Post on 02-Nov-2014
description
Antihypertensive DrugsAntihypertensive Drugs
Dr. Yahya Ibn Ilias
What is hypertention?
WHO standard:WHO standard:
Hypertension:Hypertension: People whose blood pressure is People whose blood pressure is elevated to More than 140/90mmHg require elevated to More than 140/90mmHg require antihypertensive agents.antihypertensive agents.
The diagnosis of The diagnosis of hypertensionhypertension is based on repeated, rep is based on repeated, reproducible measurements of elevated blood pressure.roducible measurements of elevated blood pressure.
U Hv Got HTN !!
Normal Systolic Blood Pressure 90—140 mmHg
Normal Diastolic Blood Pressure 60—90 mmHg
Etiology of hypertension
Classification of hypertension: Classification of hypertension:
Essential hypertensionEssential hypertension and and secondary secondary hypertensionhypertension
Essential hypertension:Essential hypertension: Patients with arterial Patients with arterial hypertension and no definable cause are said to have Primary, or hypertension and no definable cause are said to have Primary, or Essential hypertension.Essential hypertension.
Secondary hypertension:Secondary hypertension: A specific cause of A specific cause of hypertension hypertension
can be established in only 10-15% of patients.can be established in only 10-15% of patients. it is important to consider specific causes in each case, it is important to consider specific causes in each case, some of them are amenable to definitive some of them are amenable to definitive surgical treatmentsurgical treatment:: Renal artery constrictionRenal artery constriction, , Coarctation of the aortaCoarctation of the aorta, , PheochromocytomaPheochromocytoma 。。
The category of hypertension when the cause is unknown.
There are probably several different genetic causes. Includes approximately 90% of cases.
Also referred to as Idiopathic hypertension. Approximately 20% of all adults in US are affected.
Even though the underlying cause usually is not known,hypertension can usually be very effectively treated.
Normal Regulation of Blood Pressure :-
Arterial blood pressure (BP) is directly proportionate to the product of the blood flow (cardiac output, CO) and the resistance to passage of blood through precapillary arterioles (peripheral vascular resistance, PVR):
BP = CO X PVR
In both normal and hypertensive individuals, blood pressure is maintained by:
Cardiac output and peripheral vascular resistance, exerted at three anatomic sites:
Arterioles, postcapillary venules (capacitance vessels), and heart.
A fourth site, the kidney, contributes to maintenance of blood pressure by regulating the volume of intravascular fluid.
Baroreflexes, mediated by autonomic nerves
Act in combination with humoral mechanisms, including the renin-angiotensin-aldosterone system, to coordinate function at these four control sites and to maintain normal blood pressure.
Finally, local release of hormones from vascular endothelium may also be involved in the regulation of vascular resistance. For example, nitric oxide : dilates and endothelin-1 constricts blood vessels.
Therapeutic goals in hypertension To lower the high blood pressure and
reduced cardiovascular morbidity and mortality by least intrusive means.
For most of the patients: life-long treatment of an asymptomatic disease.
Antihypertensive AgentsAntihypertensive Agents
Antihypertensive AgentsAntihypertensive Agents
6. Sympatholytic Drugs
Centrally acting agents(Alpha-2 Agonists)
Ganglionic Inhibitors (Mecamylamine)
Adrenergic Neural Terminal Inhibitors (reserpine)
Adrenergic receptor blockers - Alpha- Blockers - Beta –Blockers - Alpha and Beta –Blockers
1. Diuretics
2. Calcium Channel Blockers
3. Angiotensin Converting Enzyme Inhibitors
4. Angiotensin Receptor Antagonists
5. Peripheral Vasodilators
Classification :
Diuretics: thiazide and loop diuretics
B-blockers: atenolol, labetalol, metoprolol, propanolol
ACE Inhibitors: captopril,enalapril,lisinopril
Angiotensin receptor blockers: losartan
Ca-channel blockers: amlodipine, nifedipine, diltiazem, verapamil
Alpha blockers: prazosin, doxazocin, terazocin
Centrally acting Alfa agonist: clonidine, methyldopa
Direct Vasodilators: hydralizine, nitroprusside, minoxidil, diazoxide.
Renin angiotensin aldosterone sRenin angiotensin aldosterone system, RAASystem, RAAS
AgⅠ AgⅡACE BP↑
Aldosterone ↑
Angiotensinogen
ReninDecomposition
BP↓
BradykininBradykinin
A n g i o t e n s i n II
Peripheral resistance Renal function Cardiovascular structure
RapidPressor Response
1. Direct vasoconstriction
2. Enhancement of peripheral noradrenergic neurotransmission 3. Increased central (CNS) sympathetic discharge
4. Release of catecholamines from adrenal medulla
1. Releases aldosterone from adrenal cortex
2. Increases Na+ reabsorption
3. Altered renal hemodynamics: - renal vasoconstriction - increased noradrenergic neurotransmission in kidney - Increased renal sympathetic tone (CNS)
SlowPressor Response
Cardiovascular Hypertrophy and Remodeling
1. Non-hemodynamic effects: - Increased expression of proto-oncogenes - Increased production of growth factors - Increased synthesis of extracellular matrix proteins
2. Hemodynamic effects: - Increased afterload (cardiac) - Increased wall tension (vascular)
Inhibitors of Angiotensin
Mechanism & Sites of Action :
Renin release from the kidney cortex is stimulated by reduced renal arterial pressure, sympathetic neural stimulation, and reduced sodium delivery.
Renin acts upon angiotensinogen to split off the inactive precursor decapeptide angiotensin I.
Angiotensin I is then converted, primarily by
Endothelial ACE, to the arterial vasoconstrictor octapeptide angiotensin II ,which is in turn converted in the adrenal gland to angiotensin III.
Juxtaglomerular apparatus
Angiotensin II has vasoconstrictor and sodium-retaining activity.
Angiotensin II and III both stimulate aldosterone release.
Two classes of drugs act specifically on the renin-angiotensin system: the ACE inhibitors and the competitive inhibitors of angiotensin at its receptors
ACE Inhibitors Antihypertensive
Mechanisms
Angiotensin-Converting Enzyme (ACE) Inhibitors
1. Captopril ** 2. Enalapril 3. Fosinopril 4. Lisinopril **5. Ramipril
Benazepril, fosinopril, moexipril, perindopril, quinapril, and trandolapril
Captopril
Inhibit the converting enzyme angiotensin I to angiotensin II .
Inhibit the inactivation of Bradykinin, a potent vasodilator, which works at least in part by stimulating release of nitric oxide and prostacyclin.
Hypotensive activity of Captopril results both from an inhibitory action on the renin-angiotensin system and a stimulating action on the kallikrein-kinin system
Enalapril
Is a prodrug that is converted by deesterification to a converting enzyme inhibitor, Enalaprilat, with effects similar to captopril.
Available only for intravenous use,
Use : primarily for hypertensive emergencies.
Lisinopril is a lysine derivative of enalaprilat.
Benazepril, fosinopril, moexipril, perindopril, quinapril, ramipril, and trandolapril are other long-acting members of the class.
All are prodrugs, like enalapril, and are converted to the active agents by hydrolysis, primarily in the liver.
Angiotensin II inhibitors lower blood pressure principally by decreasing peripheral vascular resistance.
Cardiac output and heart rate are not significantly changed.
Useful role in treating patients with diabetic nephropathy because they diminish proteinuria and stabilize renal function.
Indication of ACE Inhibitors:
Hypertension
Congestive heart failure (CHF)
Left ventricular dysfunction
Prevention of nephropathy in diabetes mellitus
Following myocardial infarction.
In the treatment of essential hypertension, captopril is considered first choice therapy, either alone or in combination with a thiazide diuretic.
If the patient is asymptomatic, captopril can be used as monotherapy in the treatment of congestive heart failure.
In symptomatic patients captopril should be used in conjunction with a diuretic because of the weak natriuretic properties of ACE inhibitors.
In the treatment of diabetic nephropathy associated with type I insulin-dependent diabetes mellitus, captopril decreases the rate of progression of renal insufficiency and retards the worsening of renal function.
Adverse effect :
Severe hypotension can occur after initial doses of any ACE inhibitor in patients who are hypovolemic due to diuretics, salt restriction, or gastrointestinal fluid loss.
Acute renal failure (particularly in patients with bilateral renal artery stenosis or stenosis of the renal artery of a solitary kidney),
hyperkalemia, dry cough sometimes accompanied by wheezing, and angioedema.
Hyperkalemia is more likely to occur in patients with renal insufficiency.
Contraindication
During the second and third trimesters of pregnancy because of the risk of fetal hypotension, sometimes associated with fetal malformations or death.
All converting enzyme inhibitors are contraindicated in patients with bilateral renal artery disease or with unilateral renal artery disease and one kidney.
Angiotensin Receptor Blockers
(ARBs)
Angiotensin II is a very potent chemical that causes the muscles surrounding the blood vessels to contract, which thereby narrows the blood vessels.
This narrowing increases the pressure within the vessels and can cause high blood pressure (hypertension).
ANGIOTENSIN RECEPTOR
Distinct subtypes of AngII receptors are designated as AT1 and AT2.
The AT1 receptor subtype is located predominantly in vascular and myocardial tissue and also in brain, kidney, and adrenal glomerulosa cells, which secrete aldosterone.
•Vasoconstriction •Vascular proliferation •Aldosterone secretion •Cardiac myocyte proliferatio
n •Increased sympathetic tone
•Vasodilation •Antiproliferation •Apoptosis
AT1AT2
Angiotensin II
Different Roles of ATDifferent Roles of AT11 and ATand AT22 Receptors Receptors
Ang II Receptor Blockers (...sartans)
Sartans are selective and competitive antagonists of angiotensin II type 1 (AT1) receptors and do not inhibit AT2 receptors.
The physiological function of angiotensin II is mediated by AT1 receptors (vasoconstriction, catecholamine release, aldosterone synthesis, and renal sodium and water retention)
Angiotensin Receptor-Blocking Agents
Losartan and valsartan were the first blockers of the angiotensin II type 1 (AT1) receptor.
More recently, candesartan, eprosartan, irbesartan, and telmisartan.
Have no effect on bradykinin metabolism and are therefore more selective blockers of angiotensin effects than ACE inhibitors.
Angiotensin receptor blockers (ARBs) are medications that block the action of angiotensin II.
As a result, the blood vessels dilate and the blo
od pressure is reduced.
The lower blood pressure makes it easier for the heart to pump blood and can improve heart failure.
Angiotensin I
Angiotensinogen (Liver)
AT1 AT2
Angiotensin II
ACE inhibitor
Valsartan AT1 receptor blocker
Renin inhibitor
Bradykinin
Peptides
Inhibitors of renin-angiotensin-alInhibitors of renin-angiotensin-aldosterone System(RAS) dosterone System(RAS)
Aldosterone
IndicationsIndications::
HypertensionHypertension
Heart FailureHeart Failure
Adverse effects
Similar to those described for ACE inhibitors, including the hazard of use during pregnancy.
Cough and angioedema can occur but are less common with angiotensin receptor blockers than with ACE inhibitors.
To be continue……