Question

Which effect is caused by both atenolol and diltiazem? (A) decreased cAMP levels (B) increased cGMP levels (C) decreased heart rate (D) relaxation of arterial smooth muscle (E) inhibition of sodium influx

Short answer

(C) decreased heart rate

Step-by-step solution

Introduction to the Medications

Atenolol is a selective beta-1 adrenergic receptor blocker that primarily affects heart rate and cardiac output. Diltiazem is a calcium channel blocker that reduces calcium influx in cardiac and smooth muscle cells, affecting heart rate and vascular tone.

Understanding Atenolol's Effects

Atenolol blocks beta-1 adrenergic receptors in the heart, leading to a decrease in heart rate and cardiac output. It does not directly affect calcium channels or arterial smooth muscle relaxation in the way calcium channel blockers do.

Understanding Diltiazem's Effects

Diltiazem inhibits calcium ions from entering cardiac and smooth muscle cells by blocking voltage-gated calcium channels. This causes decreased heart rate and relaxation of arterial smooth muscles, lowering blood pressure.

Identifying Common Effects

Both atenolol and diltiazem effectively decrease heart rate. Atenolol does this by beta-blockade, while diltiazem achieves this through calcium channel blockade. Although their mechanisms differ, the common physiological outcome is a reduction in heart rate.

Key concepts

Beta-blockers

Beta-blockers, like atenolol, are medications that reduce heart activity. They specifically target beta-1 adrenergic receptors in the heart. This helps to slow down the heart rate.
When beta-1 adrenergic receptors are activated, they normally increase heart rate and force of contraction. By blocking these receptors, beta-blockers decrease both the rate and strength of the heart’s pumping action.
This leads to several benefits:

• Lower heart rate, which reduces the heart's workload.
• Decreased cardiac output, making it easier for the heart to meet the body’s demands.

These actions are useful in treating conditions like hypertension, where the heart is overworking.

Calcium Channel Blockers

Calcium channel blockers, such as diltiazem, play a vital role in cardiovascular health. They primarily work by preventing calcium ions from entering cardiac and vascular smooth muscle cells.
When calcium entry is blocked, this causes the following effects:

• Relaxation of the muscle cells, leading to the widening of the blood vessels (vasodilation).
• Decreased force of contraction of the heart muscle, assisting in lowering blood pressure.
• Reduced heart rate due to lessened electrical activity in the heart.

Calcium channel blockers are thus valuable in managing high blood pressure and preventing angina.

Reduction in Heart Rate

Both beta-blockers and calcium channel blockers are designed to achieve a reduction in heart rate, though they do so through different pathways.
A reduction in heart rate is crucial as it:

• Alleviates stress on the heart by requiring less oxygen.
• Helps to manage various heart conditions, such as arrhythmias.
• Ensures better control of hypertension by reducing output pressure needs.

This common goal makes them complementary in treating similar heart-related conditions.

Cardiac Output

Cardiac output is the amount of blood the heart pumps in one minute. It is a critical measure of heart performance and is calculated as the product of heart rate and stroke volume.
Understanding cardiac output helps clarify how medications like beta-blockers and calcium channel blockers function:

• Beta-blockers lower cardiac output by decreasing heart rate and the force of each heartbeat.
• Calcium channel blockers reduce cardiac output primarily by lowering heart rate and easing vascular tension, reducing resistance against which the heart must pump.

By decreasing cardiac output, these drugs help in managing conditions like heart failure and coronary artery disease.