Anti-hypertensives

Question 1

How do ACE inhibitors work?

Answer 1

ACE inhibitors are Angiotensin Converting Enzyme antagonists
This prevents the conversion of Angiotensin I to Angiotensin II

Question 2

What are the effects of ACE inhibitors?

Answer 2

They prevent vasoconstriction and decreases the retention of Na+ and Water, therefore decreasing blood volume

Question 3

What are some examples of ACE inhibitors?

Answer 3

Lisinopril
Enalopril
Perindopril
Ramipril

Question 4

What is a side effect of ACE inhibitors?

Answer 4

They can cause a dry cough due to increased bradykinin secretion

Question 5

Who are ACE inhibitors used on?

Answer 5

They are used in the first line treatment in hypertension with Type II diabetes
They are also used in hypertension of those under the age of 55 who are NOT Black African or Afro-Carribean
They are also used in heart failure as they decrease vasomotor tone, blood volume and blood pressure

Question 6

How do Angiotensin II Receptor Blockers work?

Answer 6

These block receptors in the body to angiotensin II
This prevents the effects of angiotensin II
This prevents vasoconstriction, Na+ and water retention

Question 7

What are some examples of Angiotensin II Receptor Blockers (ARBs)?

Answer 7

Losartan
Irbesartan
Candesartan
Valsartan

Question 8

Who are Angiotensin II Receptor Blockers used on?

Answer 8

They are used in the treatment of hypertension and heart failure in those who cannot tolerate ACE inhibitors
They can be used in those with type II diabetes and those under 55 who are NOT Black African or Afro-Carribean

Question 9

What are loop diuretics used for?

Answer 9

They are useful in the treatment of congestive heart failure
This is because they decrease blood volume and this decrease strain on the heart
They are also useful in decreasing peripheral and pulmonary oedema

Question 10

What are some examples of loop diuretics?

Answer 10

Furosemide
Bumetanide

Question 11

Which type of Ca2+ channel blocker is used as an anti-hypertensive?

Answer 11

DIhydropyridine Ca2+ blockers

Question 12

What are some examples of Dihydropyridine Ca2+ blockers?

Answer 12

Amplodipine
Nicardipine

Question 13

How do Dihydropyridine Ca2+ blockers work?

Answer 13

They work on smooth muscle in blood vessels, decreasing SVR and arterial blood pressure
This reduces the workload of the heart, making them useful in the treatment of hypertension, heart failure, angina and supra ventricular tachycardias

Question 14

What are some examples of vasodilatory hypertensives?

Answer 14

Hydralazine
Minoxidil

Question 15

What is a common side effect of minoxidil?

Answer 15

Hypertrichosis (Excessive hair growth)

Question 16

What is hypertrichosis?

Answer 16

Excessive hair growth

Question 17

What are some examples of α2 agonists?

Answer 17

Methyldopa
Clonidine

Question 18

How do α2 adrenoceptor agonists work in hypertension?

Answer 18

They bind to and activate α2 adrenoceptors, which causes vasodilation

Question 19

What are some examples of α1 adrenoceptor antagonists?

Answer 19

Prazosin
Terazosin

Question 20

How do α1 adrenoceptor antagonists work?

Answer 20

They bind to and block α1 adrenoceptors which causes vasodilation

Question 21

What is an example of a cardiac glycoside?

Answer 21

Digoxin

Question 22

What is an example of a ß-adrenoceptor agonist?

Answer 22

Dobutamine

Question 23

What are some examples of drug classes that act as positive inotropes (Increase force of contraction)?

Answer 23

Cardiac Glycosides
ß-adrenoceptor agonists

Question 24

How do cardiac glycosides work?

Answer 24

They are synthesised from foxgloves (Digitalis purpurea)
This blocks the sodium potassium pump
This usually sets up the Na+ gradient required for the Na+/Ca2+ pump
Lack of this gradient causes a build up of Ca2+ in the sarcoplasmic reticulum
This increases the strength of contraction

Question 25

What are the preferred treatment options for heart failure?

Answer 25

Don’t flog a dying horse - It is better to reduce the hearts workload than to make it work harder
ACE inhibitors, ARBs and diuretics are better
ß-blockers can also be used

Question 26

What is angina?

Answer 26

Pain due to transient ischaemia, when O2 supply to the heart does not meet the needs of the heart

Question 27

What are the 2 forms of angina?

Answer 27

Stable
Unstable

Question 28

What is meant by stable angina?

Answer 28

Angina that is brought on by vigorous exercise

Question 29

What is meant by unstable angina?

Answer 29

Angina that is brought on by simple activity or even at rest

Question 30

What is the main symptom of angina?

Answer 30

Dull chest pain

Question 31

What is the main treatment option used for angina?

Answer 31

Organi nitrates

Question 32

How do organic nitrates work?

Answer 32

Organic nitrates bind with Thiols (-SH) in vascular smooth muscle
This releases nitric oxide
Nitric Oxide activates granulate cyclase
This increases levels of cGMP
This lowers intracellular Ca2+ levels
This causes relaxation of vascular smooth muscle
This decreases SVR

Question 33

What are some examples of organic nitrates?

Answer 33

Glyceryl Trinitride (GTN) = Short acting
Isosorbide Di/Mono-Nitrate = Longer acting

Question 34

What are the primary actions of Nitric Oxide?

Answer 34

Ventilation lowers preload
This reduces workload of the heart
This decreases force of contraction by Starling mechanism
This decreases the hearts need for O2

Question 35

What are the secondary actions of Nitric Oxide?

Answer 35

Action of coronary collateral arteries improves O2 delivery
It acts on veins most, arteries second then not on arterioles