SNS Antagonists Flashcards
Describe the effects of each type of adrenoceptor. Alpha 1 Alpha 2 Beta 1 Beta 2 Beta 3
Alpha 1 Vasoconstriction GI tract relaxation Alpha 2 Inhibition of transmitter release Contraction of vascular smooth muscle CNS actions Beta 1 Heart – increased heart rate + contractility Kidneys – increased renin release GI tract relaxation Beta 2 Bronchodilation Vasodilation Relaxation of visceral smooth muscle Hepatic glycogenolysis Beta 3 Lipolysis
State five adrenoceptor antagonists including the receptors that they block.
Labetalol = alpha 1 + beta 1 (more beta 1 (4:1)) Phentolamine = alpha 1 + alpha 2 Prazosin = alpha 1 Propranolol = beta 1 + beta 2 Atenolol = beta 1
State four main clinical uses of SNS antagonists and false transmitters.
Hypertension
Angina
Arrhythmia
Glaucoma
What is defined as hypertension?
Sustained diastolic blood pressure greater than 90 mm Hg
State three elements that contribute to hypertension.
Blood volume
Peripheral vascular tone
Cardiac output
What is the main control of blood pressure?
Sympathetic drive to the kidneys via beta 1 receptors
This triggers renin release from the kidneys (leads to an increase in angiotensin II and aldosterone)
Blockade of which receptors cause the positive effects and thenegative effects of beta-blockers?
Beta 1 blockade = positive effects
Beta 2 blockade = negative effects
What are beta-1 selective blockers called?
Cardioselective Beta-blockers
What effect is responsible for most of the anti-hypertensive effect of beta-blockers?
Beta 1 blockade in the kidneys – this reduces renin release from the kidneys
What effect does beta-1 blockade have on the heart?
Decrease in heart rate
Decrease in cardiac output
How does the effect of beta-blockers on the heart change?
The effect of beta blockade on the heart disappears with chronic treatment as the heart begins to reset itself
What is the effect of presynaptic beta 1 receptors?
They have a positive facilitation effect on the synthesis and release of neurotransmitter, if you block them you reduce the amount of NA coming from the nerve terminal, this contribute to the anti-hypertensive effect of B-1 antagonists
State four conditions in which you would not give a patient a betablocker. Explain each of them.
Asthma – blockade of beta 2 receptors in the lungs can take away the beta 2 mediated bronchodilation, which can be fatal in asthmatics
Cardiac Failure – these patients rely on a certain degree of sympathetic drive to the heart to maintain adequate cardiac output
COPD – same reason as asthma
Diabetes – beta blockade masks the symptoms of hypoglycaemia (e.g. tremors, palpitations, sweating) and beta 2 blockade also inhibits hepatic glycogenolysis
State some other unwanted actions of beta-blockers.
Fatigue
Cold extremities
What effect does propranolol have on heart rate, cardiac output and blood pressure?
It has little effect on these parameters at rest
It decreases all of these parameters when exercising
Why would you still not give a cardioselective beta-blocker to anasthmatic patient?
Selectivity is dependent on concentration