26. Antihypertensive drugs

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Hypertension

Hypertension is the most common cardiovascular disease. Its diagnosis should be based on repeated blood pressure measurements under calm conditions.

  • Mild hypertension – 140/90 to 159/99 mmHg
  • Moderate hypertension – 160/100 to 179/109 mmHg
  • Severe hypertension – >180/110 mmHg

Hypertension may be secondary to a condition like Cushing’s or pheochromocytoma, but it’s most commonly primary.

The blood pressure depends on the cardiac output and the total peripheral resistance (TPR). This gives multiple target areas to influence the blood pressure:

  • The arterioles, which determine the TPR
  • The heart, which determines the cardiac output
  • The kidney, which determines the vascular volume and TPR

The following drug types are the most important in treating hypertension:

  • ACE inhibitors
  • Angiotensin receptor blockers
  • Thiazide and thiazide-like diuretics
  • Calcium channel blockers
  • Beta blockers

The others are less commonly used.

Diuretics

The role of Na+ in hypertension is established, but the mechanism of it is unclear. Dietary Na+ restriction reduces BP, and diuretics achieve a similar effect by depleting Na+ from the body. Diuretics can lower the blood pressure by 10-15 mmHg in most patients and are therefore adequate for mild or moderate hypertension.

For chronic treatment are thiazides and thiazide-like diuretics like hydrochlorothiazide, chlorthalidone, and indapamide the first choice.

For acute treatment of hypertension are loop diuretics like furosemide used.

Drugs that influence the sympathetic nervous system

In this category there are many drugs:

  • Drugs acting on the vasomotor centre in the CNS
    • Methyldopa
    • Clonidine
  • Drugs acting on α1 adrenergic receptors
    • Prazosin
    • Doxazosin
  • Drugs acting on β adrenergic receptors
    • Metoprolol
    • Atenolol

These drugs work by either reducing periferal vascular resistance or decreasing the work of the heart, both of which reduce the BP according to the equation BP = CO x PVR.

Indications

Centrally acting agents like methyldopa and clonidine are used in the treatment of hypertension during pregnancy, as they’re some of the few antihypertensives that aren’t teratogenic. They’re also second or third-line drugs in hypertensive crises.

Drugs blocking α1 adrenergic receptors like prazosin and doxazosin are used to treat hypertension due to phaeochromocytoma.

Drugs acting on β adrenergic receptors like metoprolol and atenolol are preferred to treat hypertension in patients who also have additional indication for β blockade, like angina or heart failure.

Mechanism of action

Centrally acting agents stimulate the inhibitory α2 receptors in the vasomotor centre in the CNS. This decreases sympathetic outflow.

α1 blockers block catecholamine-mediated vasoconstriction. β blockers cause negative heart effects and decrease renin secretion.

Side effects

Centrally acting agents:

  • Sedation
  • Depression
  • Impotence

α blockers:

  • Orthostatic hypotension
  • Reflex tachycardia

β blockers:

  • Bronchospasm
  • Bradycardia
  • Decreased peripheral circulation
  • Hypertriglyceridaemia

Calcium channel blockers

These drugs reduce the Ca2+ influx into vascular smooth muscle and therefore decreases their tone. Recall from topic 1 that dihydropyridines are the only type that doesn’t also have cardiac effects.

Dihydropyridines may cause reflex tachycardia (which is bad for coronary artery disease) mostly just right after the beginning of the treatment. This is avoided when using sustained release (retard) preparations. They may also cause dizziness, flushing and peripheral oedema.

Dihydropyridines like nifedipine and amlodipine are preferred over non-dihydropyridines.

Drugs acting on RAAS

Activation of RAAS increases the blood pressure by several mechanisms:

  • Angiotensin II-mediated
    • Generalized vasoconstriction
    • Positive heart effects
    • Increased sympathetic tone
    • Stimulation of aldosterone
    • Cell remodelling and hypertrophy of the myocardium
  • Aldosterone-mediated
    • Salt and water retention

You can read more about these drugs in topic 2.

ACE inhibitors and angiotensin receptor blockers are useful in treating mild-to-severe hypertension. They may notably be less effective in African Americans than in Caucasians as the former have lower plasma levels of renin than the latter.

Because RAAS is a slow-acting system the full BP-lowering effect is not seen until 3-6 weeks after the beginning of therapy.

Potassium channel activators

These drugs activate ATP-regulated K+ channels. This causes hyperpolarization of vascular smooth muscle, which decreases their tone.

Minoxidil is the first type. It’s a prodrug that is converted into the active metabolite by a hepatic enzyme. It has the funny side-effect of causing hypertrichosis (excessive hair growth), which has led it to being used to treat baldness instead of hypertension. It is very rarely used as an antihypertensive nowadays, but is widely used to treat male pattern baldness!

Diazoxide acts exclusively on arterioles but also inhibits insulin secretion from β-cells. It acts very rapidly (within 30 seconds when given IV) and was therefore used for acute treatment of severe hypertension. It is not used anymore on this indication.

Drugs that increase cGMP

Sodium nitroprusside is an organic nitrate which releases NO when metabolized. NO activates intracellular soluble guanylyl cyclase, which increases intracellular levels of cGMP. This decreases the tone of vascular smooth muscle.

It also releases cyanide in small amounts when metabolized. This is normally not a problem but will be if overdosed or the person taking it has defective cyanide metabolism.

Sodium nitroprusside is used in cases where acute reduction of blood pressure is necessary, like hypertensive emergencies.

Drugs with unknown mechanism

Hydralazine is interesting as the mechanism of which it causes vasodilation is unknown. It significantly activates the sympathetic nervous system and should therefore always be used with beta blockers. It also frequently causes headache and nausea. It’s rarely used nowadays, only used as a second or third line in hypertensive emergencies and in hypertension in pregnant women.

What to use?

This is not important to know for the exam as the department doesn’t teach it. I’m including it because it obviously has clinical value and might clear up some confusion.

Like always we have the problem where there are so many drugs available and we don’t know which drugs to use when. According to the 2020 ISH guidelines for hypertension, combined treatment with two antihypertensive drugs in low dose (ideally in the same pill) is more efficacious and has less side effect than a single drug in a higher dose.

 
2018 ESC/ESH drug treatment strategy for patients with hypertension and no other conditions[1]. ARB = angiotensin receptor blocker. CCB = calcium channel blocker. ACEi = ACE inhibitor

To determine which drug type to use should we keep the contraindications and potential side-effects of each drug type in mind. Some drugs also have other indications, and if the patient has these indications as well should we use that drug type. For example should patients suffering from both heart failure and hypertension be given ACE inhibitors or beta blockers as they are indicated for both conditions. Drugs affecting RAAS are contraindicated in pregnancy. Calcium antagonists should not be used in arrhythmias or heart failures. Beta blockers should not be used in asthma. Diuretics should not be used in gout.

If one drug type is unable to lower the BP satisfactorily is it recommended to add another type rather than to increase the dose of the first drug. This is to decrease the risk for side-effects.

2018 guidelines[1] state that drugs like alpha blockers, centrally acting agents and aldosterone antagonists have too many side-effects to be considered as primary treatment for hypertension. These drugs can be considered if the hypertension can’t be controlled by the aforementioned drugs.