Drug formulary from 3rd year of medicine at the University of Leeds to help you remember the core drugs including their side-effects, indications, contraindications and more!
ACEi
Examples RAMIPRIL, LISINOPRIL, PERINDOPRIL
MOA - Block ACE – prevents Ang I Ang II so vasodilation of efferent arteriole ↓
PVR lowers BP
- Dilates efferent glomerular arteriole ↓ intraglomerular pressure and slows
progression of CKD
- Reduced aldosterone more Na and water excretion reduced venous return
lowers BP
- Activated by phase 1 metabolism in the liver
Indication 1. HTN: 1st or 2nd line - reduce risk of stroke, MI and death from CV disease
2. Chronic heart failure – 1st line for all grades
3. Ischaemic heart disease – ↓ risk of subsequent CV events
4. Diabetic nephropathy and CKD – ↓ proteinuria and progression of nephropathy
SE - Hypotension
- Persistent dry cough - due to ↑ bradykinin
- Hyperkalaemia - lower aldosterone means potassium retention
- Angioedema, Tongue swelling
- Can worsen renal failure if renal artery stenosis
Contraindicati - Patients with renal artery stenosis or AKI, pregnant and breastfeeding
ons women
Interactions - Potassium-elevating drugs and Potassium-sparring diuretics
- NSAIDS - increases risk of renal failure, reduce anti-hypertensive effects
Elimination - Metabolised in liver, excreted by kidneys – Ramipril is also excreted in stool
ARB
Examples LOSARTAN
MOA - Block Ang II on AT1 receptor vasodilation of efferent arteriole ↓ PVR lowers
BP
- Dilates efferent glomerular arteriole ↓ intraglomerular pressure and slows
progression of CKD
- Reduced aldosterone more Na and water excretion reduced venous return
lowers BP
Indication 1. HTN: 1st or 2nd line - reduce risk of stroke, MI and death from CV disease
2. Chronic heart failure – 1st line for all grades
3. Ischaemic heart disease – ↓ risk of subsequent CV events
4. Diabetic nephropathy and CKD – ↓ proteinuria and progression of nephropathy
SE Hypotension
Kidney failure if renal artery stenosis
Hyperkalaemia
Contraindicati Patients with renal artery stenosis or AKI, pregnant and breastfeeding women
ons
Interactions - Potassium-elevating drugs and Potassium-sparring diuretics
- NSAIDS - increases risk of renal failure
Elimination - Highly bound to plasma proteins, excreted by kidneys
Nitrates
Examples ISOSORBIDE MONONITRATE, GTN
MOA - Nitrates NO ↑ cGMP and decreased Ca 2+ in vascular smooth muscle so
muscles relax
- This causes venous vasodilatation which ↓ cardiac preload and L ventricular
filling
- Overall ↓ cardiac work and myocardial oxygen demand relieving angina and
cardiac failure
- Can also relieve coronary vasospasms and dilate collateral vessels – improving
coronary perfusion
Indication 1. Acute angina and chest pain assoc w/ ACS - Short-acting (GTN)
, 2. Prophylaxis of angina – Long-acting (Isosorbide mononitrate) if B or CCB not
tolerated
3. Pulmonary odema – IV nitrates in combination with oxygen and furosemide
SE - Flushing, headaches, light-headedness, hypotension
- Sustained use can lead to tolerance
Contraindicati - Severe aortic stenosis
ons - Haemodynamic instability e.g. hypotension
Interactions Phosphodiesterase inhibitors - these enhance and prolong hypotensive effect of
nitrates
Caution Patient’s taking antihypertensive medication as it may precipitate hypotension
Elimination Metabolised in liver, excreted in urine and 1% in faeces
Beta Blockers (beta-1-adrenorecptors)
Examples ATENOLOL, BISOPROLOL
MOA - ↓ force of contraction and speed of conduction of heart via the b-1 receptor on
pacemaker cells
- This relieves myocardial ischaemia by reducing cardiac work and oxygen
demand
- They slow ventricular rate in AF by prolonging refractory period of AVN
- They ↓ BP by ↓ renin secretion from kidney since this is mediated by 1-
receptors
Indication 1. Ischaemic heart disease - 1st line to improve symptoms assoc w/angina and
ACS
2. Chronic heart failure – 1st line to improve prognosis
3. AF – 1st line to reduce ventricular rate and to maintain sinus rhythm in
paroxysmal AF
4. Supraventricular tachycardiac (SVT) – 1st line in pt’s with no circulatory
compromise
5. HTN – if others (A,C or D) not tolerated
SE - Fatigue, cold extremities, headache, GI disturbance
- Sleep disturbance
- Bradycardia, bronchospasms
- Abrupt withdrawal rebound tachycardia
Contraindicati - Asthma – can cause bronchospasm
ons - Haemodynamic instability and heart block
Interactions - Non-dihydropyridines - both are -vely inotropic and chronotropic cause HF,
bradycardia, asystole
Caution - COPD – use bB that is b1-selective (bisoprolol) rather than nonselective
(propranolol)
- HF – start at low-dose dose and ↑ slowly as they may impair cardiac function
- Hepatic failure – dosage reduction
- Worsen symptoms of patients with peripheral vasucular disease
Elimination Metabolised in liver and excreted by kidneys, but atenolol remains unchanged in
urine and stool
CCB
Examples AMLODIPINE , NIFEDIPINE, DILTIAZEM, VERAPAMIL
MOA - ↓ entry of Ca2+ into vascular and cardiac cells relaxation and vasodilation in
arterial smooth muscle
- CCBs ↓ myocardial contractility – supress cardiac conduction across AVN – slows
ventricular rate
- ↓ cardiac rate, contractility and afterload ↓ myocardial oxygen demand
prevents angina
Dihydropyridines: amlodipine, nifedipine – selective for vasculature
Non-Dihydropyridines: verapamil, diltiazem– selective for heart (NB: diltiazem has
some effects on vessels)
Indication 1. HTN – 1st or 2nd line – amlodipine – ↓ risk of stroke, MI, death from CV disease
, 2. Stable angina – control symptoms
3. Supraventricular arrythmias (AVT, AF, atrial flutter) – Diltiazem and Verapamil
SE Amlodipine and nifedipine: ankle swelling, flushing, headache, palpitations,
constipation
Verapamil: constipation, bradycardia, heart block, HF
Diltiazem can cause any of these effects
Contraindicati - pt’s with AVN conduction delay - may provoke complete heart block
ons - Unstable angina – avoid amlodipine/nifedipine – causes ↑ contractility and HR
↑ oxygen demand
- Severe aortic stenosis - avoid amlodipine/nifedipine – can provoke collapse
Interactions - bB and non-dihydropyridines
Caution Use non-dihydropyridines with caution in pt’s with poor left ventricular function
Elimination Metabolised rapidly and almost completely by liver
Potassium sparring diuretics
Examples SPIRONOLACTONE, AMILORIDE
MOA - Acts on DCT inhibits reabsorption of Na+ by ENaC excretion of Na+ and
water, retention of K+
↓ excretion of K+ and H+ reduced blood pressure and increased serum
potassium levels
Indication 1. Hypokalaemia – as part of combination therapy with other diuretics
SE When used with other diuretics: dizziness, hypotension, urinary symptoms
Hypokalaemia, hypokalaemia or hyponatraemia may also occur
Contraindicati - Severe renal impairment and hyperkalaemia
ons - Hypokalaemia – effect of potassium may be unpredictable
- States of volume depletion
Interactions - Potassium-elevating drugs (e.g. supplements and aldosterone antagonist) –
risk of hyperkalaemia
Caution Renal clearance of drugs e.g. digoxin and lithium may be altered – requiring dose
adjustment
Elimination Metabolised in liver and excreted by kidneys
Thiazide diuretics
Examples BENDROFLUMETHIAZIDE
MOA - Inhibit the Na+/Cl- co-transporter in DCT prevents reabsorption of Na and water
- This caused an initial fall in extracellular fluid volume ↓ BP
Indication 1. HTN – alternative if CCB unsuitable (e.g. odema) or add-on if BP not controlled
by CCBs + ACEi or ARB
SE - Hyponatraemia
- Hypokalaemia – due to increased urinary K losses may cause cardiac
arrythmias
- Hyperglycaemia, hyperlipaemia, hypercholesterolaemia
- May cause impotence in men
Contraindicati - pt’s with hypokalaemia and hyponatremia
ons - Gout – since they reduce uric acid excretion
Interactions - NSAIDs – reduced effectiveness of thiazides
Caution Loop diuretics – need electrolyte monitoring
Elimination Metabolised in liver and excreted by kidneys
Loop diuretics
Examples FUROSEMIDE
MOA - Inhibit the Na+/K+/2Cl- co-transporter in ascending loop → water also inhibited
lowers BP
- They also cause venous vasodilatation – in HF, this ↓ preload and improved
contractility
Indication 1. Acute pulmonary odema – relief of breathlessness in conjugation with oxygen
and nitrates
2. Chronic HF – symptom relief of fluid overload
3. Other oedematous states – e.g. liver failure, renal disease
The benefits of buying summaries with Stuvia:
Guaranteed quality through customer reviews
Stuvia customers have reviewed more than 700,000 summaries. This how you know that you are buying the best documents.
Quick and easy check-out
You can quickly pay through credit card or Stuvia-credit for the summaries. There is no membership needed.
Focus on what matters
Your fellow students write the study notes themselves, which is why the documents are always reliable and up-to-date. This ensures you quickly get to the core!
Frequently asked questions
What do I get when I buy this document?
You get a PDF, available immediately after your purchase. The purchased document is accessible anytime, anywhere and indefinitely through your profile.
Satisfaction guarantee: how does it work?
Our satisfaction guarantee ensures that you always find a study document that suits you well. You fill out a form, and our customer service team takes care of the rest.
Who am I buying these notes from?
Stuvia is a marketplace, so you are not buying this document from us, but from seller azreenafzal. Stuvia facilitates payment to the seller.
Will I be stuck with a subscription?
No, you only buy these notes for $13.52. You're not tied to anything after your purchase.