Drug-drug interactions

Drug-drug pairs with clinical significance. Each pair includes mechanism, management, and links to international clinical guidelines (ESC, AHA/ACC, FDA, AGS Beers, Stockley's, Lexicomp)

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1030 of 1030 shown

Major
Enalapril × Losartan
Dual RAAS blockade: ACE-I blocks angiotensin II formation, ARB blocks its receptors.
Major
Ethinylestradiol × Rifampicin
Rifampicin is the most potent CYP3A4 inducer in clinical practice.
Major
Escitalopram × Tramadol
Escitalopram (SSRI) raises synaptic serotonin; tramadol blocks serotonin and norepinephrine reuptake.
Major
Apixaban × Clopidogrel
Apixaban directly inhibits factor Xa; clopidogrel blocks the platelet P2Y12 receptor.
Major
Carbamazepine × Simvastatin
Carbamazepine induces CYP3A4 – the main simvastatin metabolic route.
Major
Acetylsalicylic acid × Furosemide
Dual mechanism: aspirin competes with furosemide for organic anion tubular secretion in the renal tubules (so furosemide does not reach its target in the loop of Henle lumen), and concurrently suppresses renal prostaglandin synthesis supporting glomerular perfusion.
Major
Escitalopram × Moxifloxacin
Additive QT prolongation.
Major
Atorvastatin × Carbamazepine
Carbamazepine induces CYP3A4 – the main atorvastatin metabolic route.
Major
Alprazolam × Amitriptyline
Additive CNS depression, sedation, and anticholinergic effect.
Major
Digoxin × Metoprolol
Additive slowing of atrioventricular (AV) conduction and lowered heart rate.
Moderate
Amlodipine × Nitroglycerin
Additive hypotension with sublingual or parenteral nitroglycerin.
Major
Amiodarone × Sertraline
Both drugs prolong QT.
Major
Haloperidol × Moxifloxacin
Haloperidol prolongs QT, moxifloxacin too.
Minor
Atorvastatin × Clopidogrel
An early study (Lau et al.
Moderate
Enalapril × Metformin
ACE inhibitors improve tissue insulin sensitivity and potentiate metformin's glucose-lowering effect.
Moderate
Losartan × Metoprolol
Target combination in heart failure and arterial hypertension.
Minor
Metformin × Omeprazole
Omeprazole weakly inhibits intestinal OCT1, the transporter mediating metformin absorption.
Minor
Amoxicillin × Levothyroxine sodium
Amoxicillin taken concurrently may slightly impair intestinal levothyroxine absorption.
Moderate
Furosemide × Sertraline
Both can cause hyponatraemia: furosemide via natriuresis, sertraline via SIADH-like mechanism.
Minor
Metronidazole × Paracetamol
No direct pharmacokinetic interaction.
Major
Carbamazepine × Ciclosporin
Carbamazepine induces CYP3A4 – the main cyclosporine metabolic route.
Major
Ciclosporin × Voriconazole
Voriconazole inhibits CYP3A4.
Minor
Atorvastatin × Levothyroxine sodium
Hypothyroidism itself raises LDL.
Critical
Everolimus × Voriconazole
Strong CYP3A4 inhibitor.
Critical
Rifampicin × Rivaroxaban
Rifampicin is a strong CYP3A4 + P-gp inducer.
Moderate
Ciprofloxacin × Sertraline
Both prolong QT.
Minor
Calcium carbonate × Doxycycline
Doxycycline forms non-absorbable chelates with calcium in the gut (and with other polyvalent cations — magnesium, iron, aluminium).
Minor
Amoxicillin × Metronidazole
Target combination in triple and quadruple Helicobacter pylori eradication (Maastricht VI/Florence Consensus 2022, Kyoto Global Consensus).
Moderate
Digoxin × Rifampicin
Rifampicin induces enterocyte P-glycoprotein.
Moderate
Bisoprolol × Diazepam
Additive CNS depression and mild hypotension.
Critical
Itraconazole × Sirolimus
Itraconazole is the strongest CYP3A4 inhibitor.
Major
Dronedarone × Fluoxetine
Fluoxetine blocks CYP2D6 (strongly) and CYP3A4 (moderately).
Minor
Acetylsalicylic acid × Calcium carbonate
Antacids accelerate renal aspirin elimination via urinary alkalinisation.
Major
Clopidogrel × Esomeprazole
Esomeprazole inhibits CYP2C19, the key enzyme that converts clopidogrel to its active metabolite.
Major
Amiodarone × Carbamazepine
Dual mechanism.
Major
Amitriptyline × Carbamazepine
Carbamazepine induces CYP3A4 and CYP2D6; amitriptyline plasma levels fall by 50–60%.
Minor
Alprazolam × Digoxin
No direct pharmacokinetic or pharmacodynamic interaction.
Major
Amlodipine × Rifampicin
Rifampicin strongly induces CYP3A4 – the main amlodipine metabolic route.
Minor
Amlodipine × Budesonide
No clinically significant direct interaction.
Major
Azithromycin × Haloperidol
Additive QT prolongation.
Moderate
Losartan × Metformin
ARBs, like ACE inhibitors, improve tissue insulin sensitivity.
Minor
Amlodipine × Calcium carbonate
No clinically significant direct interaction.
Moderate
Amlodipine × Metoprolol
Target combination in angina and hypertension.
Minor
Amlodipine × Ciprofloxacin
No clinically significant direct interaction.
Moderate
Clopidogrel × Sertraline
Clopidogrel blocks platelet aggregation via the P2Y12 receptor; sertraline impairs primary haemostasis by inhibiting platelet serotonin reuptake.
Moderate
Digoxin × Spironolactone
Spironolactone moderately inhibits P-glycoprotein; digoxin levels rise by 20–30%.
Minor
Amoxicillin × Ethinylestradiol
Historical theory of reduced combined oral contraceptive efficacy via gut flora suppression.
Moderate
Hydrochlorothiazide × Sertraline
Thiazides are one of the most common drug causes of hyponatraemia in older patients via SIADH-like mechanism and natriuresis.
Major
Captopril × Co-trimoxazole
Trimethoprim (a co-trimoxazole component) blocks sodium channels in the collecting duct epithelium (amiloride-like mechanism) and reduces potassium secretion.
Moderate
Omeprazole × Sertraline
Omeprazole inhibits CYP2C19, the enzyme responsible for sertraline metabolism.
Critical
Moxifloxacin × Sotalol
Dual QT prolongation.
Moderate
Carbamazepine × Linezolid
No direct pharmacokinetic interaction.
Major
Ciprofloxacin × Dronedarone
Additive QT prolongation.
Major
Ciprofloxacin × Tramadol
Dual risk: both drugs lower the seizure threshold.
Minor
Ciprofloxacin × Ethinylestradiol
The historical theory of reduced combined oral contraceptive efficacy via gut flora suppression is rejected by meta-analyses.
Major
Acetylsalicylic acid × Rivaroxaban
Aspirin irreversibly blocks platelet cyclooxygenase; rivaroxaban directly inhibits factor Xa.
Major
Alprazolam × Tramadol
Alprazolam and tramadol depress the central nervous system and respiratory centre.
Minor
Doxycycline × Ethinylestradiol
Doxycycline does not affect hepatic ethinylestradiol metabolism.
Moderate
Levothyroxine sodium × Omeprazole
Proton pump inhibitors raise gastric pH, reducing levothyroxine absorption.
Minor
Ascorbic acid × Metformin
No direct pharmacokinetic interaction.
Major
Carbamazepine × Haloperidol
Carbamazepine induces CYP3A4 – a partial haloperidol clearance route.
Major
Amiodarone × Escitalopram
Escitalopram (SSRI) is a citalopram enantiomer with dose-dependent QT prolongation.
Moderate
Glibenclamide × Propranolol
Beta-blockers mask adrenergic hypoglycaemia symptoms (tachycardia, tremor), leaving only sweating.
Critical
Itraconazole × Lovastatin
Strong CYP3A4 inhibitor – lovastatin rises 20+ fold.
Minor
Azithromycin × Ethinylestradiol
Azithromycin has minimal effect on CYP3A4 (unlike clarithromycin and erythromycin).
Moderate
Ciprofloxacin × Metformin
Fluoroquinolones disturb glucose homeostasis — they can cause both hypoglycaemia (especially in older patients on glucose-lowering therapy) and hyperglycaemia.
Moderate
Digoxin × Furosemide
Furosemide is a loop diuretic that increases urinary loss of potassium and magnesium.
Minor
Amlodipine × Enalapril
Target combination in hypertension: synergistic BP lowering via different mechanisms (calcium channel blockade plus RAAS suppression).
Major
Carbamazepine × isotretinoin
Carbamazepine is a CYP3A4 inducer.
Minor
Ethinylestradiol × Metronidazole
Metronidazole does not induce CYP3A4 and does not affect hepatic ethinylestradiol metabolism.
Moderate
Hydrochlorothiazide × Metformin
Thiazide diuretics reduce glycaemic control via hypokalaemia-driven suppression of insulin secretion.
Major
Amiodarone × Furosemide
Furosemide (loop diuretic) increases potassium and magnesium loss.
Major
Co-trimoxazole × Valsartan
Trimethoprim blocks collecting duct sodium channels (amiloride-like mechanism) and reduces potassium secretion.
Moderate
Bisoprolol × Linezolid
Linezolid is a reversible MAO inhibitor.
Minor
Azithromycin × Estradiol
Azithromycin has minimal effect on CYP3A4 and does not affect hepatic oestradiol metabolism.
Major
Diclofenac × Rivaroxaban
Additive GI bleeding risk: anticoagulant (rivaroxaban) + ulcerogenic NSAID (diclofenac).
Moderate
Escitalopram × Fluconazole
Fluconazole weakly inhibits CYP3A4 and CYP2C19.
Major
Fluoxetine × Tamoxifen
Fluoxetine is a strong CYP2D6 inhibitor.
Major
celecoxib × tacrolimus
Celecoxib (a selective COX-2 inhibitor) reduces renal blood flow via prostaglandin suppression.
Major
Ketoconazole × Rifampicin
Dual mechanism.
Moderate
Linezolid × Morphine
Linezolid is a reversible MAO inhibitor and may mildly potentiate opioid CNS depression.
Major
Rifampicin × tacrolimus
Strong CYP3A4 inducer.
Moderate
Theophylline × Tramadol
Both lower the seizure threshold.
Major
Mirtazapine × Tramadol
Tramadol is a serotonergic opioid; mirtazapine raises serotonergic transmission via α2-blockade.
Moderate
Acetylsalicylic acid × Dexamethasone
Additive ulcerogenic effect.
Moderate
Acetylsalicylic acid × Verapamil
At high doses, aspirin weakens verapamil's antihypertensive effect via vasodilator prostaglandin suppression.
Moderate
Alprazolam × Hydrochlorothiazide
Additive hypotension and fall risk.
Moderate
Alprazolam × Losartan
Additive hypotension.
Moderate
Allopurinol × Indapamide
Indapamide (thiazide-like diuretic) raises allopurinol and oxypurinol levels, increasing hypersensitivity risk.
Minor
Alprazolam × Spironolactone
No direct interaction.
Moderate
Alprazolam × Valproic acid
Valproate weakly suppresses hepatic alprazolam metabolism; alprazolam plasma levels may rise slightly.
Moderate
Alprazolam × Mirtazapine
Additive sedation and fall risk in older patients.
Minor
Amiodarone × Montelukast
No clinically significant direct interaction.
Moderate
Amiodarone × Loratadine
Loratadine causes minimal QT prolongation at standard doses, but with CYP3A4 blockade by amiodarone, loratadine levels rise, potentially amplifying cardiac effects in predisposed patients.
Moderate
Amiodarone × Linezolid
Linezolid mildly prolongs QT, additively with amiodarone.
Minor
Amitriptyline × Spironolactone
No direct interaction.
Moderate
Amitriptyline × Indapamide
Additive orthostatic hypotension and hypokalaemia risk.
Moderate
Amitriptyline × Propranolol
Additive bradycardia and orthostatic hypotension.
Minor
Amitriptyline × Levetiracetam
Levetiracetam is not metabolised by the CYP system; no pharmacokinetic interaction with amitriptyline.
Minor
Amlodipine × Apixaban
No clinically significant direct interaction.
Minor
Amoxicillin × Estradiol
Same as the ethinylestradiol pair: meta-analyses did not confirm clinically significant reductions in hormone therapy efficacy with broad-spectrum antibiotics.
Major
fluvoxamine × Mirtazapine
Serotonergic load from combining two drugs with different mechanisms.
Moderate
Amlodipine × Linezolid
Linezolid is a reversible MAO inhibitor.
Moderate
Apixaban × Ciprofloxacin
Ciprofloxacin weakly affects CYP3A4 and P-glycoprotein — the main clearance routes of apixaban.
Critical
Amitriptyline × Methylthioninium chloride (methylene blue)
IV methylene blue inhibits MAO-A.
Critical
Clarithromycin × Lovastatin
Clarithromycin inhibits CYP3A4 – lovastatin (sensitive substrate) rises 8-fold.
Major
Atorvastatin × Colchicine
Additive myopathy and rhabdomyolysis risk.
Major
Mirtazapine × venlafaxine
'California rocket fuel' augmentation – mirtazapine (5-HT2/3 blocker) + venlafaxine (SNRI).
Critical
Lovastatin × Voriconazole
Strong CYP3A4 inhibitor.
Minor
Ethinylestradiol × Norfloxacin
Norfloxacin does not induce CYP3A4 and does not affect ethinylestradiol metabolism.
Minor
Doxycycline × Estradiol
Doxycycline does not induce CYP3A4 and does not affect oestradiol metabolism.
Minor
Azithromycin × Rosuvastatin
Rosuvastatin is minimally metabolised by CYP2C9 and excreted mainly unchanged via the liver and kidneys.
Minor
Lithium × Magnesium (oral salts: citrate, glycinate, oxide, sulfate)
Magnesium theoretically antagonises lithium-driven neuronal excitability, but no clinical cases of efficacy loss at standard magnesium doses (up to 400 mg/day) have been described.
Minor
Calcium carbonate × Simeticone
Simethicone is a surface-active silicone agent that is not absorbed in the gastrointestinal tract.
Minor
Bisoprolol × Paracetamol
Paracetamol and bisoprolol are metabolised by different pathways.
Minor
Calcium carbonate × Sertraline
Calcium carbonate and sertraline are metabolised by different pathways.
Minor
Echinacea purpurea (juice/extract) × Paracetamol
Echinacea purpurea modulates CYP1A2 and CYP3A4 in vitro, but the in vivo effect is minimal.
Minor
Atorvastatin × Azithromycin
Azithromycin does not clinically significantly inhibit CYP3A4 (Indiana Flockhart Table).
Moderate
Dexamethasone × Metformin
Dexamethasone stimulates gluconeogenesis and reduces tissue insulin sensitivity.
Moderate
Cyanocobalamin × Esomeprazole
Esomeprazole suppresses gastric acidity, reducing release of B12 from food (which requires HCl and pepsin).
Moderate
Diazepam × Loratadine
Loratadine rarely causes sedation at standard doses.
Minor
Azithromycin × Simvastatin
Azithromycin does not significantly inhibit CYP3A4, unlike clarithromycin and erythromycin (the FDA labels these as absolute contraindications with simvastatin due to rhabdomyolysis risk).
Critical
Allopurinol × Azathioprine
Allopurinol inhibits xanthine oxidase, the enzyme that inactivates 6-mercaptopurine (the active metabolite of azathioprine).
Moderate
Ciclosporin × Digoxin
Ciclosporin inhibits P-glycoprotein in gut and renal tubules, reducing digoxin clearance.
Moderate
Escitalopram × Prednisolone
Prednisolone is ulcerogenic; escitalopram reduces platelet aggregation via serotonin uptake.
Major
Gabapentin × Morphine
Gabapentin reduces morphine clearance and potentiates CNS depression.
Moderate
Furosemide × Prednisolone
Both cause hypokalaemia: glucocorticoids via mineralocorticoid effect and muscle catabolism; furosemide via direct urinary potassium loss.
Critical
Azathioprine × Febuxostat
Febuxostat is a selective xanthine oxidase inhibitor; like allopurinol it blocks the conversion of 6-mercaptopurine to its inactive metabolite.
Critical
Eplerenone × Spironolactone
Both drugs are mineralocorticoid receptor antagonists.
Major
Pregabalin × Tramadol
Similar to tramadol + gabapentin: additive CNS depression, seizure risk (tramadol lowers threshold).
Minor
Clarithromycin × Rosuvastatin
Rosuvastatin is excreted mainly unchanged and minimally metabolised by CYP.
Major
duloxetine × Tramadol
Dual risk.
Major
Co-trimoxazole × Spironolactone
Trimethoprim in co-trimoxazole blocks epithelial sodium channels in renal collecting ducts via the same mechanism as amiloride.
Critical
Isosorbide mononitrate × Sildenafil
Sildenafil inhibits PDE-5; isosorbide mononitrate releases nitric oxide.
Minor
Doxycycline × Iron oral (salts: sulfate, bisglycinate, fumarate, gluconate, polymaltose; heme iron polypeptide, lactoferrin)
Iron forms non-absorbable chelates with tetracyclines in the gut (as with the doxycycline-calcium pair).
Major
Ketorolac × meloxicam
Dual NSAID therapy – additive GI bleeding and nephrotoxicity risk.
Critical
Erythromycin × Simvastatin
Erythromycin inhibits CYP3A4.
Critical
Itraconazole × Simvastatin
Itraconazole is the strongest CYP3A4 inhibitor in clinical use.
Major
Carbamazepine × Theophylline
Carbamazepine induces CYP1A2, which partly metabolises theophylline.
Major
Atorvastatin × Itraconazole
Itraconazole inhibits CYP3A4 and P-glycoprotein.
Critical
Sirolimus × Voriconazole
Voriconazole is a strong CYP3A4 inhibitor, the main enzyme for sirolimus.
Major
citalopram × Sertraline
Two SSRIs simultaneously – serotonin syndrome without therapeutic rationale.
Major
tacrolimus × Voriconazole
Voriconazole inhibits CYP3A4.
Major
Fluconazole × Warfarin
Fluconazole inhibits CYP2C9, the main enzyme of S-warfarin (the more active isomer).
Major
citalopram × Lithium
Additive serotonergic effect of SSRIs and lithium (lithium enhances synaptic serotonergic transmission).
Critical
Apixaban × Carbamazepine
Carbamazepine is a strong CYP3A4 and P-glycoprotein inducer.
Major
meloxicam × tacrolimus
NSAID (meloxicam) + nephrotoxic calcineurin inhibitor (tacrolimus) – additive acute kidney injury risk in transplant patients.
Critical
Carbamazepine × Rivaroxaban
Same mechanism as with apixaban: CYP3A4 and P-gp induction by carbamazepine drops rivaroxaban levels by 50%.
Major
Tramadol × venlafaxine
Venlafaxine (SNRI) + tramadol – serotonin syndrome plus additive seizure risk.
Critical
Apixaban × Rifampicin
Rifampicin is the strongest clinical inducer of CYP3A4 and P-glycoprotein.
Major
Rifampicin × Warfarin
Rifampicin induces CYP2C9, CYP3A4 and CYP1A2 – all main warfarin metabolism pathways.
Major
carvedilol × diltiazem
Non-dihydropyridine calcium channel blocker (diltiazem) + beta-blocker (carvedilol) – additive AV node blockade and negative inotropic effect.
Major
Ibuprofen × Methotrexate
Ibuprofen reduces methotrexate renal elimination by inhibiting proximal tubular secretion.
Major
celecoxib × Enalapril
NSAIDs reduce renal blood flow via prostaglandin blockade.
Major
Diclofenac × Methotrexate
Diclofenac, like other NSAIDs, reduces methotrexate renal clearance.
Major
clonidine × diltiazem
Additive bradycardia and atrioventricular (AV) block.
Major
Ibuprofen × Lithium
Ibuprofen reduces lithium renal clearance by inhibiting prostaglandin synthesis in the proximal tubule.
Major
Amitriptyline × fluvoxamine
Fluvoxamine blocks CYP1A2 and CYP2C19 – the main amitriptyline demethylation routes.
Major
Enalapril × Lithium
Enalapril and other ACE inhibitors reduce renal blood flow and glomerular filtration, decreasing lithium excretion.
Major
Hydrochlorothiazide × Lithium
Hydrochlorothiazide increases sodium and lithium reabsorption in the distal tubule.
Moderate
Amitriptyline × Bisoprolol
Amitriptyline (TCA) causes orthostatic hypotension via α1-adrenergic blockade.
Major
Lithium × Losartan
Losartan, like ACE inhibitors, reduces lithium renal clearance via angiotensin blockade of the efferent arteriole.
Major
Bupropion × Escitalopram
Escitalopram is a citalopram enantiomer with the same effects.
Major
Bupropion × Tramadol
Bupropion blocks CYP2D6 – the route converting tramadol to its active M1 metabolite.
Major
Clarithromycin × Digoxin
Clarithromycin inhibits intestinal and renal P-glycoprotein and suppresses gut flora that inactivates part of the digoxin dose.
Major
Bupropion × Haloperidol
Haloperidol is a CYP2D6 substrate; bupropion is a potent CYP2D6 inhibitor.
Major
Bupropion × Morphine
High morphine doses cause opioid-induced myoclonus, raising seizure risk.
Major
Bupropion × Sertraline
Additive seizure threshold reduction.
Moderate
Amlodipine × Bisoprolol
Dihydropyridine calcium channel blocker (amlodipine) + cardioselective beta-blocker (bisoprolol) – additive bradycardia and hypotension.
Major
citalopram × Ondansetron
Both drugs prolong QT by blocking hERG potassium channels.
Major
Ciprofloxacin × citalopram
Additive QT prolongation (both prolong QT).
Major
Fluconazole × Methadone
Fluconazole inhibits CYP3A4 and CYP2B6 – the main methadone metabolism enzymes.
Moderate
Bisoprolol × Bupropion
Bupropion blocks CYP2D6.
Major
citalopram × fluvoxamine
Two SSRIs simultaneously – serotonin syndrome without therapeutic purpose.
Major
Dextromethorphan × Linezolid
Linezolid is a reversible MAO inhibitor.
Major
citalopram × venlafaxine
SSRI + SNRI – serotonin syndrome, additive QT prolongation at high venlafaxine doses.
Critical
Clarithromycin × Pimozide
Clarithromycin is a strong CYP3A4 inhibitor.
Critical
Erythromycin × Pimozide
Erythromycin is a moderate-to-strong CYP3A4 inhibitor.
Major
clonidine × Metoprolol
Abrupt clonidine withdrawal on a beta-blocker triggers a hypertensive crisis: the α2 effect is lost while β-blockade persists – an 'unopposed' α1 effect develops with a sharp blood pressure rise.
Major
diltiazem × Rifampicin
Rifampicin is the most potent available CYP3A4 inducer.
Critical
Itraconazole × Pimozide
Itraconazole is the strongest clinical CYP3A4 inhibitor.
Major
duloxetine × Mirtazapine
Mirtazapine + SNRI – augmentation in resistant depression ('California rocket fuel').
Critical
Ketoconazole × Pimozide
Ketoconazole is a strong CYP3A4 inhibitor.
Major
Fluoxetine × venlafaxine
SSRI + SNRI – serotonin syndrome.
Critical
Pimozide × Voriconazole
Voriconazole is a strong CYP3A4 inhibitor and itself a QT prolonger.
Major
Haloperidol × venlafaxine
Additive QT prolongation.
Critical
Pimozide × Posaconazole
Posaconazole is a strong CYP3A4 inhibitor.
Major
Haloperidol × Quetiapine
Dual antipsychotic therapy – additive risk of extrapyramidal symptoms, sedation, QT prolongation, and metabolic side effects.
Major
Ketorolac × naproxen
Dual NSAID therapy – sharp rise in GI bleeding risk (3- to 5-fold), acute kidney injury, and cardiovascular events.
Moderate
Bisoprolol × Morphine
Additive bradycardia and hypotension.
Critical
Pimozide × ritonavir
Ritonavir is the strongest ARV CYP3A4 inhibitor.
Critical
Cobicistat × Pimozide
Cobicistat is a strong CYP3A4 inhibitor (potency similar to ritonavir).
Major
Fluconazole × Pimozide
Fluconazole is a moderate CYP3A4 inhibitor.
Major
Omeprazole × tacrolimus
Omeprazole blocks CYP2C19.
Major
meloxicam × Methotrexate
NSAIDs reduce renal methotrexate clearance.
Critical
Pimozide × Quinidine
Quinidine is a strong CYP2D6 inhibitor (secondary pimozide pathway) and itself a QT prolonger.
Critical
Amiodarone × Pimozide
Amiodarone is a moderate CYP3A4 inhibitor and the strongest clinical QT prolonger.
Critical
Fluoxetine × Phenelzine
Phenelzine irreversibly inhibits MAO; fluoxetine blocks serotonin reuptake.
Major
Quetiapine × Tramadol
Additive CNS depression plus seizure threshold reduction (tramadol lowers it, quetiapine at high doses).
Minor
Calcium carbonate × Lithium
Calcium carbonate as an antacid mildly reduces lithium intestinal absorption, but no clinically significant drop in blood concentration has been documented.
Major
Spironolactone × tacrolimus
Spironolactone retains potassium via aldosterone receptor blockade.
Critical
Phenelzine × Sertraline
Sertraline is an SSRI.
Critical
citalopram × Phenelzine
Citalopram is an SSRI.
Critical
Escitalopram × Phenelzine
Escitalopram is an SSRI.
Critical
Paroxetine × Phenelzine
Paroxetine is an SSRI with additional antimuscarinic activity.
Moderate
Acetylsalicylic acid × telmisartan
High aspirin doses (above 1 g/day) may reduce the ARB's antihypertensive effect via vasodilator prostaglandin suppression.
Moderate
Alprazolam × clonidine
Additive CNS depression and hypotension.
Minor
Cetirizine × Paracetamol
Paracetamol and cetirizine are metabolised by different pathways.
Moderate
Amiodarone × celecoxib
Celecoxib is a CYP2C9 substrate.
Moderate
Alprazolam × Tamsulosin
Additive orthostatic hypotension.
Moderate
Alprazolam × citalopram
Additive CNS depression.
Minor
Loratadine × Paracetamol
Paracetamol and loratadine are metabolised by different pathways.
Moderate
Amitriptyline × carvedilol
TCA blocks α1-adrenoceptors — additive orthostatic hypotension with carvedilol (α/β-blocker).
Moderate
Amitriptyline × telmisartan
Additive hypotension, especially orthostatic.
Moderate
Amitriptyline × ritonavir
Ritonavir is a strong CYP2D6 and CYP3A4 inhibitor.
Moderate
Amlodipine × meloxicam
NSAIDs antagonise amlodipine's antihypertensive effect via renal prostaglandin-dependent sodium regulation suppression.
Critical
Phenelzine × venlafaxine
Venlafaxine is an SNRI with strong serotonin effect.
Moderate
Apixaban × celecoxib
The selective COX-2 inhibitor celecoxib gives lower GI risk than non-selective NSAIDs, but with a direct factor Xa inhibitor additive bleeding risk persists.
Moderate
Apixaban × Fluconazole
Fluconazole is a moderate CYP3A4 inhibitor.
Moderate
Atorvastatin × Metronidazole
Metronidazole does not block CYP3A4 but increases myopathy risk with statins (mechanism not fully established; reported in post-marketing data).
Critical
Phenelzine × Tramadol
Tramadol inhibits serotonin reuptake (secondary mechanism).
Critical
Methadone × Phenelzine
Methadone is an opioid with serotonergic activity and QT prolongation.
Moderate
Atorvastatin × Pantoprazole
Pantoprazole is the most CYP-neutral PPI.
Moderate
Apixaban × tacrolimus
Tacrolimus is a weak CYP3A4 inhibitor and P-glycoprotein substrate.
Critical
Linezolid × Phenelzine
Linezolid is a reversible MAO inhibitor.
Moderate
Atorvastatin × Linezolid
Linezolid is associated with rhabdomyolysis in combination with statins (rare post-marketing cases; mechanism not fully established).
Moderate
Atorvastatin × Ciprofloxacin
Ciprofloxacin is a weak CYP3A4 inhibitor.
Critical
Mirtazapine × Phenelzine
Mirtazapine is a dual-mechanism antidepressant (α2 + 5-HT2 blockade).
Moderate
Bisoprolol × Budesonide
Systemic (oral) budesonide causes sodium retention and weakens the antihypertensive effect of the beta-blocker.
Critical
Fluoxetine × Tranylcypromine
Tranylcypromine is an irreversible MAOI.
Moderate
Azithromycin × Methotrexate
Antibiotics may affect methotrexate gut absorption.
Moderate
Azithromycin × venlafaxine
Additive QT prolongation (venlafaxine prolongs QT at doses above 150 mg).
Critical
Tramadol × Tranylcypromine
Tranylcypromine irreversibly inhibits MAO.
Critical
Linezolid × Tranylcypromine
Cumulative MAO inhibition (irreversible tranylcypromine + reversible linezolid).
Moderate
Bisoprolol × Hydrochlorothiazide
Standard combination in hypertension – additive antihypertensive effect.
Moderate
Bisoprolol × Dronedarone
Additive bradycardia.
Moderate
Bisoprolol × Mirtazapine
Additive hypotension and sedation.
Moderate
Bisoprolol × Valsartan
Standard combination in heart failure with reduced ejection fraction.
Moderate
Budesonide × Ketorolac
Glucocorticoid plus NSAID — additive risk of GI ulcers and bleeding.
Moderate
Budesonide × fluvoxamine
Fluvoxamine is a CYP3A4 inhibitor; budesonide is a CYP3A4 substrate.
Moderate
Budesonide × carvedilol
Systemic budesonide retains sodium and water, blunting the beta-blocker's antihypertensive effect.
Critical
Amiodarone × Quinidine
Dual QT prolongation (amiodarone extends 30–50 ms, quinidine 20–40 ms) plus amiodarone inhibits CYP3A4 (quinidine metabolism).
Critical
Digoxin × Quinidine
Quinidine inhibits renal and intestinal P-glycoprotein – digoxin clearance drops 50%.
Critical
Quinidine × Sotalol
Additive QT prolongation (sotalol extends 30 ms, quinidine 20–40 ms).
Major
Clopidogrel × Omeprazole
Clopidogrel is a prodrug.
Moderate
Budesonide × Diclofenac
Glucocorticoid plus NSAID — additive GI ulcer and bleeding risk with systemic budesonide.
Critical
Apixaban × Phenytoin
Phenytoin is a strong CYP3A4 + P-gp inducer.
Critical
Phenytoin × Rivaroxaban
Same as apixaban: CYP3A4 + P-gp induction by phenytoin drops rivaroxaban by 50%.
Major
Phenytoin × Simvastatin
Phenytoin induces CYP3A4.
Major
Phenytoin × tacrolimus
Phenytoin induces CYP3A4.
Critical
Cobicistat × Simvastatin
Cobicistat is a strong CYP3A4 inhibitor.
Critical
Cobicistat × Lovastatin
Lovastatin is a CYP3A4 sensitive substrate (like simvastatin).
Critical
Cobicistat × Sirolimus
Sirolimus is a CYP3A4 sensitive substrate, P-gp substrate, NTI.
Critical
Cobicistat × Quinidine
Cobicistat inhibits CYP3A4 (quinidine metabolism) and itself prolongs PR via MATE1 inhibition.
Critical
Amitriptyline × Linezolid
Amitriptyline, a tricyclic antidepressant, blocks serotonin and norepinephrine reuptake.
Major
Diclofenac × Warfarin
Diclofenac (NSAID) inhibits platelet aggregation, injures the gastric mucosa, and weakly displaces warfarin from albumin binding.
Critical
Clarithromycin × Ergotamine
Clarithromycin inhibits CYP3A4.
Critical
Ergotamine × Erythromycin
Erythromycin is a CYP3A4 inhibitor.
Critical
Ergotamine × Itraconazole
Itraconazole is the strongest CYP3A4 inhibitor.
Critical
Bupropion × Linezolid
Bupropion inhibits dopamine and norepinephrine reuptake.
Major
naproxen × Warfarin
Naproxen (NSAID) inhibits platelet aggregation and injures the gastric mucosa.
Critical
Ergotamine × Ketoconazole
Ketoconazole is a strong CYP3A4 inhibitor.
Critical
Ergotamine × Voriconazole
Voriconazole is a strong CYP3A4 inhibitor.
Critical
Ergotamine × Posaconazole
Posaconazole is a strong CYP3A4 inhibitor.
Critical
Ergotamine × ritonavir
Ritonavir is the strongest CYP3A4 inhibitor.
Critical
Cobicistat × Ergotamine
Cobicistat is a strong CYP3A4 inhibitor.
Critical
Ergotamine × Sumatriptan
Both drugs are 5-HT1B/1D vasoconstrictors.
Critical
Bupropion × Methylthioninium chloride (methylene blue)
IV methylene blue is a potent reversible MAO-A inhibitor.
Critical
Posaconazole × Simvastatin
Posaconazole is a strong CYP3A4 inhibitor.
Critical
Posaconazole × Sirolimus
Posaconazole is a strong CYP3A4 inhibitor.
Major
Atorvastatin × Posaconazole
Posaconazole is a strong CYP3A4 inhibitor.
Major
Ketorolac × Warfarin
Ketorolac is the most potent available NSAID.
Critical
Disopyramide × Erythromycin
Erythromycin inhibits CYP3A4 (disopyramide metabolism) and itself prolongs QT.
Critical
Clarithromycin × Disopyramide
Clarithromycin is a strong CYP3A4 inhibitor; disopyramide rises 3-fold.
Critical
Amiodarone × Disopyramide
Amiodarone is the strongest clinical QT prolonger and CYP3A4 inhibitor.
Critical
Dofetilide × Verapamil
Verapamil inhibits renal OCT2 transporter that clears dofetilide.
Critical
Dofetilide × Hydrochlorothiazide
Hydrochlorothiazide causes hypokalaemia and hypomagnesaemia; combined with dofetilide leads to torsades de pointes.
Major
fluvoxamine × Warfarin
Fluvoxamine inhibits CYP2C19 and CYP1A2 – minor warfarin clearance routes.
Critical
Dofetilide × Trimethoprim
Trimethoprim inhibits renal OCT2 transporter clearing dofetilide.
Critical
Dofetilide × Ketoconazole
Ketoconazole inhibits CYP3A4 (dofetilide metabolism) and OCT2.
Critical
Ondansetron × Pimavanserin
Both drugs prolong QT (pimavanserin 5-8 ms, ondansetron 10-15 ms).
Major
Clarithromycin × Pimavanserin
Clarithromycin inhibits CYP3A4 – pimavanserin rises 2-3 fold.
Major
duloxetine × Warfarin
Duloxetine is a serotonin-norepinephrine reuptake inhibitor (SNRI).
Critical
Amiodarone × Pimavanserin
Additive QT prolongation (amiodarone 30-50 ms, pimavanserin 5-8 ms).
Critical
Cisapride × Clarithromycin
Clarithromycin inhibits CYP3A4 – cisapride rises 5-7 fold.
Critical
Cisapride × Itraconazole
Itraconazole is the strongest CYP3A4 inhibitor.
Critical
Spironolactone × Triamterene
Both are potassium-sparing diuretics.
Major
Enalapril × Triamterene
Enalapril suppresses aldosterone – less potassium excreted.
Critical
Atazanavir × Omeprazole
Omeprazole raises gastric pH – atazanavir solubility drops, bioavailability falls 75%.
Critical
Atazanavir × Simvastatin
Atazanavir inhibits CYP3A4.
Critical
Atazanavir × Pimozide
CYP3A4 inhibition by atazanavir raises pimozide – torsades de pointes.
Critical
Atazanavir × Ergotamine
CYP3A4 inhibition – fatal ergotism.
Critical
Darunavir × Simvastatin
Darunavir inhibits CYP3A4.
Critical
Darunavir × Ergotamine
CYP3A4 inhibition – fatal ergotism.
Critical
Carbamazepine × Darunavir
Carbamazepine is a strong CYP3A4 inducer.
Major
Apixaban × Efavirenz
Efavirenz induces CYP3A4 and P-gp.
Major
Efavirenz × Simvastatin
Efavirenz induces CYP3A4.
Critical
Spironolactone × Trimethoprim
Trimethoprim blocks ENaC in collecting ducts – potassium retention.
Major
Enalapril × Trimethoprim
Dual K+-sparing effect: enalapril suppresses aldosterone, trimethoprim blocks ENaC.
Critical
Disulfiram × Metronidazole
Both inhibit ALDH.
Major
Disulfiram × Phenytoin
Disulfiram inhibits CYP2C9 and CYP2C19.
Critical
Clarithromycin × Dihydroergotamine
Clarithromycin inhibits CYP3A4 – dihydroergotamine accumulates 5-10 fold.
Critical
Dihydroergotamine × Itraconazole
Strongest CYP3A4 inhibitor – dihydroergotamine rises 20+ fold.
Critical
Dihydroergotamine × ritonavir
Ritonavir is the strongest ARV CYP3A4 inhibitor.
Critical
Dihydroergotamine × Sumatriptan
Both are 5-HT1B/1D vasoconstrictors.
Critical
Nitroglycerin × Tadalafil
Both raise cGMP in vascular smooth muscle.
Critical
Colchicine × Ciclosporin
Cyclosporine inhibits both CYP3A4 and P-glycoprotein – the clearance routes of colchicine.
Critical
Isosorbide dinitrate × Tadalafil
Synergistic systemic vasodilation.
Critical
ritonavir × Tadalafil
Ritonavir inhibits CYP3A4 – tadalafil rises 5-fold.
Critical
Riociguat × Tadalafil
Both raise cGMP.
Critical
Nitroglycerin × Vardenafil
Same as tadalafil-nitrate.
Critical
ritonavir × Vardenafil
Ritonavir – CYP3A4 inhibitor.
Critical
Isosorbide dinitrate × Sildenafil
Sildenafil and isosorbide dinitrate via cGMP – synergistic hypotension.
Critical
Riociguat × Sildenafil
Both activate cGMP pathway.
Critical
Nitroglycerin × Riociguat
Riociguat activates sGC independently of NO.
Critical
Bromocriptine × Erythromycin
Erythromycin inhibits CYP3A4 – bromocriptine rises 4-5 fold.
Critical
Bromocriptine × Clarithromycin
CYP3A4 inhibition – bromocriptine rises 4-5 fold.
Critical
Cabergoline × Itraconazole
Itraconazole is the strongest CYP3A4 inhibitor.
Critical
Meperidine × Phenelzine
Meperidine inhibits serotonin reuptake.
Critical
Meperidine × Tranylcypromine
Same pharmacodynamics – fatal serotonin syndrome.
Critical
Linezolid × Meperidine
Linezolid is a reversible MAO inhibitor.
Critical
Meperidine × ritonavir
Ritonavir inhibits CYP3A4 (meperidine metabolism) while inducing formation of neurotoxic normeperidine.
Critical
Itraconazole × Vincristine
Itraconazole inhibits CYP3A4 and P-gp.
Critical
Posaconazole × Vincristine
Same CYP3A4 + P-gp pharmacodynamics.
Critical
Vincristine × Voriconazole
Strong CYP3A4 inhibitor.
Major
Amphotericin B × Hydrochlorothiazide
Both cause renal potassium loss.
Major
Amphotericin B × Gentamicin
Both nephrotoxic.
Major
Amphotericin B × Digoxin
Amphotericin B causes hypokalaemia, which enhances digoxin binding to cardiomyocyte Na-K-ATPase and potentiates digoxin toxicity.
Critical
Atorvastatin × Clarithromycin
Clarithromycin is a strong CYP3A4 and P-glycoprotein inhibitor.
Major
Flecainide × Quinidine
Quinidine is a strong CYP2D6 inhibitor; flecainide is a CYP2D6 substrate.
Critical
Clarithromycin × Sirolimus
Clarithromycin inhibits CYP3A4 (main sirolimus pathway) and P-gp.
Critical
Ketoconazole × Sirolimus
Ketoconazole is a strong CYP3A4 inhibitor.
Critical
ritonavir × Sirolimus
Ritonavir is the strongest CYP3A4 inhibitor.
Critical
Everolimus × Sirolimus
Both are mTOR inhibitors.
Major
Erythromycin × tacrolimus
Erythromycin inhibits CYP3A4.
Major
Itraconazole × tacrolimus
Itraconazole is a strong CYP3A4 inhibitor.
Major
Posaconazole × tacrolimus
Posaconazole is a strong CYP3A4 inhibitor.
Critical
Clarithromycin × Everolimus
Clarithromycin inhibits CYP3A4 and P-gp.
Critical
Everolimus × Itraconazole
Strong CYP3A4 inhibitor – everolimus rises 9-fold.
Critical
Everolimus × ritonavir
Strongest CYP3A4 inhibitor.
Critical
Cobicistat × Everolimus
Cobicistat is a strong CYP3A4 inhibitor (similar to ritonavir).
Major
Everolimus × Rifampicin
Rifampicin is a strong CYP3A4 inducer.
Major
Itraconazole × Methadone
Strong CYP3A4 inhibitor.
Major
Methadone × Rifampicin
Rifampicin induces CYP3A4 and CYP2B6.
Critical
Atazanavir × Rifampicin
Strong CYP3A4 induction – atazanavir falls 80%.
Critical
Darunavir × Rifampicin
Strong CYP3A4 induction – darunavir falls 80%.
Critical
Everolimus × Posaconazole
Strong CYP3A4 inhibitor.
Critical
Methadone × ritonavir
Ritonavir has dual action: inhibits CYP3A4 (raises methadone) and induces CYP2B6 (lowers methadone).
Critical
Methylthioninium chloride (methylene blue) × Mirtazapine
IV methylene blue inhibits MAO-A.
Critical
Linezolid × Methylthioninium chloride (methylene blue)
Linezolid is a reversible MAO inhibitor with antibacterial activity.
Critical
Clarithromycin × Methadone
Clarithromycin inhibits CYP3A4 (raises methadone) and itself prolongs QT.
Critical
Cobicistat × Rifampicin
Strong CYP3A4 inducer.
Critical
Rifampicin × ritonavir
Strong CYP3A4 inducer.
Major
Rifampicin × Sirolimus
Strong CYP3A4 + P-gp inducer.
Critical
Apixaban × ritonavir
Ritonavir is the most potent CYP3A4 and P-glycoprotein inhibitor in clinical use (a pharmacokinetic booster in HIV regimens).
Critical
ritonavir × Rivaroxaban
Ritonavir strongly inhibits CYP3A4 and P-glycoprotein – the clearance routes of rivaroxaban.
Critical
Isosorbide mononitrate × Vardenafil
Same pharmacodynamics – synergistic hypotension.
Critical
Isosorbide mononitrate × Riociguat
Riociguat activates sGC independently of NO.
Critical
Isosorbide mononitrate × Tadalafil
Both activate cGMP pathway.
Critical
Diazepam × Tramadol
Tramadol is a weak opioid with additional serotonin–norepinephrine reuptake inhibition.
Critical
Phenelzine × Sumatriptan
Sumatriptan is a 5-HT1B/1D agonist, partly metabolised by MAO-A.
Critical
Sumatriptan × Tranylcypromine
Tranylcypromine irreversibly inhibits MAO-A.
Critical
Phenelzine × Rizatriptan
Rizatriptan is a MAO-A substrate.
Critical
Rizatriptan × Tranylcypromine
MAO-A inhibition by tranylcypromine + rizatriptan – fatal serotonin syndrome.
Critical
Phenelzine × Zolmitriptan
Zolmitriptan is MAO-A + CYP1A2 substrate.
Critical
Tranylcypromine × Zolmitriptan
MAO-A inhibition + zolmitriptan – fatal serotonin syndrome.
Critical
Almotriptan × Phenelzine
Almotriptan is CYP3A4 + CYP2D6 substrate.
Critical
Almotriptan × Tranylcypromine
MAO-A inhibition + triptan – fatal serotonin syndrome.
Critical
Naratriptan × Phenelzine
Naratriptan is a serotonin agonist.
Critical
Frovatriptan × Phenelzine
Frovatriptan is a serotonin agonist, CYP1A2 substrate.
Critical
Eletriptan × Phenelzine
Eletriptan is a serotonin agonist, CYP3A4 substrate.
Major
Selegiline × Sumatriptan
Selegiline at high doses loses MAO-B selectivity and inhibits MAO-A.
Critical
Amiodarone × Sotalol
Both strongly prolong QT (amiodarone 30-50 ms, sotalol 30 ms).
Major
citalopram × Moxifloxacin
Both prolong QT (moxifloxacin 10-20 ms, citalopram dose-dependent).
Major
Methadone × Moxifloxacin
Methadone prolongs QT (especially above 80 mg/day).
Major
Sertraline × Warfarin
Sertraline (SSRI) blocks serotonin reuptake into platelets, depleting the platelet serotonin pool and impairing primary haemostasis.
Critical
Amiodarone × Ziprasidone
Ziprasidone prolongs QT clinically (15-20 ms).
Critical
Sotalol × Ziprasidone
Dual QT prolongation, torsades risk.
Major
Amiodarone × Ondansetron
Ondansetron prolongs QT 10-15 ms, amiodarone 30-50 ms.
Critical
Amiodarone × Methadone
Additive QT prolongation from two strong QT prolongers + amiodarone inhibits CYP3A4 (methadone rises).
Major
Amiodarone × Fluconazole
Fluconazole prolongs QT (5-10 ms) + inhibits CYP3A4 and CYP2C9 (amiodarone metabolism).
Major
Apixaban × Ibuprofen
Apixaban inhibits factor Xa; ibuprofen (NSAID) injures the gastric mucosa and transiently inhibits platelet aggregation.
Major
Clopidogrel × Rivaroxaban
Clopidogrel blocks the platelet P2Y12 receptor; rivaroxaban directly inhibits factor Xa.
Critical
Erythromycin × Lovastatin
CYP3A4 inhibition – lovastatin rises 5-fold.
Major
Amiodarone × Lovastatin
Amiodarone inhibits CYP3A4.
Major
Atorvastatin × Erythromycin
Erythromycin inhibits CYP3A4.
Major
Atorvastatin × Voriconazole
Voriconazole inhibits CYP3A4.
Major
Atazanavir × Atorvastatin
Atazanavir inhibits CYP3A4.
Critical
Ciclosporin × Pitavastatin
Cyclosporine inhibits OATP1B1 – pitavastatin rises 5-7 fold.
Major
Ciclosporin × Fluvastatin
Cyclosporine inhibits OATP1B1.
Major
Clarithromycin × Ciclosporin
Clarithromycin inhibits CYP3A4.
Major
Ciclosporin × Itraconazole
Strong CYP3A4 inhibitor.
Major
Ciclosporin × Posaconazole
Strong CYP3A4 inhibitor.
Critical
Ciclosporin × ritonavir
Ritonavir is the strongest CYP3A4 inhibitor.
Major
Ciclosporin × Rifampicin
Strong CYP3A4 + P-gp inducer.
Major
Clopidogrel × Fluoxetine
Fluoxetine inhibits CYP2C19, the enzyme converting clopidogrel into its active metabolite.
Major
Aripiprazole × ritonavir
Ritonavir inhibits CYP3A4 (and weakly CYP2D6).
Major
Paroxetine × Risperidone
Paroxetine is a strong CYP2D6 inhibitor.
Major
Clopidogrel × Fluconazole
Fluconazole inhibits CYP2C19, the key enzyme converting clopidogrel into its active metabolite.
Major
fluvoxamine × Olanzapine
Fluvoxamine is a strong CYP1A2 inhibitor.
Critical
Moxifloxacin × Ziprasidone
Dual QT prolongation (ziprasidone 15-20 ms + moxifloxacin 10-20 ms).
Major
citalopram × Sotalol
Sotalol + citalopram – additive QT prolongation.
Critical
Amiodarone × Droperidol
Dual QT prolongation (amiodarone 30-50 ms, droperidol 10-20 ms).
Critical
Droperidol × Sotalol
Dual QT prolongation.
Major
Droperidol × Ondansetron
Additive QT prolongation (ondansetron 10-15 ms + droperidol 10-20 ms).
Major
Captopril × Valsartan
Dual RAAS blockade (ACE-I + ARB).
Critical
Droperidol × Methadone
Dual QT prolongation, especially with methadone above 80 mg/day.
Critical
Amiodarone × Chlorpromazine
Dual QT prolongation, additive hypotension (chlorpromazine alpha-1 block).
Major
Chlorpromazine × Moxifloxacin
Additive QT prolongation.
Critical
Isavuconazole × Rifampicin
Rifampicin is a strong CYP3A4 inducer.
Critical
Carbamazepine × Isavuconazole
Carbamazepine is a strong CYP3A4 inducer.
Major
Captopril × Losartan
Dual RAAS blockade (ACE-I + ARB).
Critical
Isavuconazole × Phenytoin
Strong CYP3A4 induction.
Major
Furosemide × Losartan
Losartan (ARB) reduces aldosterone synthesis and angiotensin-dependent constriction of glomerular afferent arterioles.
Major
Co-trimoxazole × Enalapril
Trimethoprim blocks collecting duct sodium channels (amiloride-like mechanism) and reduces potassium secretion.
Major
Isavuconazole × Sirolimus
Isavuconazole is a moderate CYP3A4 inhibitor.
Major
Apixaban × Rifabutin
Rifabutin is a moderate CYP3A4 + P-gp inducer (2-3 fold weaker than rifampicin).
Major
Rifabutin × ritonavir
Ritonavir inhibits CYP3A4.
Major
Clarithromycin × Rifabutin
Clarithromycin inhibits CYP3A4.
Major
Digoxin × Propafenone
Propafenone inhibits renal P-glycoprotein.
Major
Acetylsalicylic acid × Spironolactone
Aspirin suppresses renal prostaglandin synthesis that maintains glomerular perfusion.
Major
Propafenone × Warfarin
Propafenone inhibits CYP2C9 (S-warfarin metabolism).
Major
Amiodarone × Propafenone
Additive AV node slowing and QT prolongation.
Critical
Paroxetine × Tamoxifen
Tamoxifen is a prodrug activated to endoxifen via CYP2D6.
Major
Bupropion × Tamoxifen
Bupropion is a strong CYP2D6 inhibitor.
Major
Furosemide × Gentamicin
Gentamicin (an aminoglycoside) is directly oto- and nephrotoxic.
Major
Co-trimoxazole × Warfarin
Trimethoprim in co-trimoxazole inhibits CYP2C9.
Major
Clarithromycin × Warfarin
Clarithromycin inhibits CYP3A4 and CYP2C9.
Major
Amiodarone × Hydrochlorothiazide
Hydrochlorothiazide (thiazide diuretic) increases potassium and magnesium loss.
Major
Amiodarone × Ciprofloxacin
Additive QT prolongation.
Moderate
Amoxicillin × Warfarin
Amoxicillin may reduce gut flora vitamin K synthesis – INR mildly rises.
Major
Bisoprolol × Verapamil
Additive AV slowing and reduced contractility.
Major
Acetylsalicylic acid × Ibuprofen
Ibuprofen reversibly binds platelet COX-1 and blocks aspirin's access to its irreversible acetylation site.
Major
Amiodarone × Tramadol
Dual mechanism: tramadol weakly prolongs QT (additive with amiodarone) and lowers the seizure threshold.
Major
Ibuprofen × Sertraline
SSRIs reduce platelet serotonin uptake – impaired aggregation.
Major
Amiodarone × Amitriptyline
Dual mechanism: both prolong QT, and amitriptyline (TCA) additionally blocks cardiac sodium channels – His-Purkinje conduction is depressed.
Major
Fluoxetine × Ibuprofen
SSRI + NSAID – increased GI bleeding risk.
Major
citalopram × Ibuprofen
SSRI + NSAID – GI bleeding.
Major
Sertraline × Sumatriptan
Theoretical serotonin syndrome risk with SSRI + triptan.
Major
Amiodarone × Indapamide
Indapamide (thiazide-like diuretic) increases potassium and magnesium loss.
Critical
Brivudine × Fluorouracil
Brivudine irreversibly inhibits dihydropyrimidine dehydrogenase (DPD) – the enzyme degrading 5-FU.
Critical
Brivudine × Capecitabine
Capecitabine is a 5-FU prodrug, same fatal mechanism via brivudine DPD inhibition.
Major
Amiodarone × Azithromycin
Additive QT prolongation.
Major
Ciprofloxacin × Escitalopram
Additive QT prolongation.
Critical
Fluorouracil × Warfarin
5-FU inhibits CYP2C9 (S-warfarin metabolism) and impairs vitamin K-dependent clotting factor synthesis through direct myelotoxicity.
Critical
Capecitabine × Warfarin
Capecitabine raises INR 4-fold or more via CYP2C9 inhibition – EMA Xeloda Section 4.
Major
Fluorouracil × Phenytoin
5-FU inhibits CYP2C9 – phenytoin rises 2-fold.
Major
Gentamicin × Iopromide
Additive nephrotoxicity.
Critical
Lamotrigine × Valproic acid
Valproate inhibits UGT1A4 – the lamotrigine glucuronidation enzyme.
Major
Carbamazepine × Lamotrigine
Carbamazepine induces UGT1A4.
Major
Lamotrigine × Phenytoin
Phenytoin induces UGT1A4.
Major
Hypericum perforatum × Sertraline
St John's wort contains hypericin and hyperforin – serotonergic activators and strong inducers of CYP3A4 and P-glycoprotein.
Major
Fluoxetine × Tramadol
Dual mechanism.
Major
Lamotrigine × Rifampicin
Rifampicin induces UGT1A4.
Critical
Ketoconazole × Ticagrelor
Ketoconazole inhibits CYP3A4.
Critical
Itraconazole × Ticagrelor
Strong CYP3A4 inhibitor – ticagrelor rises 5-7 fold.
Critical
Clarithromycin × Ticagrelor
Clarithromycin is a strong CYP3A4 inhibitor.
Major
Amitriptyline × Tramadol
Dual risk.
Critical
ritonavir × Ticagrelor
Strongest CYP3A4 inhibitor.
Critical
Ticagrelor × Voriconazole
Strong CYP3A4 inhibitor.
Major
Rifampicin × Ticagrelor
Strong CYP3A4 inducer – ticagrelor falls 86%.
Major
Escitalopram × Sertraline
Two SSRIs simultaneously raise synaptic serotonin activity.
Major
Simvastatin × Ticagrelor
Ticagrelor inhibits P-glycoprotein.
Major
Digoxin × Ticagrelor
Ticagrelor inhibits renal P-glycoprotein.
Major
Erythromycin × Theophylline
Erythromycin inhibits CYP3A4 and CYP1A2.
Major
Rifampicin × Theophylline
Rifampicin induces CYP1A2 and CYP3A4.
Major
Phenytoin × Theophylline
Phenytoin induces CYP1A2.
Major
Metformin × Prednisolone
Prednisolone (a systemic glucocorticoid) suppresses muscle glucose uptake and stimulates hepatic gluconeogenesis – steroid-induced diabetes develops or existing type 2 diabetes decompensates.
Major
Bupropion × methylprednisolone
Methylprednisolone (a systemic glucocorticoid) modestly lowers the seizure threshold and induces CYP3A4.
Major
Iopromide × Ketorolac
Additive nephrotoxicity.
Major
Bupropion × Prednisolone
Prednisolone (a systemic glucocorticoid) modestly lowers the seizure threshold; bupropion also lowers it.
Major
Diclofenac × tacrolimus
Diclofenac (NSAID) suppresses renal prostaglandin synthesis maintaining glomerular perfusion.
Major
citalopram × tacrolimus
Tacrolimus prolongs the QT interval, especially with hypomagnesaemia (common on calcineurin inhibitors).
Major
Escitalopram × tacrolimus
Tacrolimus prolongs the QT interval, especially with hypomagnesaemia (typical on calcineurin inhibitors).
Major
Haloperidol × tacrolimus
Additive QT prolongation.
Major
clonidine × Verapamil
Additive bradycardia and AV block.
Major
Bisoprolol × clonidine
Abrupt clonidine withdrawal on a beta-blocker triggers a hypertensive crisis: the α2 effect is lost while β-blockade persists – an 'unopposed' α1 effect develops with a sharp blood pressure rise.
Major
Amitriptyline × clonidine
Amitriptyline (TCA) blocks α2-receptors and antagonises clonidine.
Major
Dronedarone × Escitalopram
Both drugs prolong QT.
Major
Bupropion × citalopram
Additive seizure threshold reduction (both drugs do this).
Major
citalopram × Tramadol
Dual risk.
Major
citalopram × Clarithromycin
Clarithromycin prolongs QT and is a potent CYP3A4 inhibitor.
Major
citalopram × Ketoconazole
Ketoconazole is a potent CYP3A4 inhibitor.
Major
Sertraline × venlafaxine
SSRI (sertraline) + SNRI (venlafaxine) – additive serotonergic load.
Major
fluvoxamine × Tramadol
SSRI (fluvoxamine) + tramadol – serotonin syndrome.
Major
Bupropion × duloxetine
Additive seizure threshold reduction plus elevated synaptic norepinephrine (bupropion is a norepinephrine-dopamine reuptake inhibitor; duloxetine is an SNRI).
Major
Bupropion × fluvoxamine
Fluvoxamine is a weak CYP2D6 inhibitor but a strong CYP2C19 and CYP1A2 inhibitor.
Major
Bupropion × venlafaxine
Additive seizure threshold reduction plus elevated synaptic norepinephrine.
Major
Clopidogrel × fluvoxamine
Clopidogrel is a prodrug, activated by CYP2C19.
Major
duloxetine × Escitalopram
SSRI + SNRI – serotonergic load rises, serotonin syndrome risk.
Major
duloxetine × Sertraline
SSRI (sertraline) + SNRI (duloxetine) – additive serotonergic load, serotonin syndrome risk without therapeutic rationale.
Major
Amitriptyline × Bupropion
Bupropion is a potent CYP2D6 inhibitor, the main amitriptyline metabolic route.
Major
Haloperidol × Tramadol
Tramadol lowers seizure threshold and prolongs QT.
Major
Bupropion × Ciprofloxacin
Ciprofloxacin blocks CYP1A2 and lowers seizure threshold itself.
Major
Bupropion × Fluoxetine
Fluoxetine is a potent CYP2D6 inhibitor.
Major
Bupropion × Mirtazapine
Mirtazapine lowers the seizure threshold less than bupropion, but the effect is additive.
Major
Bupropion × Quetiapine
Quetiapine lowers the seizure threshold, especially at doses above 300 mg/day.
Major
Gabapentin × Tramadol
Additive CNS depression.
Major
Fluoxetine × Mirtazapine
Additive serotonergic effect.
Major
Mirtazapine × Sertraline
SSRI augmentation with mirtazapine in resistant depression is possible ('California rocket fuel').
Major
Dronedarone × Hydrochlorothiazide
Hydrochlorothiazide (thiazide diuretic) increases urinary potassium loss.
Major
Dronedarone × Haloperidol
Additive QT prolongation.
Major
Amiodarone × Verapamil
Additive suppression of sinus node and atrioventricular (AV) conduction.
Major
Amiodarone × Bisoprolol
Additive bradycardia and AV conduction suppression.
Major
Amiodarone × Metronidazole
Metronidazole prolongs the QT interval.
Major
Amiodarone × Propranolol
Additive bradycardia and AV conduction suppression.
Major
Amiodarone × diltiazem
Additive bradycardia and AV block.
Major
Amlodipine × Verapamil
Dual calcium channel blockade: amlodipine is a dihydropyridine blocker, verapamil is non-dihydropyridine.
Major
Carbamazepine × Quetiapine
Carbamazepine is a potent CYP3A4 inducer.
Major
Ibuprofen × Rivaroxaban
Additive GI bleeding risk: anticoagulant (rivaroxaban) + ulcerogenic NSAID with antiplatelet effect (ibuprofen).
Major
Ketorolac × Rivaroxaban
Ketorolac inhibits platelet aggregation and strongly injures the gastric mucosa.
Major
Diclofenac × Prednisolone
Similar to ibuprofen – additive GI bleeding risk.
Major
Methotrexate × naproxen
Naproxen reduces methotrexate renal clearance by 30–40%.
Major
Ketorolac × tacrolimus
Ketorolac is the most nephrotoxic NSAID, limited to 5 days of use.
Major
carvedilol × Verapamil
Non-dihydropyridine calcium channel blocker (verapamil) + beta-blocker (carvedilol) – additive AV node blockade and negative inotropic effect.
Major
Co-trimoxazole × telmisartan
Trimethoprim in co-trimoxazole blocks the epithelial sodium channel (ENaC) like amiloride – potassium retention.
Moderate
Bisoprolol × Empagliflozin
Empagliflozin (SGLT2 inhibitor) causes osmotic diuresis and mild hypovolaemia.
Moderate
Bisoprolol × Dexamethasone
Dexamethasone causes sodium and water retention via mineralocorticoid effect, reducing the antihypertensive effect of the beta-blocker.
Major
Fluconazole × Rifampicin
Rifampicin strongly induces CYP3A4, which partly metabolises fluconazole.
Major
Haloperidol × Rifampicin
Rifampicin strongly induces CYP3A4 – the main haloperidol metabolic route.
Major
Clarithromycin × ritonavir
Dual CYP3A4 inhibition (clarithromycin + ritonavir).
Major
Bisoprolol × diltiazem
Non-dihydropyridine calcium channel blocker (diltiazem) + beta-blocker (bisoprolol) – additive AV node blockade and negative inotropic effect.
Major
diltiazem × Metoprolol
Diltiazem slows AV conduction + inhibits CYP3A4 (metoprolol metabolism).
Major
diltiazem × Propranolol
Non-dihydropyridine calcium channel blocker (diltiazem) + non-selective beta-blocker (propranolol) – marked additive bradycardia, AV block, negative inotropic effect.
Major
Propranolol × Verapamil
Non-dihydropyridine calcium channel blocker (verapamil) + non-selective beta-blocker (propranolol) – marked additive bradycardia, AV block, negative inotropic effect.
Major
Metoprolol × Verapamil
Verapamil and metoprolol slow AV conduction via independent paths.
Major
Ketoconazole × ritonavir
Dual potent CYP3A4 inhibition.
Major
Clopidogrel × ritonavir
Ritonavir blocks CYP3A4 and CYP2C19, through which clopidogrel becomes its active metabolite.
Moderate
Bisoprolol × Glibenclamide
Beta-blockers mask adrenergic hypoglycaemia symptoms (tachycardia, tremor, sweating), leaving only neuroglycopenic symptoms (confusion, weakness).
Moderate
Bisoprolol × Furosemide
Standard combination in heart failure and hypertension.
Moderate
Bisoprolol × Digoxin
Additive bradycardia and atrioventricular (AV) conduction slowing.
Moderate
Bisoprolol × Haloperidol
Additive hypotension (haloperidol blocks α1-adrenoceptors) and QT prolongation risk (haloperidol is a known QT prolonger).
Moderate
Bisoprolol × Indapamide
Standard combination in hypertension – additive antihypertensive effect.
Moderate
Bisoprolol × Quetiapine
Additive hypotension (quetiapine blocks α1-adrenoceptors) and additive bradycardia.
Moderate
Bisoprolol × Spironolactone
Standard combination in heart failure with reduced ejection fraction – additive antihypertensive effect.
Moderate
Bisoprolol × Rifampicin
Rifampicin induces CYP3A4, modestly lowering bisoprolol plasma levels (bisoprolol is metabolised 50% via CYP3A4 and 50% renally).
Minor
Calcium carbonate × Colecalciferol
Vitamin D increases intestinal calcium absorption by activating calbindin in enterocytes.
Moderate
Amlodipine × Losartan
Synergistic blood pressure reduction – a target hypertension combination.
Moderate
Amlodipine × Empagliflozin
SGLT2 inhibitors (empagliflozin) cause osmotic diuresis and mild hypovolaemia.
Moderate
Amlodipine × Morphine
Additive hypotension and sedation.
Moderate
Amlodipine × Fluconazole
Fluconazole at high doses (200 mg/day or above) blocks CYP3A4 – the main amlodipine metabolic route.
Moderate
Amlodipine × Fluoxetine
Fluoxetine and its active metabolite norfluoxetine moderately block CYP3A4 – the main amlodipine metabolic route.
Moderate
Amlodipine × Haloperidol
Additive hypotension (haloperidol blocks α1-adrenoceptors) and sedation.
Moderate
Amlodipine × Propranolol
Additive bradycardia and hypotension.
Moderate
Amlodipine × Sildenafil
Additive hypotension via different mechanisms – calcium channel blockade (amlodipine) + PDE5 blockade (sildenafil).
Moderate
Amlodipine × Prednisolone
Prednisolone causes sodium and water retention via mineralocorticoid effect, antagonising amlodipine's antihypertensive action.
Moderate
Amlodipine × Quetiapine
Additive hypotension.
Moderate
Amlodipine × methylprednisolone
Similar to amlodipine + prednisolone.
Moderate
Amlodipine × tacrolimus
Tacrolimus and amlodipine are both CYP3A4 substrates competing for the enzyme.
Moderate
Acetylsalicylic acid × Enalapril
High aspirin doses (above 1 g/day) weaken the hypotensive and cardioprotective effects of the ACE-I via vasodilator prostaglandin suppression.
Moderate
Acetylsalicylic acid × Losartan
High aspirin doses (above 1 g/day) weaken the ARB's antihypertensive effect via vasodilator prostaglandin suppression.
Moderate
Acetylsalicylic acid × Ciprofloxacin
Old experimental data suggested NSAIDs combined with fluoroquinolones increase CNS excitability and seizure risk (via GABAergic suppression).
Moderate
Acetylsalicylic acid × Captopril
At analgesic doses (above 1 g/day), aspirin suppresses vasodilator prostaglandins and weakens the ACE-I's hypotensive effect.
Moderate
Acetylsalicylic acid × Digoxin
High aspirin doses can reduce renal digoxin clearance via prostaglandin-dependent renal blood flow suppression.
Moderate
Acetylsalicylic acid × Valsartan
Analgesic aspirin doses weaken the ARB's antihypertensive effect via vasodilator prostaglandin suppression.
Moderate
Acetylsalicylic acid × citalopram
Similar to ASA + fluvoxamine.
Moderate
Alprazolam × Furosemide
Additive hypotension and fall risk in older patients.
Moderate
Alprazolam × Captopril
Additive hypotension.
Moderate
Alprazolam × Enalapril
Additive hypotension.
Moderate
Alprazolam × Omeprazole
Omeprazole weakly blocks CYP3A4; alprazolam plasma levels may rise slightly.
Major
Acetylsalicylic acid × naproxen
Naproxen competes with aspirin for platelet COX-1 similar to ibuprofen.
Moderate
Alprazolam × Indapamide
Additive hypotension and fall risk in older patients.
Moderate
Alprazolam × Metoprolol
Additive bradycardia and sedation.
Moderate
Alprazolam × Propranolol
Additive bradycardia, hypotension, and sedation.
Moderate
Alprazolam × Escitalopram
Additive sedation.
Moderate
Alprazolam × Haloperidol
Additive CNS depression and sedation.
Moderate
Alprazolam × Levetiracetam
Additive CNS depression and sedation.
Moderate
Amitriptyline × Azithromycin
Azithromycin weakly prolongs QT, additively with the TCA amitriptyline (a pronounced QT prolonger).
Moderate
Azithromycin × Clarithromycin
Dual macrolide therapy – doubled QT effect and redundant antibacterial activity without clinical rationale.
Moderate
Azithromycin × Escitalopram
Both prolong QT.
Moderate
Azithromycin × Fluconazole
Additive QT prolongation – both drugs prolong QTc dose-dependently.
Moderate
Azithromycin × Ketoconazole
Additive QT prolongation.
Moderate
Azithromycin × tacrolimus
Additive QT prolongation (tacrolimus prolongs QT in hypomagnesaemia, common on calcineurin inhibitors).
Moderate
Azithromycin × Tramadol
Additive QT prolongation (tramadol weakly prolongs QT).
Moderate
Azithromycin × Fluoxetine
Additive QT prolongation (fluoxetine weakly prolongs QT at high doses).
Moderate
Azithromycin × Mirtazapine
Additive QT prolongation (mirtazapine weakly prolongs QT, especially above 30 mg).
Moderate
Azithromycin × Quetiapine
Additive QT prolongation (quetiapine prolongs QT at high doses).
Moderate
Azithromycin × Sertraline
Additive QT prolongation (sertraline minimally prolongs QT at standard doses, azithromycin dose-dependently).
Moderate
Amitriptyline × Mirtazapine
Additive sedation, anticholinergic effect, and weight gain.
Moderate
Amitriptyline × Glibenclamide
TCAs may mask hypoglycaemia symptoms (tremor, tachycardia) via anticholinergic effect.
Moderate
Amitriptyline × Warfarin
Amitriptyline is metabolised via CYP2C9 (a minor route) – weak competition with warfarin is possible.
Moderate
Amitriptyline × Furosemide
Additive orthostatic hypotension.
Moderate
Amitriptyline × Hydrochlorothiazide
Additive orthostatic hypotension.
Moderate
Amitriptyline × Captopril
Additive orthostatic hypotension via different mechanisms.
Moderate
Amitriptyline × Enalapril
Additive orthostatic hypotension.
Moderate
Amitriptyline × Losartan
Additive orthostatic hypotension.
Moderate
Amitriptyline × Metoprolol
Amitriptyline is a CYP2D6 substrate, as is metoprolol.
Moderate
Amitriptyline × Verapamil
Verapamil blocks CYP3A4 (one of the amitriptyline metabolic routes).
Moderate
Amitriptyline × Fluconazole
Fluconazole weakly blocks CYP2C19 and CYP3A4 – amitriptyline metabolic routes.
Moderate
Amitriptyline × Ketoconazole
Ketoconazole blocks CYP3A4 (one of the amitriptyline metabolic routes).
Moderate
Amitriptyline × Diazepam
Additive CNS depression and sedation.
Moderate
Amitriptyline × Valproic acid
Valproate weakly blocks hepatic amitriptyline metabolism; TCA plasma levels may rise.
Moderate
Atorvastatin × Omeprazole
Omeprazole weakly blocks CYP3A4 – atorvastatin exposure rises modestly (by 10–20%).
Moderate
Atorvastatin × Dexamethasone
Dexamethasone induces CYP3A4.
Moderate
Atorvastatin × Esomeprazole
Esomeprazole weakly affects CYP3A4 (mainly via CYP2C19).
Moderate
Paracetamol × Warfarin
Paracetamol at doses above 3 g/day for more than 7 days raises INR by 1–1.
Moderate
Simvastatin × Warfarin
Simvastatin weakly inhibits CYP3A4 and partly displaces warfarin from protein binding.
Moderate
Allopurinol × Warfarin
Allopurinol weakly inhibits CYP2C9 and reduces metabolism of the more active S-warfarin enantiomer.
Moderate
Tramadol × Warfarin
Tramadol indirectly affects CYP2C9-mediated warfarin metabolism via CYP2D6.
Moderate
Dexamethasone × Warfarin
Dexamethasone is a weak CYP3A4 inducer and a potential weak CYP2C9 inhibitor.
Moderate
Amiodarone × Clopidogrel
Amiodarone weakly inhibits CYP2C19, the key enzyme that converts clopidogrel to its active metabolite.
Moderate
Clopidogrel × Ibuprofen
Ibuprofen blocks platelet aggregation via COX-1 inhibition, additively with clopidogrel.
Moderate
Apixaban × fluvoxamine
Fluvoxamine impairs primary haemostasis by inhibiting platelet serotonin reuptake.
Moderate
Apixaban × citalopram
Citalopram, like other SSRIs, impairs primary haemostasis by inhibiting platelet serotonin reuptake.
Moderate
Apixaban × diltiazem
Diltiazem moderately inhibits CYP3A4 and P-glycoprotein; apixaban is substrate for both.
Moderate
Apixaban × duloxetine
Duloxetine (SNRI) moderately impairs primary haemostasis by inhibiting platelet serotonin reuptake.
Moderate
Apixaban × Fluoxetine
Fluoxetine, like other SSRIs, impairs primary haemostasis by inhibiting platelet serotonin reuptake.
Moderate
Apixaban × Spironolactone
No direct pharmacokinetic interaction.
Moderate
Apixaban × venlafaxine
Venlafaxine (SNRI) moderately impairs primary haemostasis by inhibiting platelet serotonin reuptake.
Moderate
Apixaban × Verapamil
Verapamil moderately inhibits CYP3A4 and P-glycoprotein.
Moderate
Digoxin × Hydrochlorothiazide
Thiazide diuretic causes hypokalaemia and hypomagnesaemia, increasing myocardial sensitivity to digoxin.
Moderate
Digoxin × Spironolactone
Spironolactone moderately inhibits P-glycoprotein; digoxin levels rise by 20–30%.
Moderate
Digoxin × telmisartan
Telmisartan moderately inhibits intestinal P-glycoprotein.
Moderate
Ciprofloxacin × Digoxin
In 10–15% of patients, gut flora (mainly Eubacterium lentum) metabolises part of digoxin to inactive products.
Moderate
Enalapril × Furosemide
Additive antihypertensive effect; in hypovolaemic patients it can trigger acute kidney injury.
Moderate
Enalapril × Hydrochlorothiazide
Additive antihypertensive effect.
Moderate
Enalapril × Metoprolol
Target combination in heart failure with reduced ejection fraction and in arterial hypertension.
Moderate
Enalapril × Prednisolone
Glucocorticoids retain sodium and water via mineralocorticoid effect, blunting the ACE inhibitor's antihypertensive effect.
Moderate
Losartan × Prednisolone
Prednisolone retains sodium and water via mineralocorticoid effect, blunting the ARB's antihypertensive effect.
Moderate
Dexamethasone × Enalapril
Dexamethasone has minimal mineralocorticoid activity but, at high doses and prolonged use, blunts the ACE inhibitor's antihypertensive effect.
Moderate
Furosemide × Spironolactone
Opposing effects on potassium: furosemide depletes it via the loop of Henle, spironolactone retains it by blocking aldosterone in collecting ducts.
Moderate
Hydrochlorothiazide × Spironolactone
Opposing effects on potassium: thiazide depletes it, spironolactone retains it.
Moderate
Furosemide × Hydrochlorothiazide
Sequential nephron blockade: furosemide acts at the loop of Henle, the thiazide at the distal tubule.
Moderate
Prednisolone × Sertraline
Prednisolone is ulcerogenic — suppresses prostaglandin synthesis and gastric mucosal turnover.
Moderate
Calcium carbonate × Levothyroxine sodium
Calcium binds levothyroxine in the gut as insoluble complexes, reducing absorption by 20–25%.
Moderate
Cyanocobalamin × Metformin
Metformin suppresses calcium-dependent absorption of the B12-intrinsic factor complex in the terminal ileum.
Moderate
Cyanocobalamin × Pantoprazole
Pantoprazole reduces gastric acidity and B12 release from food.
Moderate
Allopurinol × Hydrochlorothiazide
Thiazide diuretics raise allopurinol and oxypurinol metabolite levels, increasing hypersensitivity risk, including allopurinol hypersensitivity syndrome (DRESS).
Moderate
Amiodarone × Dexamethasone
Dexamethasone is a weak CYP3A4 inducer and may slightly reduce amiodarone levels in long-term therapy.
Moderate
Amiodarone × Rosuvastatin
Rosuvastatin is minimally metabolised by CYP3A4, so amiodarone's CYP3A4 inhibition has limited effect.
Moderate
Amiodarone × Diclofenac
No direct pharmacokinetic interaction.
Moderate
Amiodarone × Iopromide
Amiodarone contains 37% iodine in its structure.
Moderate
Amiodarone × Methotrexate
No direct pharmacokinetic interaction.
Moderate
Amiodarone × Theophylline
Amiodarone inhibits CYP1A2 and CYP3A4 — the key enzymes of theophylline metabolism.
Moderate
Amiodarone × fluvoxamine
Fluvoxamine is a strong CYP1A2 inhibitor and moderate CYP3A4 inhibitor.
Moderate
Amiodarone × carvedilol
Additive bradycardia and QT effect from amiodarone, on top of carvedilol's negative chronotropy.
Moderate
Amiodarone × duloxetine
Duloxetine is a CYP1A2 and CYP2D6 substrate.
Moderate
Amiodarone × Tamsulosin
Amiodarone is a weak CYP3A4 inhibitor.
Moderate
Amiodarone × Budesonide
Amiodarone inhibits CYP3A4 — the enzyme responsible for budesonide metabolism.
Moderate
Budesonide × isotretinoin
Dual immunomodulation.
Moderate
Budesonide × Ibuprofen
Additive GI ulcer and bleeding risk with systemic budesonide.
Moderate
Budesonide × Ethinylestradiol
Oestrogens raise corticosteroid-binding globulin, increasing the bound budesonide fraction, but the effective free fraction changes minimally.
Moderate
Budesonide × Estradiol
Oestradiol raises corticosteroid-binding globulin, increasing the bound budesonide fraction.
Moderate
Budesonide × Captopril
Systemic budesonide retains sodium and water via mineralocorticoid effect (weaker than prednisolone), antagonising the ACE inhibitor's antihypertensive effect.
Moderate
Budesonide × celecoxib
Glucocorticoid plus NSAID — additive GI ulcer risk with systemic budesonide.
Moderate
Budesonide × Ciprofloxacin
Fluoroquinolone plus systemic glucocorticoid — tendinitis and tendon rupture risk (mainly Achilles tendon).
Moderate
Budesonide × clonidine
Systemic budesonide retains sodium and water via mineralocorticoid effect, blunting clonidine's antihypertensive effect.
Moderate
Alprazolam × carvedilol
Additive hypotension and sedation.
Moderate
Alprazolam × diltiazem
Diltiazem moderately inhibits CYP3A4; alprazolam is a CYP3A4 substrate.
Moderate
Alprazolam × telmisartan
Additive hypotension.
Moderate
Alprazolam × tacrolimus
Tacrolimus is a weak CYP3A4 inhibitor; alprazolam is a CYP3A4 substrate.
Moderate
Alprazolam × fluvoxamine
Fluvoxamine inhibits CYP3A4 and CYP1A2.
Moderate
Alprazolam × Gabapentin
Additive CNS depression via different mechanisms: alprazolam (GABAergic) and gabapentin (α2δ calcium channel inhibition).
Moderate
Alprazolam × duloxetine
Additive CNS depression.
Moderate
Alprazolam × Pregabalin
Additive CNS depression via different mechanisms (GABAergic for alprazolam, α2δ calcium channel blockade for pregabalin).
Moderate
Alprazolam × Quetiapine
Additive CNS and respiratory depression.
Moderate
Alprazolam × venlafaxine
Additive CNS depression (minimal for venlafaxine, mainly from alprazolam).
Moderate
Alprazolam × Bupropion
Bupropion lowers seizure threshold, especially at high doses (above 300 mg/day) or in predisposition.
Moderate
Amitriptyline × celecoxib
Additive anticholinergic effect (amitriptyline pronounced, celecoxib mild).
Moderate
Amitriptyline × diltiazem
Diltiazem weakly inhibits CYP2D6 and CYP3A4; amitriptyline is metabolised by both.
Moderate
Amitriptyline × tacrolimus
Tacrolimus prolongs QT; the TCA does the same independently via a quinidine-like effect on cardiomyocyte Na/K channels.
Moderate
Amitriptyline × Tamsulosin
Additive orthostatic hypotension.
Moderate
Amitriptyline × Gabapentin
Additive CNS depression via different mechanisms.
Moderate
Amitriptyline × Pregabalin
Similar to amitriptyline plus gabapentin — additive CNS depression.
Moderate
Amitriptyline × Quetiapine
Additive anticholinergic and QT effects.
Moderate
Ciprofloxacin × Omeprazole
Ciprofloxacin absorbs better in acidic gastric environment.
Moderate
Calcium carbonate × Ciprofloxacin
Calcium forms insoluble chelates with ciprofloxacin in the gut.
Moderate
Ciprofloxacin × Colchicine
Ciprofloxacin is a weak P-glycoprotein inhibitor and may slightly raise colchicine levels.
Moderate
Colchicine × Spironolactone
Spironolactone is a weak P-glycoprotein inhibitor and may slightly raise colchicine levels.
Moderate
Diclofenac × Iopromide
Additive nephrotoxicity.
Moderate
Ibuprofen × Iopromide
Additive nephrotoxicity.
Moderate
Escitalopram × Ketoconazole
Escitalopram is metabolised mainly by CYP2C19 and partly by CYP3A4.
Moderate
Metoprolol × Theophylline
Metoprolol is cardioselective but at high doses antagonises theophylline's bronchodilator effect.
Moderate
Propranolol × Theophylline
Propranolol is non-selective, blocks bronchial β2 receptors, and antagonises theophylline's bronchodilator effect.
Moderate
Amoxicillin × Doxycycline
A bacteriostatic agent (doxycycline) suppresses the bactericidal action of a beta-lactam (amoxicillin), which requires active bacterial division.
Moderate
Loratadine × Morphine
Loratadine is a second-generation antihistamine with minimal blood-brain barrier penetration.
Moderate
Cetirizine × Morphine
Cetirizine penetrates the blood-brain barrier at higher doses.
Moderate
Ciclosporin × Paracetamol
Paracetamol does not interact significantly with ciclosporin in short courses.
Moderate
Clarithromycin × Metoprolol
Metoprolol is mainly metabolised by CYP2D6; clarithromycin does not clinically significantly inhibit CYP2D6.
Moderate
Carbamazepine × Estradiol
Carbamazepine is a strong CYP3A4 inducer.
Moderate
Estradiol × Phenobarbital
Phenobarbital is a strong CYP3A4 inducer; it lowers oestradiol levels by 40–60%.
Moderate
carvedilol × Insulin
Beta-blockers mask adrenergic hypoglycaemia symptoms (tachycardia, tremor, sweating).
Minor
Folic acid × Metformin
Metformin on long-term use (over 5 years) moderately reduces blood B12 (by 10–30%).
Minor
Ascorbic acid × Levothyroxine sodium
Ascorbic acid raises gastric acidity and improves levothyroxine absorption in patients with atrophic gastritis or hypochlorhydria.
Minor
Calcium carbonate × Metformin
Calcium carbonate slightly reduces metformin intestinal absorption when taken together.
Minor
Calcium carbonate × Metronidazole
Calcium carbonate as an antacid may theoretically reduce metronidazole absorption, but no clinically significant effect on antibacterial efficacy has been described.
Minor
Metoprolol × Paracetamol
Paracetamol is metabolised by CYP2E1 (5%) and predominantly by glucuronidation; metoprolol by CYP2D6.
Minor
Curcumin (Curcuma longa extract) × Paracetamol
Curcumin (Curcuma longa extract) theoretically weakly inhibits CYP2E1, which produces paracetamol's hepatotoxic metabolite NAPQI.
Minor
Ascorbic acid × Cetirizine
Ascorbic acid does not affect cetirizine metabolism.
Minor
Metformin × Zinc (oral salts: picolinate, citrate, gluconate, oxide, acetate)
Zinc theoretically competes with metformin for renal tubular organic cation secretion, but no clinically significant hyperglycaemia has been described on the combination.
Minor
Hypericum perforatum × Paracetamol
St John's wort is a CYP3A4 inducer and a weak CYP2E1 inducer.
Minor
Cyanocobalamin × Omeprazole
Proton pump inhibitors suppress gastric acidity and reduce B12 release from food (which requires HCl and pepsin).
Minor
Metformin × Simeticone
Simethicone is a surface-active silicone agent that is not absorbed in the gastrointestinal tract.
Major
Acetylsalicylic acid × Fluoxetine
Fluoxetine (SSRI) depletes the platelet serotonin pool, impairing primary haemostasis.
Major
Acetylsalicylic acid × Sertraline
Sertraline (SSRI) depletes the platelet serotonin pool, weakening platelet aggregation.
Major
Clarithromycin × Quetiapine
Clarithromycin blocks CYP3A4 – the main quetiapine metabolic route.
Major
Carbamazepine × Dabigatran
Carbamazepine induces P-glycoprotein, the main dabigatran clearance route.
Major
Amitriptyline × Sertraline
Dual risk.
Major
Carbamazepine × Clarithromycin
Clarithromycin inhibits CYP3A4, the carbamazepine metabolism enzyme.
Critical
Ciprofloxacin × Theophylline
Ciprofloxacin is a strong CYP1A2 inhibitor.
Major
Alprazolam × Clarithromycin
Clarithromycin blocks CYP3A4 – the main alprazolam metabolic route.
Major
Amiodarone × Colchicine
Amiodarone blocks CYP3A4 and the P-glycoprotein transporter – two colchicine clearance routes.
Major
Alprazolam × Ketoconazole
Ketoconazole strongly blocks CYP3A4 – the main alprazolam metabolic route.
Major
Colchicine × Fluconazole
Fluconazole at 200 mg/day or above blocks CYP3A4 – the main colchicine clearance route.
Major
fluvoxamine × Linezolid
Linezolid is a reversible monoamine oxidase (MAO) inhibitor.
Moderate
Acetylsalicylic acid × Gentamicin
Additive nephrotoxicity.
Major
Alprazolam × Fluoxetine
Fluoxetine and its active metabolite norfluoxetine moderately block CYP3A4.
Major
Atorvastatin × Fluconazole
Fluconazole at 200 mg/day or above moderately inhibits CYP3A4; at 400 mg/day, strongly.
Critical
Dabigatran × Warfarin
Warfarin blocks vitamin K-dependent clotting factor synthesis; dabigatran is a direct thrombin inhibitor.
Major
Colchicine × Simvastatin
Simvastatin is metabolised by CYP3A4; colchicine uses the same route and inhibits it.
Major
Clarithromycin × Sildenafil
Clarithromycin blocks CYP3A4 – the main sildenafil metabolic route.
Major
Lithium × naproxen
NSAIDs reduce renal lithium clearance via prostaglandin-dependent renal blood flow blockade.
Major
carvedilol × clonidine
Clonidine is an α2-agonist that reduces sympathetic tone.
Major
Diazepam × fluvoxamine
Fluvoxamine blocks CYP2C19 and CYP3A4 – both diazepam metabolic routes.
Major
Carbamazepine × diltiazem
Diltiazem blocks CYP3A4 – the main carbamazepine metabolic route.
Major
Clarithromycin × Tamsulosin
Clarithromycin blocks CYP3A4 – the main tamsulosin metabolic route.
Major
citalopram × Esomeprazole
Esomeprazole is the S-isomer of omeprazole, the same CYP2C19 inhibitor.
Major
Gentamicin × tacrolimus
Additive nephrotoxicity via two distinct mechanisms.
Major
Ketoconazole × Tamsulosin
Ketoconazole is a potent CYP3A4 inhibitor – the main tamsulosin metabolic route.
Critical
Amiodarone × Simvastatin
Amiodarone inhibits CYP3A4 and P-glycoprotein.
Major
Atorvastatin × diltiazem
Diltiazem moderately inhibits CYP3A4 – a partial atorvastatin metabolic route.
Critical
Dabigatran × Dronedarone
Dronedarone strongly inhibits intestinal P-glycoprotein, the clearance route of dabigatran.
Critical
Ciclosporin × Dronedarone
Cyclosporine is a strong CYP3A4 and P-glycoprotein inhibitor.
Critical
Ciclosporin × Rosuvastatin
Cyclosporine inhibits OATP1B1 – rosuvastatin hepatic uptake falls, plasma concentration rises 7-fold.
Critical
Colchicine × ritonavir
Colchicine is a CYP3A4 and P-glycoprotein substrate with narrow therapeutic window.
Critical
ritonavir × tacrolimus
Tacrolimus is almost entirely cleared via hepatic CYP3A4.
Critical
Quetiapine × ritonavir
Quetiapine is cleared via hepatic CYP3A4.
Critical
Linezolid × Sertraline
Linezolid is an oxazolidinone antibiotic that also reversibly inhibits monoamine oxidase (MAO).
Critical
Amiodarone × Dronedarone
Amiodarone and dronedarone are class III antiarrhythmics with overlapping mechanism and additive QT prolongation.
Critical
Amitriptyline × Dronedarone
Amitriptyline (tricyclic antidepressant) prolongs QT.
Critical
Clarithromycin × tacrolimus
Tacrolimus (a post-transplant immunosuppressant) is cleared via hepatic CYP3A4.
Critical
Amiodarone × ritonavir
Dual mechanism: ritonavir strongly inhibits CYP3A4, the partial clearance route of amiodarone, raising amiodarone levels.
Major
Budesonide × Clarithromycin
Clarithromycin blocks CYP3A4 – the main hepatic metabolic route for budesonide.
Major
Budesonide × Ketoconazole
Ketoconazole strongly blocks CYP3A4 – the main budesonide metabolic route.
Major
Captopril × Spironolactone
Captopril (ACE-I) reduces aldosterone synthesis, while spironolactone directly blocks aldosterone receptors.
Major
Iopromide × Metformin
Intravenous iodinated contrast media (iopromide) can cause acute kidney injury via osmotic load and direct toxicity.
Major
Sertraline × Tramadol
Sertraline (SSRI) raises synaptic serotonin; tramadol blocks serotonin and norepinephrine reuptake.
Major
Amitriptyline × Fluoxetine
Dual mechanism.
Major
Amitriptyline × Escitalopram
Both drugs raise serotonergic transmission and prolong QT.
Major
Amitriptyline × Haloperidol
Additive QT prolongation and anticholinergic effect.
Major
Alprazolam × Fluconazole
Fluconazole at 200 mg/day or above blocks CYP3A4 – the main alprazolam metabolic route.
Major
Clarithromycin × methylprednisolone
Clarithromycin blocks CYP3A4 – the main methylprednisolone metabolic route.
Major
Iopromide × Methotrexate
Contrast-induced nephropathy lowers renal methotrexate clearance.
Major
Ketoconazole × methylprednisolone
Ketoconazole strongly blocks CYP3A4 – the main methylprednisolone metabolic route.
Major
methylprednisolone × ritonavir
Ritonavir is the most potent CYP3A4 inhibitor available – the main methylprednisolone metabolic route.
Major
Ketoconazole × tacrolimus
Strong CYP3A4 inhibitor – tacrolimus rises 4-5 fold.
Major
Amiodarone × tacrolimus
Amiodarone blocks CYP3A4 and P-glycoprotein – two key tacrolimus clearance routes.
Major
Colchicine × tacrolimus
Tacrolimus and colchicine are both P-glycoprotein substrates.
Major
Dronedarone × tacrolimus
Dronedarone blocks the P-glycoprotein transporter – the main tacrolimus clearance route.
Major
Esomeprazole × tacrolimus
Esomeprazole inhibits CYP2C19.
Major
Fluconazole × tacrolimus
Fluconazole at 200 mg/day or above blocks CYP3A4 – the main tacrolimus metabolic route.
Major
clonidine × Propranolol
Propranolol is a non-selective beta-blocker (β1 and β2).
Major
Alprazolam × ritonavir
Ritonavir is the most potent CYP3A4 inhibitor available – the main alprazolam metabolic route.
Major
Budesonide × ritonavir
Ritonavir is the most potent CYP3A4 inhibitor available.
Major
Amitriptyline × citalopram
Both drugs prolong QT and are serotonergic.
Critical
fluvoxamine × Theophylline
Fluvoxamine is the strongest clinical CYP1A2 inhibitor.
Major
Ketoconazole × Quetiapine
Ketoconazole is a potent CYP3A4 inhibitor – the main quetiapine metabolic route.
Major
carvedilol × Fluoxetine
Fluoxetine is a potent CYP2D6 inhibitor, the main carvedilol metabolic route.
Major
Ciclosporin × Ketoconazole
Ketoconazole is a potent CYP3A4 and P-glycoprotein inhibitor – two main cyclosporine clearance routes.
Major
Clarithromycin × Theophylline
Clarithromycin blocks CYP1A2 and CYP3A4 – theophylline metabolic routes.
Major
Ciclosporin × diltiazem
Diltiazem blocks CYP3A4 and P-glycoprotein – cyclosporine clearance routes.
Major
ritonavir × Tamsulosin
Tamsulosin is a CYP3A4 substrate.
Moderate
Amlodipine × Atorvastatin
Amlodipine weakly inhibits CYP3A4 – a partial atorvastatin metabolic route.
Moderate
Amlodipine × diltiazem
Dual calcium channel blockade: amlodipine (dihydropyridine), diltiazem (non-dihydropyridine).
Moderate
Azithromycin × Rivaroxaban
Azithromycin is a weak P-glycoprotein inhibitor; rivaroxaban is a P-glycoprotein substrate.
Moderate
Atorvastatin × Digoxin
Atorvastatin blocks intestinal P-glycoprotein (one of the digoxin clearance routes).
Major
Alprazolam × Carbamazepine
Carbamazepine induces CYP3A4; alprazolam plasma levels fall by 50%.
Major
Amlodipine × Carbamazepine
Carbamazepine induces CYP3A4 – the main amlodipine metabolic route.
Major
Amiodarone × Rifampicin
Rifampicin strongly induces CYP3A4 – the main N-deethylation pathway of amiodarone.
Moderate
Alprazolam × Bisoprolol
Additive bradycardia and hypotension.
Moderate
Amitriptyline × Morphine
Additive CNS depression, sedation, and anticholinergic effect (constipation, urinary retention).
Major
Bupropion × Dexamethasone
Dexamethasone is a potent CYP3A4 inducer and weak CYP2B6 inducer (which metabolises bupropion).
Major
Quetiapine × Rifampicin
Rifampicin is the most potent CYP3A4 inducer available.
Major
clonidine × Sildenafil
Additive hypotensive effect.
Major
Bupropion × Theophylline
Theophylline at toxic doses causes seizures by itself.
Major
Alprazolam × Dronedarone
Dronedarone is a strong CYP3A4 inhibitor, the main alprazolam metabolic route.
Moderate
Bisoprolol × Sildenafil
Sildenafil is a vasodilator via PDE5 blockade.
Moderate
Alprazolam × Cetirizine
Additive sedation.
Moderate
Azithromycin × Theophylline
Azithromycin is a weak CYP1A2 inhibitor (theophylline is a substrate).
Moderate
Amitriptyline × Cetirizine
Additive anticholinergic effect and sedation.
Major
Atorvastatin × Rifampicin
Rifampicin strongly induces CYP3A4 and the OATP1B1 transporter – two atorvastatin clearance routes.
Major
Azithromycin × Colchicine
Azithromycin inhibits the P-glycoprotein transporter less than clarithromycin but still blocks a colchicine clearance route.
Major
carvedilol × Colchicine
Carvedilol is a moderate P-glycoprotein inhibitor; colchicine is a P-glycoprotein substrate with a narrow therapeutic window.
Critical
Carbamazepine × Dronedarone
Carbamazepine is a strong CYP3A4 inducer.
Major
Rifampicin × Simvastatin
Rifampicin strongly induces CYP3A4 and the OATP1B1 transporter – the routes of simvastatin activation and hepatocyte uptake.
Major
Colchicine × diltiazem
Diltiazem is a moderate CYP3A4 and P-glycoprotein inhibitor.
Moderate
Azithromycin × Ciprofloxacin
Dual antibiotic therapy with additive QT prolongation.
Critical
Dronedarone × Rifampicin
Rifampicin is a potent CYP3A4 inducer.
Critical
Colchicine × Ketoconazole
Colchicine is cleared via CYP3A4 and P-glycoprotein.
Critical
ritonavir × Sildenafil
Sildenafil is cleared via hepatic CYP3A4.
Critical
Clarithromycin × Colchicine
Colchicine is cleared via hepatic CYP3A4 and the P-glycoprotein transporter.
Critical
Nitroglycerin × Sildenafil
Sildenafil blocks phosphodiesterase-5, slowing breakdown of cGMP – the intracellular mediator of vascular relaxation.
Major
Amiodarone × Sildenafil
Dual mechanism: amiodarone blocks CYP3A4 – a partial sildenafil metabolic route – and both drugs prolong QT.
Major
Colchicine × Dronedarone
Dronedarone strongly blocks both P-glycoprotein and CYP3A4 – two colchicine clearance routes.
Major
Colchicine × Verapamil
Verapamil blocks CYP3A4 and the P-glycoprotein transporter – two colchicine clearance routes.
Moderate
Alprazolam × Nitroglycerin
Additive hypotension with sublingual nitroglycerin.
Moderate
Amitriptyline × Nitroglycerin
Additive orthostatic hypotension with sublingual nitroglycerin.
Major
Escitalopram × Haloperidol
Additive QT prolongation.
Major
Escitalopram × Fluoxetine
Two SSRIs simultaneously raise synaptic serotonin activity.
Major
Apixaban × Diclofenac
Apixaban inhibits factor Xa; diclofenac injures the gastric mucosa and reduces platelet aggregation.
Major
Escitalopram × Mirtazapine
Additive serotonergic effect.
Major
Dronedarone × Indapamide
Indapamide (thiazide-like diuretic) increases urinary potassium loss.
Major
Enalapril × Valsartan
Dual RAAS blockade (ACE-I + ARB).
Critical
Amiodarone × Haloperidol
Dual QT prolongation.
Major
Haloperidol × Mirtazapine
Mirtazapine prolongs QT dose-dependently, additively with haloperidol (especially parenteral).
Major
Haloperidol × Sertraline
Sertraline at high doses prolongs QT, additively with haloperidol.
Moderate
Amlodipine × Dexamethasone
Dexamethasone is a weak CYP3A4 inducer.
Moderate
Amlodipine × Ibuprofen
NSAIDs weaken amlodipine's antihypertensive effect via renal prostaglandin suppression.
Major
Ibuprofen × Prednisolone
Additive gastroesophageal ulcer and bleeding risk.
Major
Diclofenac × Lithium
Similar to naproxen + lithium.
Major
Amiodarone × Quetiapine
Amiodarone prolongs QT and weakly blocks CYP3A4 (the main quetiapine metabolic route).
Major
Apixaban × naproxen
Similar to apixaban + meloxicam.
Major
Captopril × telmisartan
Dual RAAS blockade (ACE-I + ARB).
Major
celecoxib × Ketorolac
Dual NSAID therapy – additive GI bleeding, nephrotoxicity, and cardiovascular event risks.
Major
citalopram × Haloperidol
Additive QT prolongation.
Major
Iopromide × naproxen
Contrast and NSAID (naproxen) – additive nephrotoxicity, especially in chronic kidney disease and dehydration.
Major
naproxen × Rivaroxaban
Direct oral anticoagulant (rivaroxaban) + NSAID (naproxen) – additive GI bleeding risk.
Moderate
Acetylsalicylic acid × methylprednisolone
Glucocorticoids damage the gastric mucosa and suppress protective prostaglandin production.
Moderate
Acetylsalicylic acid × meloxicam
Meloxicam is preferentially COX-2 selective and weakly displaces aspirin from COX-1.
Moderate
Bisoprolol × meloxicam
NSAIDs weaken the antihypertensive effect of beta-blockers.
Major
celecoxib × Warfarin
Celecoxib is metabolised by CYP2C9 – the same route as S-warfarin (the more active form).
Critical
Fluoxetine × Methylthioninium chloride (methylene blue)
IV methylene blue inhibits MAO-A.
Critical
Methylthioninium chloride (methylene blue) × Tramadol
IV methylene blue reversibly inhibits MAO-A.
Critical
Dabigatran × Rivaroxaban
Rivaroxaban blocks factor Xa; dabigatran blocks thrombin.
Critical
Apixaban × Ketoconazole
Ketoconazole strongly inhibits both CYP3A4 and P-glycoprotein – the clearance routes of apixaban.
Critical
Linezolid × Mirtazapine
Mirtazapine increases serotonin release by blocking presynaptic α2-adrenergic autoreceptors.
Critical
Linezolid × venlafaxine
Venlafaxine is a serotonin–norepinephrine reuptake inhibitor (SNRI).
Critical
Methylthioninium chloride (methylene blue) × Sertraline
Methylene blue (methylthioninium chloride) given intravenously is a potent reversible MAO-A inhibitor.
Critical
Escitalopram × Methylthioninium chloride (methylene blue)
IV methylene blue is a reversible MAO-A inhibitor.
Major
Acetylsalicylic acid × Apixaban
Aspirin irreversibly blocks platelet cyclooxygenase; apixaban directly inhibits factor Xa.
Major
Apixaban × Sertraline
Sertraline (SSRI) depletes the platelet serotonin pool and impairs primary haemostasis.
Major
Enalapril × Spironolactone
Enalapril (an angiotensin-converting enzyme inhibitor, ACE-I) reduces aldosterone synthesis, while spironolactone directly blocks aldosterone receptors.
Major
Losartan × Spironolactone
Losartan (angiotensin II receptor blocker, ARB) suppresses the renin-angiotensin-aldosterone system and reduces aldosterone release.
Major
Spironolactone × Valsartan
Valsartan (ARB) suppresses the RAAS, while spironolactone blocks aldosterone receptors.
Major
Amiodarone × Mirtazapine
Mirtazapine prolongs QT dose-dependently.
Major
Azithromycin × Dronedarone
Additive QT prolongation.
Major
citalopram × duloxetine
SSRI + SNRI – serotonergic load rises, serotonin syndrome risk.
Major
citalopram × Fluoxetine
Two SSRIs simultaneously.
Major
citalopram × Mirtazapine
Mirtazapine increases serotonergic transmission via α2-adrenergic blockade and blocks 5-HT2A/2C.
Major
citalopram × Quetiapine
Quetiapine prolongs QT at high doses.
Major
duloxetine × venlafaxine
Dual SNRI – doubling the same pharmacological effect without therapeutic benefit.
Major
Escitalopram × venlafaxine
SSRI + SNRI – serotonin syndrome without therapeutic rationale.
Major
Morphine × Pregabalin
Pregabalin acts via the α2δ subunit of calcium channels and depresses the central nervous system.
Major
Dronedarone × Tramadol
Additive QT risk.
Major
Morphine × Tramadol
Additive CNS and respiratory centre depression.
Major
Morphine × Quetiapine
Additive CNS and respiratory depression.
Major
Dronedarone × Sertraline
Sertraline at high doses (above 150 mg/day) moderately prolongs QT.
Major
Dronedarone × Mirtazapine
Mirtazapine prolongs QT dose-dependently (especially above 30 mg/day).
Major
Amlodipine × Dronedarone
Dronedarone is a strong CYP3A4 inhibitor, the main amlodipine metabolic route.
Major
Escitalopram × Quetiapine
Additive QT prolongation at high quetiapine doses.
Major
Ibuprofen × Losartan
NSAIDs reduce renal blood flow via prostaglandin blockade.
Major
Candesartan × Diclofenac
Similar to ibuprofen + losartan.
Major
celecoxib × Methotrexate
NSAIDs reduce renal methotrexate clearance (both selective and non-selective COX inhibitors).
Major
celecoxib × Losartan
Similar to enalapril + celecoxib.
Major
Ibuprofen × telmisartan
Similar to losartan + ibuprofen.
Major
Apixaban × meloxicam
Apixaban is a direct factor Xa inhibitor; meloxicam blocks platelet function and injures the GI mucosa.
Major
celecoxib × Iopromide
Contrast (iopromide) and an NSAID (celecoxib) are both nephrotoxic.
Major
Ibuprofen × tacrolimus
Ibuprofen reduces renal blood flow via PGE2 inhibition.
Major
meloxicam × Rivaroxaban
Direct oral anticoagulant (rivaroxaban) + NSAID (meloxicam) – additive GI bleeding risk via combined anticoagulation, mucosal injury, and platelet dysfunction.
Major
naproxen × tacrolimus
NSAID (naproxen) + nephrotoxic calcineurin inhibitor (tacrolimus) – additive acute kidney injury risk in transplant patients.
Major
Iopromide × tacrolimus
Contrast (iopromide) and nephrotoxic immunosuppressant (tacrolimus) – high contrast-induced nephropathy risk.
Major
Iopromide × meloxicam
Similar to iopromide + naproxen.
Major
Spironolactone × telmisartan
Additive hyperkalaemia.
Major
Enalapril × telmisartan
Dual RAAS blockade – increased hyperkalaemia, hypotension, and acute kidney injury without outcome improvement (ONTARGET).
Major
Co-trimoxazole × Losartan
Trimethoprim blocks sodium channels via an amiloride-like mechanism, additively with an ARB (losartan) causing hyperkalaemia.
Moderate
Bisoprolol × Prednisolone
Prednisolone causes sodium and water retention via mineralocorticoid effect, reducing bisoprolol's antihypertensive effect.
Moderate
Bisoprolol × Ketorolac
NSAIDs weaken the antihypertensive effect of beta-blockers via prostaglandin-dependent renal regulation (natriuresis).
Moderate
Bisoprolol × Ibuprofen
Similar to bisoprolol + ketorolac.
Moderate
Bisoprolol × methylprednisolone
Methylprednisolone causes sodium and water retention via mineralocorticoid effect, reducing the antihypertensive effect of the beta-blocker.
Moderate
Bisoprolol × Iopromide
Beta-blockers can make treating anaphylaxis to iodinated contrast harder – adrenaline becomes less effective due to β-blockade.
Moderate
Bisoprolol × naproxen
NSAIDs weaken the antihypertensive effect of beta-blockers via renal prostaglandin suppression.
Moderate
Acetylsalicylic acid × Amlodipine
At high aspirin doses (above 1 g/day), vasodilator prostaglandins are suppressed, weakening amlodipine's antihypertensive effect.
Moderate
Amlodipine × Ketorolac
Ketorolac suppresses vasodilator prostaglandins, weakening amlodipine's antihypertensive effect.
Moderate
Amlodipine × naproxen
NSAIDs weaken amlodipine's antihypertensive effect via renal prostaglandin suppression.
Moderate
Acetylsalicylic acid × diltiazem
Diltiazem impairs platelet function via calcium channel blockade; aspirin is an antiplatelet.
Moderate
Acetylsalicylic acid × Prednisolone
Similar to ASA + methylprednisolone.
Moderate
Acetylsalicylic acid × venlafaxine
Venlafaxine (SNRI) depletes the platelet serotonin pool, impairing primary haemostasis.
Moderate
Azithromycin × Warfarin
Azithromycin suppresses vitamin K-producing gut flora, raising INR.
Moderate
Atorvastatin × Rosuvastatin
Dual statin therapy – doubling the same pharmacological class with additive myopathy risk and no therapeutic benefit.
Moderate
Atorvastatin × Simvastatin
Dual statin therapy – additive myopathy and rhabdomyolysis risk.
Moderate
Atorvastatin × fluvoxamine
Fluvoxamine blocks CYP3A4 – a partial atorvastatin metabolic route.
Major
Ciprofloxacin × Glibenclamide
Ciprofloxacin disrupts insulin secretion from pancreatic β-cells and concurrently inhibits CYP2C9 – the glibenclamide metabolic route.
Major
Amiodarone × Clarithromycin
Dual mechanism: both prolong QT, and clarithromycin blocks CYP3A4 – a partial amiodarone clearance route.
Major
Digoxin × Verapamil
Verapamil inhibits P-glycoprotein, which clears digoxin via kidney and intestine.
Major
Dronedarone × Fluconazole
Dual mechanism.
Major
Amitriptyline × Ciprofloxacin
Additive QT prolongation.
Major
Dabigatran × Ketoconazole
Ketoconazole strongly blocks P-glycoprotein, the main transporter of dabigatran.
Major
Carbamazepine × Doxycycline
Carbamazepine induces CYP3A4 and accelerates hepatic doxycycline metabolism.
Critical
Amiodarone × Digoxin
Amiodarone blocks P-glycoprotein in the intestine and renal tubules – the main dabigatran-style clearance route of digoxin.
Major
Amoxicillin × Methotrexate
Amoxicillin and other penicillins compete with methotrexate for renal tubular secretion.
Major
Carbamazepine × Verapamil
Verapamil blocks CYP3A4 – the main carbamazepine metabolic route.
Major
Ciprofloxacin × Dexamethasone
Additive tendon injury risk.
Major
Allopurinol × Captopril
The combination raises risk of hypersensitivity reactions and severe skin reactions (Stevens-Johnson syndrome, toxic epidermal necrolysis, angioedema).
Major
Acetylsalicylic acid × Methotrexate
Aspirin suppresses tubular secretion of methotrexate and displaces it from albumin binding.
Major
Doxycycline × isotretinoin
Both drugs cause benign intracranial hypertension (pseudotumor cerebri).
Major
Amiodarone × Ketoconazole
Ketoconazole strongly blocks CYP3A4 – the N-deethylation pathway of amiodarone.
Major
Atorvastatin × Warfarin
Atorvastatin weakly inhibits CYP3A4 and CYP2C9 – the warfarin clearance route.
Major
Amiodarone × Atorvastatin
Amiodarone moderately blocks CYP3A4 – a partial atorvastatin metabolic route.
Major
Fluconazole × Haloperidol
Dual mechanism.
Major
Amlodipine × Simvastatin
Amlodipine moderately inhibits CYP3A4 – the main simvastatin metabolic route.
Major
Ketorolac × Methotrexate
Ketorolac reduces renal methotrexate clearance and suppresses tubular secretion.
Moderate
Acetylsalicylic acid × Budesonide
Additive ulcerogenic effect with oral budesonide (used in inflammatory bowel disease).
Major
Amitriptyline × Clarithromycin
Clarithromycin blocks CYP3A4 and prolongs QT itself.
Major
Atorvastatin × Ciclosporin
Cyclosporine blocks the OATP1B1 transporter and CYP3A4 – two atorvastatin clearance routes.
Major
Apixaban × Dronedarone
Dronedarone is a strong P-glycoprotein and CYP3A4 inhibitor – two apixaban clearance routes.
Major
Colchicine × Rosuvastatin
Additive myopathy and rhabdomyolysis risk.
Critical
Ciclosporin × Simvastatin
Cyclosporine blocks two simvastatin clearance routes: the OATP1B1 transporter (uptake into hepatocytes) and CYP3A4.
Major
Atorvastatin × Ketoconazole
Ketoconazole strongly inhibits CYP3A4 – the main atorvastatin metabolic route.
Major
Dronedarone × Simvastatin
Dronedarone inhibits CYP3A4 – the main simvastatin metabolic route.
Critical
Acetylsalicylic acid × Ketorolac
Ketorolac is the most potent oral and parenteral NSAID.
Major
Apixaban × Dexamethasone
Dexamethasone is a CYP3A4 and P-glycoprotein inducer.
Major
Ciprofloxacin × methylprednisolone
Additive tendon injury risk.
Major
Fluconazole × Simvastatin
Fluconazole at 200 mg/day or above moderately inhibits CYP3A4 – the main simvastatin metabolic route.
Major
Ciprofloxacin × Warfarin
Ciprofloxacin blocks CYP1A2 and, to a lesser extent, CYP3A4 – warfarin clearance routes.
Major
Amiodarone × Dabigatran
Amiodarone blocks intestinal P-glycoprotein – the main route of dabigatran absorption and elimination.
Major
Amiodarone × citalopram
Dual QT-prolongation risk.
Major
Amitriptyline × venlafaxine
Venlafaxine (SNRI) has serotonin and noradrenergic activity; amitriptyline (TCA) acts the same way.
Major
Simvastatin × Verapamil
Verapamil inhibits CYP3A4 and P-glycoprotein.
Major
citalopram × Escitalopram
Escitalopram is the S-enantiomer of citalopram.
Major
duloxetine × Linezolid
Linezolid is a reversible monoamine oxidase (MAO) inhibitor.
Major
Dronedarone × Quetiapine
Additive QT prolongation (both prolong QTc).
Moderate
Amlodipine × ritonavir
Ritonavir is the most potent CYP3A4 inhibitor available – the main amlodipine metabolic route.
Moderate
Azithromycin × Digoxin
Macrolides suppress the gut bacteria Eggerthella lenta that inactivate digoxin.
Moderate
Atorvastatin × Verapamil
Verapamil is a moderate CYP3A4 inhibitor.
Major
diltiazem × Simvastatin
Diltiazem inhibits CYP3A4.
Major
Ibuprofen × Warfarin
Ibuprofen and warfarin compete for plasma protein (albumin) binding.
Critical
Escitalopram × Linezolid
Escitalopram (SSRI) raises synaptic serotonin.
Major
meloxicam × Warfarin
Meloxicam (preferential COX-2 NSAID) inhibits platelet aggregation less than non-selective NSAIDs but still injures the gastric mucosa.
Critical
citalopram × Linezolid
Citalopram (SSRI) raises synaptic serotonin.
Critical
Apixaban × Warfarin
Warfarin blocks vitamin K-dependent clotting factor synthesis (II, VII, IX, X); apixaban directly inhibits factor Xa.
Critical
Rivaroxaban × Warfarin
Warfarin blocks vitamin K-dependent clotting factor synthesis; rivaroxaban directly inhibits factor Xa.
Critical
Clarithromycin × Dronedarone
Clarithromycin is a strong CYP3A4 inhibitor and prolongs QT itself.
Critical
Dronedarone × Ketoconazole
Ketoconazole is a strong CYP3A4 inhibitor, the main dronedarone clearance route.
Critical
Dronedarone × ritonavir
Ritonavir is the most potent CYP3A4 inhibitor available.
Major
Amiodarone × Digoxin
Amiodarone blocks the P-glycoprotein transporter and renal tubular secretion of digoxin.
Major
Digoxin × Dronedarone
Dronedarone blocks intestinal P-glycoprotein – the main route of digoxin absorption and elimination.
Critical
ritonavir × Simvastatin
Simvastatin is cleared via hepatic CYP3A4.
Critical
Atorvastatin × ritonavir
Atorvastatin uses hepatic CYP3A4 for ~70% of its clearance.
Major
Digoxin × diltiazem
Diltiazem blocks intestinal P-glycoprotein – a key digoxin absorption route.
Critical
Diazepam × Morphine
Morphine and diazepam act on different receptors (μ-opioid and GABA-A) but both depress the central nervous system and the medullary respiratory centre.
Critical
Alprazolam × Morphine
Alprazolam and morphine depress the central nervous system and respiratory centre through different routes (GABA-A and μ-opioid).
Major
Fluoxetine × Metoprolol
Fluoxetine is a potent CYP2D6 inhibitor, the main metoprolol metabolic route.
Critical
Morphine × Phenazepam
Phenazepam is a long-acting benzodiazepine with an active metabolite persisting for several days.
Critical
Diclofenac × Ketorolac
Ketorolac and diclofenac are both NSAIDs.
Critical
Ibuprofen × Ketorolac
Ketorolac and ibuprofen are both NSAIDs.
Major
Bupropion × Metoprolol
Bupropion is a potent CYP2D6 inhibitor, the main metoprolol metabolic route.
Major
Levothyroxine sodium × Warfarin
Thyroid hormones accelerate catabolism of vitamin K-dependent clotting factors.
Critical
Acetylsalicylic acid × Warfarin
Aspirin irreversibly blocks platelet cyclooxygenase and reduces platelet aggregation.
Major
Prednisolone × Warfarin
Prednisolone (a systemic glucocorticoid) raises fibrinogen and clotting factors but can also alter warfarin metabolism through liver enzymes.
Critical
Linezolid × Tramadol
Tramadol is an opioid with serotonin–norepinephrine reuptake inhibition.
Critical
Ketoconazole × Rivaroxaban
Ketoconazole is a potent inhibitor of hepatic CYP3A4 and the P-glycoprotein transporter.
Critical
Ketorolac × Nimesulide
Ketorolac is a potent non-selective NSAID; nimesulide is a selective COX-2 inhibitor.
Critical
Co-trimoxazole × Methotrexate
Co-trimoxazole contains trimethoprim, a dihydrofolate reductase inhibitor.
Critical
Amiodarone × Co-trimoxazole
Amiodarone prolongs the QT interval.
Major
Apixaban × Ketorolac
Apixaban inhibits factor Xa, while ketorolac is the most potent available NSAID.
Major
Clarithromycin × Dabigatran
Clarithromycin blocks intestinal P-glycoprotein, the main transporter of dabigatran.
Major
Clarithromycin × Rivaroxaban
Clarithromycin blocks CYP3A4 and P-glycoprotein – the two main rivaroxaban clearance routes.
Major
Apixaban × Clarithromycin
Clarithromycin blocks CYP3A4 and P-glycoprotein – two apixaban clearance routes.
Major
Amiodarone × Apixaban
Amiodarone moderately blocks P-glycoprotein and CYP3A4 – two apixaban clearance routes.
Major
Metronidazole × Warfarin
Metronidazole stereospecifically inhibits CYP2C9, the clearance route for S-warfarin.
Major
Hydrochlorothiazide × Losartan
A thiazide diuretic plus an ARB synergistically lower blood pressure: the thiazide reduces circulating volume, losartan vasodilates by suppressing the RAAS.
Major
Metronidazole × Warfarin
Metronidazole inhibits CYP2C9 – S-warfarin (more active isomer) accumulates.
Major
Indapamide × Lithium
Indapamide is a thiazide-like diuretic.
Major
Furosemide × Lithium
Furosemide (loop diuretic) lowers circulating volume and, via subclinical volume depletion, increases lithium reabsorption in the proximal tubules.
Major
Methotrexate × Omeprazole
Omeprazole blocks the renal BCRP transporter and reduces methotrexate clearance.
Major
Amiodarone × Metoprolol
Dual mechanism.
Major
Clarithromycin × Haloperidol
Additive QT prolongation.
Major
Amiodarone × Fluoxetine
Fluoxetine blocks CYP2D6 (a minor amiodarone clearance route) and modestly prolongs QT.
Major
Clarithromycin × Escitalopram
Both prolong QT, and clarithromycin blocks CYP3A4 (a minor escitalopram metabolic route).
Major
Ciprofloxacin × Haloperidol
Dual mechanism: both prolong QT (additively), and ciprofloxacin blocks CYP1A2 – a partial haloperidol clearance route.
Major
Ketoconazole × Sildenafil
Ketoconazole strongly blocks CYP3A4 – the main sildenafil metabolic route.
Major
Allopurinol × Enalapril
The combination raises risk of hypersensitivity reactions and severe skin reactions (Stevens-Johnson syndrome, toxic epidermal necrolysis, angioedema).
Major
Carbamazepine × tacrolimus
Carbamazepine strongly induces CYP3A4 and P-glycoprotein.
Major
ritonavir × Warfarin
Complex mechanism.
Major
Acetylsalicylic acid × Escitalopram
Escitalopram (SSRI) depletes the platelet serotonin pool, impairing primary haemostasis.
Major
Apixaban × Escitalopram
Escitalopram (SSRI) depletes the platelet serotonin pool, impairing primary haemostasis.
Major
citalopram × Omeprazole
Omeprazole is a potent CYP2C19 inhibitor, the main citalopram metabolic route.
Major
citalopram × Dronedarone
Dronedarone prolongs QT (FDA Multaq carries a boxed warning).
Major
citalopram × Fluconazole
Dual risk.
Major
Amiodarone × venlafaxine
Dual mechanism.
Major
Ciprofloxacin × duloxetine
Ciprofloxacin is a potent CYP1A2 inhibitor, the main duloxetine metabolic route.
Major
duloxetine × fluvoxamine
Dual risk.
Major
fluvoxamine × venlafaxine
Fluvoxamine blocks CYP1A2 (a minor venlafaxine metabolic route).
Major
Amitriptyline × duloxetine
Duloxetine moderately blocks CYP2D6 (an amitriptyline metabolic route); amitriptyline plasma levels rise.
Major
Dronedarone × venlafaxine
Additive QT prolongation.
Major
duloxetine × Fluoxetine
Fluoxetine is a potent CYP2D6 inhibitor; duloxetine is minorly metabolised by CYP2D6.
Major
Haloperidol × Morphine
Additive CNS depression and sedation.
Major
Dronedarone × Furosemide
Furosemide (loop diuretic) increases urinary potassium loss.
Major
Amiodarone × Rivaroxaban
Amiodarone moderately blocks CYP3A4 and P-glycoprotein – two rivaroxaban clearance routes.
Major
Amlodipine × Clarithromycin
Clarithromycin blocks CYP3A4 – the main amlodipine metabolic route.
Major
Amlodipine × Ketoconazole
Ketoconazole is a strong CYP3A4 inhibitor – the main amlodipine metabolic route.
Major
Esomeprazole × Methotrexate
Proton pump inhibitors block the renal BCRP transporter and reduce methotrexate clearance.
Major
Methotrexate × Pantoprazole
Proton pump inhibitors block the renal BCRP transporter, reducing methotrexate clearance.
Major
Acetylsalicylic acid × Diclofenac
Diclofenac competitively inhibits platelet cyclooxygenase-1 and blocks aspirin's access for COX-1 acetylation.
Major
celecoxib × Lithium
NSAIDs (including selective COX-2 inhibitors like celecoxib) reduce renal lithium clearance.
Moderate
Bisoprolol × Calcium carbonate
Calcium carbonate may reduce bisoprolol GI absorption when taken simultaneously.
Major
Fluconazole × Glibenclamide
Fluconazole at 200 mg/day or above blocks CYP2C9 – the main glibenclamide metabolic route.
Major
Haloperidol × Ketoconazole
Ketoconazole is a potent CYP3A4 inhibitor – the main haloperidol metabolic route.
Major
Ciprofloxacin × Prednisolone
Additive tendon injury risk.
Moderate
Amlodipine × Bupropion
Bupropion blocks CYP2D6.
Moderate
Acetylsalicylic acid × Glibenclamide
High aspirin doses displace glibenclamide from albumin binding and suppress hepatic gluconeogenesis.
Moderate
Acetylsalicylic acid × Clopidogrel
Additive antiplatelet effect via different targets: aspirin irreversibly blocks platelet cyclooxygenase; clopidogrel inhibits the P2Y12 receptor.
Moderate
Acetylsalicylic acid × Valproic acid
Aspirin displaces valproate from albumin binding and suppresses its metabolism.
Moderate
Acetylsalicylic acid × fluvoxamine
SSRIs block serotonin reuptake into platelets, impairing primary haemostasis.
Moderate
Acetylsalicylic acid × duloxetine
Duloxetine (SNRI) depletes the platelet serotonin pool, impairing primary haemostasis.
Moderate
Acetylsalicylic acid × celecoxib
Celecoxib is a selective COX-2 inhibitor and does not displace aspirin from COX-1 (unlike ibuprofen/naproxen).
Moderate
Atorvastatin × Dronedarone
Dronedarone blocks CYP3A4 – a partial atorvastatin metabolic route.
Moderate
Atorvastatin × Methotrexate
Atorvastatin blocks OATP1B1 – the hepatic methotrexate uptake route.
Moderate
Atorvastatin × tacrolimus
Tacrolimus is a weak CYP3A4 inhibitor; atorvastatin is a substrate.
Critical
Fluoxetine × Linezolid
Fluoxetine (SSRI) raises synaptic serotonin.
Critical
Apixaban × Rivaroxaban
Apixaban and rivaroxaban are both direct factor Xa inhibitors.
Critical
Apixaban × Dabigatran
Apixaban inhibits factor Xa; dabigatran inhibits thrombin.
Major
Methotrexate × tacrolimus
Dual immunosuppression plus additive nephrotoxicity.
Moderate
Bisoprolol × Diclofenac
NSAIDs weaken the antihypertensive effect of beta-blockers via renal prostaglandin suppression.
Moderate
Amlodipine × Diclofenac
NSAIDs weaken amlodipine's antihypertensive effect via prostaglandin suppression.
Critical
Amiodarone × Warfarin
Warfarin acts via two stereoisomers: S-warfarin (5-fold more active) and R-warfarin.
Major
Clopidogrel × Warfarin
Warfarin blocks vitamin K-dependent clotting factor synthesis; clopidogrel inhibits platelet aggregation via the P2Y12 receptor.
Major
Dabigatran × Rifampicin
Rifampicin strongly induces P-glycoprotein, the main dabigatran clearance route.
Major
Carbamazepine × Warfarin
Carbamazepine strongly induces CYP2C9 and CYP3A4.
Major
Carbamazepine × Ethinylestradiol
Carbamazepine induces CYP3A4 and accelerates ethinylestradiol metabolism.
Moderate
Bisoprolol × Theophylline
Bisoprolol is cardioselective, but at high doses (above 10 mg/day) partially blocks β2-receptors and may weaken theophylline's bronchodilator effect in asthma or COPD.
Major
ritonavir × Rosuvastatin
Rosuvastatin barely uses CYP3A4 but is a substrate of OATP1B1 and BCRP transporters, both inhibited by ritonavir.
Major
Acetylsalicylic acid × Warfarin
Aspirin irreversibly blocks platelet cyclooxygenase and reduces aggregation.
Critical
Ketoconazole × Simvastatin
Simvastatin clearance is 98% via hepatic CYP3A4.
Critical
Clarithromycin × Simvastatin
Simvastatin clearance is 98% dependent on hepatic CYP3A4.
Major
Clopidogrel × Warfarin
Warfarin blocks vitamin K-dependent clotting factor synthesis; clopidogrel inhibits platelet aggregation via the P2Y12 receptor.
Major
Enalapril × Ibuprofen
Ibuprofen (NSAID) suppresses prostaglandin synthesis maintaining glomerular perfusion at lower blood pressure.
Major
Azithromycin × citalopram
Additive QT prolongation.
Major
carvedilol × Theophylline
Carvedilol blocks β2-adrenergic receptors (non-selective beta-blocker) and causes bronchoconstriction in asthma or COPD.
Moderate
Amlodipine × carvedilol
Additive hypotension and peripheral oedema.

Enalapril × Losartan

Ethinylestradiol × Rifampicin

Escitalopram × Tramadol

Apixaban × Clopidogrel

Carbamazepine × Simvastatin

Acetylsalicylic acid × Furosemide

Escitalopram × Moxifloxacin

Atorvastatin × Carbamazepine

Alprazolam × Amitriptyline

Digoxin × Metoprolol

Amlodipine × Nitroglycerin

Amiodarone × Sertraline

Haloperidol × Moxifloxacin

Atorvastatin × Clopidogrel

Enalapril × Metformin

Losartan × Metoprolol

Metformin × Omeprazole

Amoxicillin × Levothyroxine sodium

Furosemide × Sertraline

Metronidazole × Paracetamol

Carbamazepine × Ciclosporin

Ciclosporin × Voriconazole

Atorvastatin × Levothyroxine sodium

Everolimus × Voriconazole

Rifampicin × Rivaroxaban

Ciprofloxacin × Sertraline

Calcium carbonate × Doxycycline

Amoxicillin × Metronidazole

Digoxin × Rifampicin

Bisoprolol × Diazepam

Itraconazole × Sirolimus

Dronedarone × Fluoxetine

Acetylsalicylic acid × Calcium carbonate

Clopidogrel × Esomeprazole

Amiodarone × Carbamazepine

Amitriptyline × Carbamazepine

Alprazolam × Digoxin

Amlodipine × Rifampicin

Amlodipine × Budesonide

Azithromycin × Haloperidol

Losartan × Metformin

Amlodipine × Calcium carbonate

Amlodipine × Metoprolol

Amlodipine × Ciprofloxacin

Clopidogrel × Sertraline

Digoxin × Spironolactone

Amoxicillin × Ethinylestradiol

Hydrochlorothiazide × Sertraline

Captopril × Co-trimoxazole

Omeprazole × Sertraline

Moxifloxacin × Sotalol

Carbamazepine × Linezolid

Ciprofloxacin × Dronedarone

Ciprofloxacin × Tramadol

Ciprofloxacin × Ethinylestradiol

Acetylsalicylic acid × Rivaroxaban

Alprazolam × Tramadol

Doxycycline × Ethinylestradiol

Levothyroxine sodium × Omeprazole

Ascorbic acid × Metformin

Carbamazepine × Haloperidol

Amiodarone × Escitalopram

Glibenclamide × Propranolol

Itraconazole × Lovastatin

Azithromycin × Ethinylestradiol

Ciprofloxacin × Metformin

Digoxin × Furosemide

Amlodipine × Enalapril

Carbamazepine × isotretinoin

Ethinylestradiol × Metronidazole

Hydrochlorothiazide × Metformin

Amiodarone × Furosemide

Co-trimoxazole × Valsartan

Bisoprolol × Linezolid

Azithromycin × Estradiol

Diclofenac × Rivaroxaban

Escitalopram × Fluconazole

Fluoxetine × Tamoxifen

celecoxib × tacrolimus

Ketoconazole × Rifampicin