of four primary variables
Increased preload
• Rx: reducing preload (salt restriction, diuretic therapy and venodilator drugs)
Increased Afterload
• Rx: reducing arterial tone (arteriolar vasodilators)
Depressed intrinsic contractility of myocardium
• Rx: increasing contractility using inotropic agents
Increased HR due to sympathetic over activity
• Rx: reducing the HR (β blockers)
Sewasew Amsalu (MD) CVS Pharmacology
85. • Drugs used to treat heart failure can be broadly divided into:
A. Drugs with positive inotropic effect - Drugs with positive inotropic
effect increase the force of contraction of the heart muscle
• Cardiac glycosides,- Digoxin And Digitoxin
• Sympathomimetics- (B-agonists)-dobutamine, dopamine
• Methylxanthines
B. Drugs without positive inotropic effect
• Diuretics, e.g. hydrochlorothiazide, furosemide
• Vasodilators, e.g. hydralazine, sodium nitroprusside
• Angiotensin converting enzyme inhibitors e.g. captopril, enalapril
Sewasew Amsalu (MD) CVS Pharmacology
86. Drug groups commonly used in Heart Failure
Ionotropic agents
Cardiac glycosides
β agonists
PDE inhibitors
Diuretics
ACE inhibitors
Angiotensin receptor blockers
Aldosterone antagonists
Direct vaso- and venodilators
β blockers????
Sewasew Amsalu (MD) CVS Pharmacology
87. Digoxin
MOA-
• Binding to Na+/K+-ATPase in cardiac cell membrane
• ↑ intracellular Na+
• ↑ intracellular Ca2+ that increase force of contraction
• Sensitize Na+/K+-ATPase activity in vagal nerves
• ↓ heart rate
Sewasew Amsalu (MD) CVS Pharmacology
88. Clinical indication of digoxin
• Congestive heart failure
• Arrhythmias (atrial fibrillation)
• It has narrow therapeutic index: high risk for toxicity
• Serum level (< 2-3 ng/ml) monitoring is recommended
Sewasew Amsalu (MD) CVS Pharmacology
89. Toxicity of digoxin
• Cardiac arrhythmias, including bradycardia and heart block (especially in
the elderly)
• Visual disturbances (yellow Vision), disorientation and confusion
• Anorexia, nausea and vomiting
• Influenced by hypokalemia
• Oral potassium useful (normal K+, unless high-grade AV block is present)
Sewasew Amsalu (MD) CVS Pharmacology
90. Management of digitalis toxicity
If mild GI or Visual disturbances - reduce the dose
If cardiac arrhythmias occur check serum levels of K+, Digoxin,
Ca++
Correct electrolytes
Use anti arrhythmic agents like Lidocaine
Administer digitalis antibodies. E.g., digibind
Sewasew Amsalu (MD) CVS Pharmacology
91. Beta agonists
Dopamine (i.v.)
• Short duration of action
• Use only low and moderate doses
• High doses are potent vasoconstrictor
• It is reserved for management of acute failure or failure
refractory to other oral agents.
Sewasew Amsalu (MD) CVS Pharmacology
92. Beta agonists cont’d…
Dobutamine
• Selective β1 agonist with short t½ (2.4 min)
• IV infusion to treat acute severe heart failure
• After 72 hours of therapy, tolerance can develop
• The positive inotropic effect of dobutamine is proportionally greater
than its effect on heart rate.
Sewasew Amsalu (MD) CVS Pharmacology
93. Diuretics
• Diuretics are first – line drugs for treatment of patients with heart
failure.
• The reduction in venous pressure causes reduction of edema and its
symptoms and reduction of cardiac size which leads to improved
efficiency of pump function.
Sewasew Amsalu (MD) CVS Pharmacology
94. Angiotensin antagonists
• Synthesis inhibitors: ACEIs
• Receptor antagonists: sartans
• First line agents with diuretics
Sewasew Amsalu (MD) CVS Pharmacology
95. ACEIs
• A major breakthrough in the treatment of CHF
• Improve symptoms, reduce mortality, slow down progressive deterioration in cardiac
function.
• These drugs reduce after load by reducing peripheral resistance and also reduce
preload by reducing salt and water retention by way of reduction in aldosterone
secretion.
• Fluid retention can attenuate the effects of ACEIs, optimize the dose of diuretic first,
before ACEI
• reduce the dose of diuretic during the initiation of an ACEI to prevent symptomatic hypotension
Sewasew Amsalu (MD) CVS Pharmacology
96. Clinical indications
• CHF -reduce morbidity and mortality
• They are nowadays considered a head of cardiac glycosides in the
treatment of chronic heart failure.
• Post MI - reduce morbidity, mortality and onset of heart failure
Adverse effects- refer hypertension
Sewasew Amsalu (MD) CVS Pharmacology
97. ARBs
• ARBs selectively block the angiotensin II, AT1 receptor
• They are effective in the treatment of heart failure
• NOT AS EFFECTIVE AS ACEIs in CHF
• At present recommended for use in ACEI intolerant patients
• Some suggestion that they may have benefit when added to ACEIs
• Adverse effects- refer hypertension
Sewasew Amsalu (MD) CVS Pharmacology
98. Beta blockers(Carvedilol, Bisoprolol, Metoprolol)
Metoprolol- 2nd generation 75 fold higher affinity for β1 than β2 receptor
• long-acting, controlled release form used for CHF
• Also approved for HTN and IHD
Carevedilol-Approved for CHF in most countries
• Minimally β-1 selective (low dose), high dose has affinity for α1 as well as antioxidant
action
• Orthostatic hypotension more prominent
• High dose block all receptors (α & β)
Sewasew Amsalu (MD) CVS Pharmacology
99. Vasodilators
• The vasodilators are effective in acute heart failure because they provide a
reduction in preload (through venous dilation), or reduction in after-load (through
arteriolar dilation), or both.
• Nitroprusside- Standard choice for elevated BP (↓after & pre-load)
• IV (0.1-0.2 mg/kg/min) for acute and short-term
• Nitroglycerine- in acute decompensation in heart failure
• Hydralazine in combination with nitrates increase life expectancy
• Vasodilator agents are generally reserved for patients who are intolerant of or who
have contraindications to ACE inhibitors
Sewasew Amsalu (MD) CVS Pharmacology
100. Management of Acute CHF
A. Diuresis:
• start furosemide 40 mg IV if BP>90/60 mmHg and double the dose
every 2-4 hour until Adequate urine output ( >1 ml/kg/hr)
• For those already on oral furosemide, start with equal dose of IV
furosemide
• Maintain the dose of furosemide which gave adequate response on a
TID basis.
• Start spironolactone 25-50 mg/day unless K+> 5.0 meq/l or Cr> 1.6
mg/dl
Sewasew Amsalu (MD) CVS Pharmacology
101. • If patients were already talking ACEIs and BBs, they can continue to
take them during hospitalization as long as they are not severely
congested, are hemodynamically stable and have normal renal
function.
• Temporary discontinuation or dose reduction of BB or ACIs/ARBs
may be necessary if BP is low or borderline and patient is severely
congested (pulmonary edema) or renal function derangement.
• Digoxin 0.125-0.25 mg/day for positive inotropy and rate control in
patients with atrial fibrillation.
Sewasew Amsalu (MD) CVS Pharmacology
102. • Start one of the ACEIs/ARBs as soon as BP and RFTs permit and escalate
until discharge
• Start one of the BB following ACEIs/ARBs when BP and PR permit
and escalate until discharge (see chronic heart failure section)
• Start Spironolactone 25mg/d.
• Change IV furosemide to PO and observe the patient with ambulation for a
day or two.
Sewasew Amsalu (MD) CVS Pharmacology
104. •Angina pectoris develops as a result of an imbalance
between the oxygen supply and the oxygen demand of
the myocardium.
•It is a symptom of myocardial ischemia.
•When the increase in coronary blood flow is unable to
match the increased oxygen demand, angina develops.
Sewasew Amsalu (MD) CVS Pharmacology
105. Ischemic Heart Disease
• If Myocardial ischemia is sufficiently severe and maintained for a long
period of time leads to tissue infarction
• Ischemia with pain preferred than silent, as it gives a warning signal for
intervention
Sewasew Amsalu (MD) CVS Pharmacology
106. Angina pectoris
• Angina pectoris is the principle symptom of ischemic heart disease
• Characterized by sudden, severe and pressing substernal pain that is
usually felt beneath the upper sternum and is often transferred to the
surface areas of the body and most often to the left arm and shoulder
and even to the side of the face
Sewasew Amsalu (MD) CVS Pharmacology
107. Ischemic condition results from
Imbalance b/n myocardial oxygen demand & oxygen supplied by
coronary vessels.
Increased myocardial oxygen demand
Determined by Ventricular wall tension, HR, contractility
Decreased myocardial oxygen supply
Determined by coronary blood flow (CBF), oxygen-carrying capacity of the blood
Sewasew Amsalu (MD) CVS Pharmacology
109. TYPES….
2. Vasospastic/Variant, prinzmetals.../ Angina
Cause: transient Vasospasm of coronary Vessels
Associated: underlying atheromas
Pain can occur at rest
Treatment principles: ed Vasopasm of coronary Vessels
• Coronary vasodilators(nitroglycerin ) and CCBs
Sewasew Amsalu (MD) CVS Pharmacology
110. TYPES…
3. Unstable /preinfarction, crescendo.../ Angina
Chest pains occur with ↑ed frequency and are precipitated by
progressively less effort.
Cause: recurrent episodes of small platelet clots.
Site: ruptured atherosclerotic plague
Sewasew Amsalu (MD) CVS Pharmacology
113. Drug Therapy
• Other drugs
• Aspirin
• Cholesterol lowering agents
• HMG CoA reductase inhibitors
Sewasew Amsalu (MD) CVS Pharmacology
114. Nitrovasodilators
• organic nitrates are potent vasodilators and successfully used in
therapy of angina pectoris for over 100 years.
• The effects of nitrates are mediated through the direct relaxant
action on smooth muscles.
• The action of nitrates begins after 2-3 minutes when chewed or
held under tongue and action lasts for 2 hours.
Sewasew Amsalu (MD) CVS Pharmacology
115. Pharmacological effects
Venodilation (major ↓ preload)
Arteriolar dilatation (↓ afterload)
Myocardial work load se in O2 demand.
Improve perfusion of ischemic myocardium.
Inhibition of platelet aggregation
Sewasew Amsalu (MD) CVS Pharmacology
116. Pharmacokinetics
Oral bioavailability is very low
• Extensive hepatic first pass metabolism.
• Sublingual effective for the Rx of acute attacks of angina pectoris due to first pass effect
Therapeutic uses
Treatment & prevention of all types of Angina
Variant angina
Stable angina
Unstable angina
Sewasew Amsalu (MD) CVS Pharmacology
117. Adverse effects
• Headache, dizziness
• Increase dose slowly
• Postural hypotension (GTN syncope)
• Reflex tachycardia
• Flushing, methemoglobinemia
• Withdrawal from long-term exposure can produce severe ischemia resulting in death or MI
• Dangerous hypotension: PDE5 inhibitors (sildenafil) so highly contraindicated
Sewasew Amsalu (MD) CVS Pharmacology
118. Beta blockers
• Exercise and emotional excitement induce angina insusceptible
subject by the increase in heart rate, blood pressure and
myocardial contractility through increased sympathetic activity.
• Increase in HR often precipitate angina, drug blunting
sympathetic effect on the heart would be antianginal
Sewasew Amsalu (MD) CVS Pharmacology
119. • B-blockers are reversible antagonists of the 1 and 2 receptors
• Cardioselective drugs (1) useful in treating exertional angina attacks
(metoprolol, atenolol)
• High dose: selectivity is lost and effect resembles to that of non-selectives
• Partial agonists (1 selective) are useful, however, elevate HR at low doses
(pindolol, acebutolol)
• Not effective against vasospastic angina due to increased coronary
resistance by acting at α adrenergic receptors
Sewasew Amsalu (MD) CVS Pharmacology
120. Mechanism of action
• Decrease three major determinants of myocardial oxygen demand
• Heart rate, Contractility and Systolic wall tension
• allow improved perfusion of the subendocardium by increasing diastolic perfusion
time
Therapeutic Uses
Exertional angina
Unstable angina; reduce progression to MI.
Myocardial infarction: improve mortality
Combined with Nitrates &/or Ca++ channel blockers.
Not useful in Variant AnginaSewasew Amsalu (MD) CVS Pharmacology
121. Rebound phenomenon
• Sudden cessation of β-blocker therapy may precipitate
myocardial infarction
Sewasew Amsalu (MD) CVS Pharmacology
122. Calcium Channel Blockers (CCBs)
• calcium is necessary for the excitation contraction coupling in both the
cardiac and smooth muscles.
• Calcium channel blockers appear to involve their interference with the
calcium entry into the myocardial and vascular smooth muscle, thus
decreasing the availability of the intracellular calcium
• e.g. nifedipine, felodipine, verapamil and diltiazem.
Sewasew Amsalu (MD) CVS Pharmacology
123. Pharmacological Effects
Vascular smooth muscle
Decreased intracellular ca++ in
arterial S. muscle Relaxation
Decreased after load
Little or No effect on venous
beds
No effect on preload.
Effects on cardiac cells
Negative Inotropy
Potent: Verapamil, diltiazem
Modest: Dihydropyridines
Negative chronotropy/dromotropy
Verapamil; decrease rate of recovery of slow
channel,
Dihydropyridines: No direct effect on AV &SA
nodes.
Sewasew Amsalu (MD) CVS Pharmacology
124. Homodynamic effect
Improve delivery of O2 to ischemic myocardium.
Coronary Vasodilation increased CBF
Reduced HR increases time spent in diastole
Reduced myocardial O2 consumption: Reduced HR & contractility (exception:
Dihydropyridines)
Sewasew Amsalu (MD) CVS Pharmacology
125. CCB..
Adverse drug effects
Due to excessive Vasodilatation: dizziness, headache, hypotension, flushing,
edema etc.
Aggravation of myocardial ischemia: reflex tachycardia
Bradycardia, exacerbation of CHF
Contraindications (specially Verapamil & Diltiazem)
Moderate to severe ventricular dysfunction
SA or AV conduction disturbances
Systolic BP less than 90mm Hg
Sewasew Amsalu (MD) CVS Pharmacology
126. CCB..
Therapeutic Uses
Angina; Variant, Exertional, and Unstable
Are also employed in supraventricular arrhythmias and Hypertension
Sewasew Amsalu (MD) CVS Pharmacology
127. Antiplatelet Agents
• Low dose Aspirin (80-325 mg)
• The formation of platelet aggregates are important in the pathogenesis of
angina, unstable angina and acute MI
• Acetylsalicylic acid (aspirin) at low doses given intermittently decreases the
synthesis of thromboxne A2without drastically reducing prostacylin synthesis
• Thromboxane stimulates platelet aggregation and vasoconstriction
• Recommended for stable and unstable angina
Sewasew Amsalu (MD) CVS Pharmacology
128. Therapeutic use
• regular daily use of aspirin
• In secondary prevention
Sewasew Amsalu (MD) CVS Pharmacology
129. Clopidogrel
• Inhibits ADP receptor platelet aggregation
• Initiate a loading dose of 300 mg and then 75 mg once daily
• In unstable angina combined with aspirin reduces mortality
Sewasew Amsalu (MD) CVS Pharmacology
130. Statins
• These are HMG CoA Reductase Inhibitors which are the most effective
cholesterol lowering agents
• Standard therapy for most patients with unstable angina
• Start treatment with high dose of atorvastatin (80 mg/d), pravastatin (40
mg/d)
Sewasew Amsalu (MD) CVS Pharmacology