perindopril/amlodipine (Rx)

Brand and Other Names:Prestalia
  • Print

Dosing & Uses

AdultPediatricGeriatric

Dosage Forms & Strengths

perindopril arginine/amlodipine

tablet

  • 3.5mg/2.5mg
  • 7mg/5mg
  • 14mg/10mg

Hypertension

Indicated for the treatment of hypertension in patients whose blood pressure is not adequately controlled on monotherapy or as initial therapy in patients likely to need multiple drugs to achieve blood pressure goals

Initial: 3.5 mg/2.5 mg PO qDay with or without food

Adjust dose according to blood pressure goals; wait 7-14 days between titration steps

Not to exceed 14 mg/10 mg qDay

Dosage Modifications

Renal Impairment

  • CrCl <30 mL/min: Not recommended
  • CrCl 30-80 mL/min (mild or moderate renal impairment): Do not exceed 7/5 mg

Hepatic impairment: There are no data to guide dosing recommendations

Heart failure: There are no data to guide dosing recommendations

Dosing Considerations

May be used as initial therapy if a patient is likely to need multiple drugs to achieve blood pressure goals

Consider use in patients unable to achieve adequate antihypertensive effect with amlodipine monotherapy because of dose-limiting peripheral edema caused by amlodipine

Safety and efficacy not established

Neonates with a history of in utero exposure: If oliguria or hypotension occurs, direct attention toward support of blood pressure and renal perfusion; exchange transfusions or dialysis may be required as a means of reversing hypotension and/or substituting for disordered renal function

Not recommended: There are no data to guide dosing recommendations in patients aged >65 years

Elderly patients and patients with hepatic insufficiency have decreased clearance of amlodipine with a resulting increase in AUC of approximately 40-60%

A similar increase in AUC was observed in patients with moderate -o-severe heart failure

Next:

Interactions

Interaction Checker

and perindopril/amlodipine

No Results

     activity indicator 
    No Interactions Found
    Interactions Found

    Contraindicated

      Serious - Use Alternative

        Significant - Monitor Closely

          Minor

            All Interactions Sort By:
             activity indicator 

            Contraindicated (3)

            • aliskiren

              perindopril decreases effects of aliskiren by Other (see comment). Contraindicated. Comment: Aliskiren use contraindicated with ACE-inhibitors in patients with diabetes; avoid coadministration with ACE-inhibitors if GFR. In patients who are elderly, volume-depleted (including those on diuretic therapy), or with compromised renal function, coadministration of ACE-inhibitors with drugs that affect RAAS may increase the risk of renal impairment (including acute renal failure) and cause loss of antihypertensive effect. Monitor renal function periodically.

            • dantrolene

              dantrolene, amlodipine. Either increases toxicity of the other by Mechanism: pharmacodynamic synergism. Contraindicated. Rare incidence of cardiovascular collapse and marked hyperkalemia observed when coadministered; may be higher risk with nondihydropyridine calcium channel blockers.

            • protein a column

              perindopril, protein a column. Other (see comment). Contraindicated. Comment: Risk of anaphylactic reaction. Mechanism: buildup of bradykinin d/t deactivation of kininase by ACE inhibitors. D/C ACE inhibitor 72h prior to use of protein A column.

            Serious - Use Alternative (53)

            • abametapir

              abametapir will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug. For 2 weeks after abametapir application, avoid taking drugs that are CYP3A4 substrates. If not feasible, avoid use of abametapir.

            • allopurinol

              perindopril, allopurinol. Mechanism: unknown. Avoid or Use Alternate Drug. Risk of anaphylaxis, Stevens Johnson syndrome.

            • apalutamide

              apalutamide will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug. Coadministration of apalutamide, a strong CYP3A4 inducer, with drugs that are CYP3A4 substrates can result in lower exposure to these medications. Avoid or substitute another drug for these medications when possible. Evaluate for loss of therapeutic effect if medication must be coadministered. Adjust dose according to prescribing information if needed.

            • aspirin

              aspirin, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • aspirin rectal

              aspirin rectal, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • azilsartan

              azilsartan, perindopril. Either increases toxicity of the other by pharmacodynamic synergism. Avoid or Use Alternate Drug. Dual blockade of renin-angiotensin system increases risks of hypotension, hyperkalemia, and renal impairment.

            • candesartan

              candesartan, perindopril. Either increases toxicity of the other by pharmacodynamic synergism. Avoid or Use Alternate Drug. Dual blockade of renin-angiotensin system increases risks of hypotension, hyperkalemia, and renal impairment.

            • celecoxib

              celecoxib, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • chloramphenicol

              chloramphenicol will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug.

            • chloroquine

              chloroquine will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug.

            • choline magnesium trisalicylate

              choline magnesium trisalicylate, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • conivaptan

              conivaptan will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug. Calcium channel blockers with depressant effects on the sinus and AV nodes could potentiate dronedarone's effects on conduction. Give a low dose of calcium channel blockers initially and increase only ECG is reviewed and tolerated.

            • dalteparin

              dalteparin increases toxicity of perindopril by Other (see comment). Avoid or Use Alternate Drug. Comment: Low molecular weight heparins may suppress adrenal aldosterone secretion, which can potentially cause hyperkalemia.

            • diclofenac

              diclofenac, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • diflunisal

              diflunisal, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • diltiazem

              diltiazem will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug. Concomitant use with amlodipine and diltiazem reported an a 60% increase in amlodipine AUC. Monitor increased effects and toxicities (eg, bradycardia, sinus arrest, decreased cardiac output) if amiodarone is concomitantly used with nondihydropyridine calcium channel blocker (ie, diltiazem).

            • enzalutamide

              enzalutamide will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug.

            • eprosartan

              eprosartan, perindopril. Either increases toxicity of the other by pharmacodynamic synergism. Avoid or Use Alternate Drug. Dual blockade of renin-angiotensin system increases risks of hypotension, hyperkalemia, and renal impairment.

            • etodolac

              etodolac, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • fenoprofen

              fenoprofen, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • fexinidazole

              fexinidazole will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug. Fexinidazole inhibits CYP3A4. Coadministration may increase risk for adverse effects of CYP3A4 substrates.

            • flurbiprofen

              flurbiprofen, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • ibuprofen

              ibuprofen, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • ibuprofen IV

              ibuprofen IV, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • idelalisib

              idelalisib will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug. Idelalisib is a strong CYP3A inhibitor; avoid coadministration with sensitive CYP3A substrates

            • indomethacin

              indomethacin, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • irbesartan

              irbesartan, perindopril. Either increases toxicity of the other by pharmacodynamic synergism. Avoid or Use Alternate Drug. Dual blockade of renin-angiotensin system increases risks of hypotension, hyperkalemia, and renal impairment.

            • ivosidenib

              ivosidenib will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug. Avoid coadministration of sensitive CYP3A4 substrates with ivosidenib or replace with alternate therapies. If coadministration is unavoidable, monitor patients for loss of therapeutic effect of these drugs.

            • ketoprofen

              ketoprofen, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • ketorolac

              ketorolac, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • ketorolac intranasal

              ketorolac intranasal, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • lofexidine

              lofexidine, amlodipine. Either increases effects of the other by pharmacodynamic synergism. Avoid or Use Alternate Drug. Avoid coadministration with other drugs that decrease pulse or blood pressure to mitigate risk of excessive bradycardia and hypotension.

              lofexidine, perindopril. Either increases effects of the other by pharmacodynamic synergism. Avoid or Use Alternate Drug. Avoid coadministration with other drugs that decrease pulse or blood pressure to mitigate risk of excessive bradycardia and hypotension.

            • lonafarnib

              amlodipine will increase the level or effect of lonafarnib by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug. If coadministration of lonafarnib (a sensitive CYP3A substrate) with weak CYP3A inhibitors is unavoidable, reduce to, or continue lonafarnib at starting dose. Closely monitor for arrhythmias and events (eg, syncope, heart palpitations) since lonafarnib effect on QT interval is unknown.

              lonafarnib will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug. Avoid coadministration with sensitive CYP3A substrates. If coadministration unavoidable, monitor for adverse reactions and reduce CYP3A substrate dose in accordance with product labeling.

            • losartan

              losartan, perindopril. Either increases toxicity of the other by pharmacodynamic synergism. Avoid or Use Alternate Drug. Dual blockade of renin-angiotensin system increases risks of hypotension, hyperkalemia, and renal impairment.

            • meclofenamate

              meclofenamate, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • mefenamic acid

              mefenamic acid, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • meloxicam

              meloxicam, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • nabumetone

              nabumetone, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • naproxen

              naproxen, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • nifedipine

              nifedipine will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug.

            • olmesartan

              olmesartan, perindopril. Either increases toxicity of the other by pharmacodynamic synergism. Avoid or Use Alternate Drug. Dual blockade of renin-angiotensin system increases risks of hypotension, hyperkalemia, and renal impairment.

            • oxaprozin

              oxaprozin, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • piroxicam

              piroxicam, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • potassium phosphates, IV

              perindopril and potassium phosphates, IV both increase serum potassium. Avoid or Use Alternate Drug.

            • pregabalin

              perindopril, pregabalin. Either increases toxicity of the other by Other (see comment). Avoid or Use Alternate Drug. Comment: Coadministration results in additive risk of developing angioedema of face, mouth, and neck. Angioedema may result in respiratory compromise.

            • sacubitril/valsartan

              sacubitril/valsartan, perindopril. Either increases toxicity of the other by pharmacodynamic synergism. Avoid or Use Alternate Drug. Dual blockade of renin-angiotensin system increases risks of hypotension, hyperkalemia, and renal impairment.

            • salsalate

              salsalate, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • simvastatin

              amlodipine increases levels of simvastatin by Other (see comment). Avoid or Use Alternate Drug. Comment: Benefits of combination therapy should be carefully weighed against the potential risks of combination. Potential for increased risk of myopathy/rhabdomyolysis. Limit simvastatin dose to no more than 20 mg/day when used concurrently.

            • sulindac

              sulindac, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • telmisartan

              telmisartan, perindopril. Either increases toxicity of the other by pharmacodynamic synergism. Avoid or Use Alternate Drug. Dual blockade of renin-angiotensin system increases risks of hypotension, hyperkalemia, and renal impairment.

            • tolmetin

              tolmetin, perindopril. pharmacodynamic antagonism. Avoid or Use Alternate Drug. Coadministration may result in a significant decrease in renal function. NSAIDs may diminish the antihypertensive effect of ACE inhibitors. The mechanism of these interactions is likely related to the ability of NSAIDs to reduce the synthesis of vasodilating renal prostaglandins.

            • valsartan

              valsartan, perindopril. Either increases toxicity of the other by pharmacodynamic synergism. Avoid or Use Alternate Drug. Dual blockade of renin-angiotensin system increases risks of hypotension, hyperkalemia, and renal impairment.

            • voxelotor

              voxelotor will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug. Voxelotor increases systemic exposure of sensitive CYP3A4 substrates. Avoid coadministration with sensitive CYP3A4 substrates with a narrow therapeutic index. Consider dose reduction of the sensitive CYP3A4 substrate(s) if unable to avoid.

            Monitor Closely (211)

            • acebutolol

              acebutolol and amlodipine both increase anti-hypertensive channel blocking. Modify Therapy/Monitor Closely.

            • albiglutide

              perindopril increases effects of albiglutide by unknown mechanism. Use Caution/Monitor. ACE inhibitors may increase hypoglycemic effect. Monitor glycemic control especially during the first month of treatment with an ACE inhibitor. .

            • aldesleukin

              aldesleukin increases effects of perindopril by pharmacodynamic synergism. Use Caution/Monitor. Risk of hypotension.

              aldesleukin increases effects of amlodipine by pharmacodynamic synergism. Use Caution/Monitor. Risk of hypotension.

            • alfuzosin

              alfuzosin and amlodipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

              perindopril, alfuzosin. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Exaggerated first dose hypotensive response.

            • aluminum hydroxide

              aluminum hydroxide decreases effects of perindopril by unspecified interaction mechanism. Use Caution/Monitor.

            • amifostine

              amifostine, amlodipine. Either increases effects of the other by pharmacodynamic synergism. Modify Therapy/Monitor Closely. Coadministration with blood pressure lowering agents may increase the risk and severity of hypotension associated with amifostine. When amifostine is used at chemotherapeutic doses, withhold blood pressure lowering medications for 24 hr prior to amifostine; if blood pressure lowering medication cannot be withheld, do not administer amifostine.

            • amifostine

              amifostine, perindopril. Either increases effects of the other by pharmacodynamic synergism. Modify Therapy/Monitor Closely. Coadministration with blood pressure lowering agents may increase the risk and severity of hypotension associated with amifostine. When amifostine is used at chemotherapeutic doses, withhold blood pressure lowering medications for 24 hr prior to amifostine; if blood pressure lowering medication cannot be withheld, do not administer amifostine.

            • amiloride

              perindopril, amiloride. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Risk of hyperkalemia.

            • asenapine

              asenapine and amlodipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

              perindopril, asenapine. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Exaggerated first dose hypotensive response.

            • aspirin

              perindopril, aspirin. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly with high doses of aspirin,in elderly or volume depleted individuals.

            • atenolol

              atenolol, amlodipine. Either increases effects of the other by pharmacodynamic synergism. Use Caution/Monitor. Both drugs lower blood pressure.

            • aspirin/citric acid/sodium bicarbonate

              aspirin/citric acid/sodium bicarbonate decreases effects of perindopril by pharmacodynamic antagonism. Modify Therapy/Monitor Closely. NSAIDs decrease synthesis of vasodilating renal prostaglandins, and thus affect fluid homeostasis and may diminish antihypertensive effect.

              perindopril, aspirin/citric acid/sodium bicarbonate. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • avanafil

              avanafil increases effects of amlodipine by pharmacodynamic synergism. Use Caution/Monitor. Risk of hypotension.

            • avapritinib

              amlodipine will increase the level or effect of avapritinib by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • axitinib

              amlodipine increases levels of axitinib by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • azathioprine

              perindopril, azathioprine. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Risk of neutropenia.

            • belzutifan

              belzutifan will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely. If unable to avoid coadministration of belzutifan with sensitive CYP3A4 substrates, consider increasing the sensitive CYP3A4 substrate dose in accordance with its prescribing information.

            • betaxolol

              betaxolol, amlodipine. Either increases effects of the other by pharmacodynamic synergism. Use Caution/Monitor. Both drugs lower blood pressure.

            • bisoprolol

              bisoprolol, amlodipine. Either increases effects of the other by pharmacodynamic synergism. Use Caution/Monitor. Both drugs lower blood pressure.

            • bosentan

              bosentan will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Monitor for decreased effects of amlodipine (CYP3A4 substrate) if bosentan is initiated/dose increased. Also, monitor toxicities of amlodipine if bosentan is discontinued/dose decreased.

            • bretylium

              amlodipine, bretylium. Either increases effects of the other by pharmacodynamic synergism. Modify Therapy/Monitor Closely. Each drug may cause hypotension.

              perindopril, bretylium. Either increases effects of the other by pharmacodynamic synergism. Modify Therapy/Monitor Closely. Each drug may cause hypotension.

            • bumetanide

              perindopril, bumetanide. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Risk of acute hypotension, renal insufficiency.

            • butabarbital

              butabarbital will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • butalbital

              butalbital will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • calcium acetate

              calcium acetate decreases effects of amlodipine by pharmacodynamic antagonism. Use Caution/Monitor.

            • calcium carbonate

              calcium carbonate decreases effects of amlodipine by pharmacodynamic antagonism. Use Caution/Monitor.

              calcium carbonate decreases effects of perindopril by unspecified interaction mechanism. Use Caution/Monitor.

            • calcium chloride

              calcium chloride decreases effects of amlodipine by pharmacodynamic antagonism. Use Caution/Monitor.

            • canagliflozin

              perindopril and canagliflozin both increase serum potassium. Use Caution/Monitor.

            • calcium citrate

              calcium citrate decreases effects of amlodipine by pharmacodynamic antagonism. Use Caution/Monitor.

            • calcium gluconate

              calcium gluconate decreases effects of amlodipine by pharmacodynamic antagonism. Use Caution/Monitor.

            • carbamazepine

              carbamazepine will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely.

            • carbidopa

              carbidopa increases effects of perindopril by pharmacodynamic synergism. Use Caution/Monitor. Therapy with carbidopa, given with or without levodopa or carbidopa-levodopa combination products, is started, dosage adjustment of the antihypertensive drug may be required.

              carbidopa increases effects of amlodipine by pharmacodynamic synergism. Use Caution/Monitor. Therapy with carbidopa, given with or without levodopa or carbidopa-levodopa combination products, is started, dosage adjustment of the antihypertensive drug may be required.

            • carvedilol

              carvedilol and amlodipine both increase anti-hypertensive channel blocking. Modify Therapy/Monitor Closely.

            • celecoxib

              perindopril, celecoxib. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • celiprolol

              celiprolol, amlodipine. Either increases effects of the other by pharmacodynamic synergism. Use Caution/Monitor. Both drugs lower blood pressure.

            • cenobamate

              cenobamate will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely. Increase dose of CYP3A4 substrate, as needed, when coadministered with cenobamate.

            • chlorpropamide

              perindopril increases effects of chlorpropamide by pharmacodynamic synergism. Use Caution/Monitor.

            • choline magnesium trisalicylate

              perindopril, choline magnesium trisalicylate. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • clarithromycin

              clarithromycin will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Increased effect of calcium channel blockers may lead to hypotension, edema, decreased HR, and acute kidney injury due to reduced renal blood flow

            • clevidipine

              amlodipine and clevidipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

            • cobicistat

              cobicistat will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • crizotinib

              crizotinib increases levels of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Dose reduction may be needed for coadministered drugs that are predominantly metabolized by CYP3A.

            • cyclosporine

              cyclosporine will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

              amlodipine increases levels of cyclosporine by unspecified interaction mechanism. Modify Therapy/Monitor Closely. A prospective study in renal transplant recipients averaged a 40% increase in cyclosporine trough levels.

            • dabrafenib

              dabrafenib will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely.

            • darunavir

              darunavir will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • deferasirox

              deferasirox will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • dichlorphenamide

              dichlorphenamide and amlodipine both decrease serum potassium. Use Caution/Monitor.

            • diclofenac

              perindopril, diclofenac. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • diflunisal

              perindopril, diflunisal. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • digoxin

              perindopril increases levels of digoxin by unspecified interaction mechanism. Use Caution/Monitor.

            • diltiazem

              amlodipine and diltiazem both increase anti-hypertensive channel blocking. Use Caution/Monitor.

            • doxazosin

              doxazosin and amlodipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

              perindopril, doxazosin. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Exaggerated first dose hypotensive response.

            • dronedarone

              dronedarone will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Calcium channel blockers with depressant effects on the sinus and AV nodes could potentiate dronedarone's effects on conduction. Give a low dose of calcium channel blockers initially and increase only ECG is reviewed and tolerated.

            • drospirenone

              perindopril, drospirenone. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Risk of hyperkalemia.

            • efavirenz

              efavirenz will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • elagolix

              elagolix will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely. Elagolix is a weak-to-moderate CYP3A4 inducer. Monitor CYP3A substrates if coadministered. Consider increasing CYP3A substrate dose if needed.

            • elvitegravir/cobicistat/emtricitabine/tenofovir DF

              elvitegravir/cobicistat/emtricitabine/tenofovir DF increases levels of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely. Cobicistat is a CYP3A4 inhibitor; contraindicated with CYP3A4 substrates for which elevated plasma concentrations are associated with serious and/or life-threatening events.

            • encorafenib

              encorafenib, amlodipine. affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Encorafenib both inhibits and induces CYP3A4 at clinically relevant plasma concentrations. Coadministration of encorafenib with sensitive CYP3A4 substrates may result in increased toxicity or decreased efficacy of these agents.

            • enoxaparin

              enoxaparin increases toxicity of perindopril by Other (see comment). Use Caution/Monitor. Comment: Low molecular weight heparins may suppress adrenal aldosterone secretion, which can potentially cause hyperkalemia.

            • eplerenone

              perindopril, eplerenone. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Risk of hyperkalemia.

            • erythromycin base

              erythromycin base will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • erythromycin ethylsuccinate

              erythromycin ethylsuccinate will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • erythromycin lactobionate

              erythromycin lactobionate will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • erythromycin stearate

              erythromycin stearate will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • eslicarbazepine acetate

              eslicarbazepine acetate will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • esmolol

              esmolol, amlodipine. Either increases effects of the other by pharmacodynamic synergism. Use Caution/Monitor. Both drugs lower blood pressure.

            • ethacrynic acid

              perindopril, ethacrynic acid. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Risk of acute hypotension, renal insufficiency.

            • etodolac

              perindopril, etodolac. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • everolimus

              perindopril, everolimus. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: Coadministration increases risk of angioedema.

            • exenatide injectable solution

              perindopril increases effects of exenatide injectable solution by Other (see comment). Use Caution/Monitor. Comment: ACE inhibitors may increase hypoglycemic effect. Monitor glycemic control especially during the first month of treatment with an ACE inhibitor. .

            • exenatide injectable suspension

              perindopril increases effects of exenatide injectable suspension by Other (see comment). Use Caution/Monitor. Comment: ACE inhibitors may increase hypoglycemic effect. Monitor glycemic control especially during the first month of treatment with an ACE inhibitor.

            • fedratinib

              fedratinib will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Adjust dose of drugs that are CYP3A4 substrates as necessary.

            • felodipine

              amlodipine and felodipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

            • fenoprofen

              perindopril, fenoprofen. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • finerenone

              amlodipine will increase the level or effect of finerenone by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely. Monitor serum potassium during initiation and dosage adjustment of either finererone or weak CYP3A4 inhibitors. Adjust finererone dosage as needed.

              perindopril and finerenone both increase serum potassium. Modify Therapy/Monitor Closely. Finerenone dose adjustment based on current serum potassium concentration. Monitor serum potassium and adjust finerenone dose as described in the prescribing information as necessary.

            • flibanserin

              amlodipine will increase the level or effect of flibanserin by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Increased flibanserin adverse effects may occur if coadministered with multiple weak CYP3A4 inhibitors.

            • flurbiprofen

              perindopril, flurbiprofen. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • fluconazole

              fluconazole will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • fosamprenavir

              fosamprenavir will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • fosphenytoin

              fosphenytoin will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • furosemide

              perindopril, furosemide. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Risk of acute hypotension, renal insufficiency.

            • glimepiride

              perindopril increases effects of glimepiride by pharmacodynamic synergism. Use Caution/Monitor.

            • glipizide

              perindopril increases effects of glipizide by pharmacodynamic synergism. Use Caution/Monitor.

            • glyburide

              perindopril increases effects of glyburide by pharmacodynamic synergism. Use Caution/Monitor.

            • gold sodium thiomalate

              perindopril, gold sodium thiomalate. Mechanism: unspecified interaction mechanism. Use Caution/Monitor. Combo of ACE inhibitors and injectable gold has caused rare cases of nitritoid reaction (flushing, N/V, hypot'n).

            • griseofulvin

              griseofulvin will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • heparin

              heparin increases toxicity of perindopril by Other (see comment). Use Caution/Monitor. Comment: Low molecular weight heparins may suppress adrenal aldosterone secretion, which can potentially cause hyperkalemia.

            • ibuprofen

              perindopril, ibuprofen. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • ibuprofen IV

              perindopril, ibuprofen IV. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • icatibant

              icatibant decreases effects of perindopril by pharmacodynamic antagonism. Use Caution/Monitor. Icatibant has potential to have a pharmacodynamic interaction with ACE inhibitors where it may attenuate the antihypertensive effect of ACE inhibitors.

            • iloperidone

              iloperidone and amlodipine both increase additive vasodilation. Use Caution/Monitor. Calcium channel blockers with iloperidone may potentiate the hypotensive effects.

            • indomethacin

              perindopril, indomethacin. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • insulin aspart

              perindopril increases effects of insulin aspart by pharmacodynamic synergism. Use Caution/Monitor.

            • insulin degludec

              perindopril, insulin degludec. Either increases effects of the other by pharmacodynamic synergism. Use Caution/Monitor. Both drugs decrease blood glucose.

            • insulin degludec/insulin aspart

              perindopril, insulin degludec/insulin aspart. Either increases effects of the other by pharmacodynamic synergism. Use Caution/Monitor. Both drugs decrease blood glucose.

            • insulin detemir

              perindopril increases effects of insulin detemir by pharmacodynamic synergism. Use Caution/Monitor.

            • insulin glargine

              perindopril increases effects of insulin glargine by pharmacodynamic synergism. Use Caution/Monitor.

            • insulin glulisine

              perindopril increases effects of insulin glulisine by pharmacodynamic synergism. Use Caution/Monitor.

            • insulin inhaled

              perindopril, insulin inhaled. Either increases effects of the other by pharmacodynamic synergism. Use Caution/Monitor. Both drugs decrease blood glucose.

            • insulin lispro

              perindopril increases effects of insulin lispro by pharmacodynamic synergism. Use Caution/Monitor.

            • insulin NPH

              perindopril increases effects of insulin NPH by pharmacodynamic synergism. Use Caution/Monitor.

            • insulin regular human

              perindopril increases effects of insulin regular human by pharmacodynamic synergism. Use Caution/Monitor.

            • isradipine

              amlodipine and isradipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

            • istradefylline

              istradefylline will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Istradefylline 40 mg/day increased peak levels and AUC of CYP3A4 substrates in clinical trials. This effect was not observed with istradefylline 20 mg/day. Consider dose reduction of sensitive CYP3A4 substrates.

            • itraconazole

              itraconazole will increase the level or effect of amlodipine by Other (see comment). Modify Therapy/Monitor Closely. CCBs elicit negative inotropic effects which may be additive to those of itraconazole; additionally, itraconazole can inhibit the metabolism of calcium channel blockers. Monitor for adverse reactions. Concomitant drug dose reduction may be necessary.

            • ketoconazole

              ketoconazole will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • ketoprofen

              perindopril, ketoprofen. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • ketorolac

              perindopril, ketorolac. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • ketorolac intranasal

              perindopril, ketorolac intranasal. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • labetalol

              labetalol and amlodipine both increase anti-hypertensive channel blocking. Modify Therapy/Monitor Closely.

            • lanthanum carbonate

              lanthanum carbonate decreases levels of perindopril by cation binding in GI tract. Use Caution/Monitor. Administer ACE inhibitor at least 2 hr before or after lanthanum.

            • lemborexant

              amlodipine will increase the level or effect of lemborexant by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely. Lower nightly dose of lemborexant recommended if coadministered with weak CYP3A4 inhibitors. See drug monograph for specific dosage modification.

            • lesinurad

              lesinurad decreases levels of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • letermovir

              letermovir increases levels of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • levodopa

              levodopa increases effects of amlodipine by pharmacodynamic synergism. Use Caution/Monitor. Consider decreasing dosage of antihypertensive agent.

              levodopa increases effects of perindopril by pharmacodynamic synergism. Use Caution/Monitor. Consider decreasing dosage of antihypertensive agent.

            • liraglutide

              perindopril increases effects of liraglutide by unknown mechanism. Use Caution/Monitor. ACE inhibitors may increase hypoglycemic effect. Monitor glycemic control especially during the first month of treatment with an ACE inhibitor. .

            • lomitapide

              amlodipine increases levels of lomitapide by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Lomitapide dose should not exceed 30 mg/day.

            • lithium

              perindopril increases toxicity of lithium by unknown mechanism. Use Caution/Monitor. ACE inhibitor induced Na+ depletion may increase reabsorption of lithium from renal tubule.

            • lopinavir

              lopinavir will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • lorlatinib

              lorlatinib will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • lurasidone

              lurasidone increases effects of amlodipine by Other (see comment). Use Caution/Monitor. Comment: Potential for increased risk of hypotension with concurrent use. Monitor blood pressure and adjust dose of antihypertensive agent as needed.

              lurasidone increases effects of perindopril by Other (see comment). Use Caution/Monitor. Comment: Potential for increased risk of hypotension with concurrent use. Monitor blood pressure and adjust dose of antihypertensive agent as needed.

            • magnesium supplement

              magnesium supplement, amlodipine. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Calcium channel blockers may increase toxic effects of magnesium; magnesium may increase hypotensive effects of calcium channel blockers.

            • maraviroc

              maraviroc, perindopril. Either increases effects of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of orthostatic hypotension.

            • maraviroc

              maraviroc, amlodipine. Either increases effects of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of orthostatic hypotension.

            • meclofenamate

              perindopril, meclofenamate. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • mefenamic acid

              perindopril, mefenamic acid. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • mefloquine

              mefloquine increases levels of amlodipine by decreasing metabolism. Use Caution/Monitor. Risk of arrhythmia.

            • meloxicam

              perindopril, meloxicam. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • metformin

              amlodipine decreases effects of metformin by pharmacodynamic antagonism. Use Caution/Monitor. Patient should be closely observed for loss of blood glucose control; when drugs are withdrawn from a patient receiving metformin, patient should be observed closely for hypoglycemia.

              perindopril increases toxicity of metformin by unspecified interaction mechanism. Use Caution/Monitor. Increases risk for hypoglycemia and lactic acidosis.

            • methylphenidate

              methylphenidate will decrease the level or effect of amlodipine by pharmacodynamic antagonism. Use Caution/Monitor. Methylphenidate may diminish antihypertensive effects. Monitor BP.

              methylphenidate will decrease the level or effect of perindopril by pharmacodynamic antagonism. Use Caution/Monitor. Methylphenidate may diminish antihypertensive effects. Monitor BP.

            • midazolam intranasal

              amlodipine will increase the level or effect of midazolam intranasal by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Coadministration of mild CYP3A4 inhibitors with midazolam intranasal may cause higher midazolam systemic exposure, which may prolong sedation.

            • moxisylyte

              perindopril, moxisylyte. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Exaggerated first dose hypotensive response.

            • mifepristone

              mifepristone will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • mitotane

              mitotane decreases levels of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Mitotane is a strong inducer of cytochrome P-4503A4; monitor when coadministered with CYP3A4 substrates for possible dosage adjustments.

            • moxisylyte

              moxisylyte and amlodipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

            • nabumetone

              perindopril, nabumetone. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • nadolol

              nadolol and amlodipine both increase anti-hypertensive channel blocking. Modify Therapy/Monitor Closely.

            • naproxen

              perindopril, naproxen. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • nebivolol

              nebivolol, amlodipine. Either increases effects of the other by pharmacodynamic synergism. Use Caution/Monitor. Both drugs lower blood pressure.

            • nefazodone

              nefazodone will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely.

            • nesiritide

              nesiritide, perindopril. Either increases effects of the other by pharmacodynamic synergism. Use Caution/Monitor. Additive hypotensive effects.

            • nevirapine

              nevirapine will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • nicardipine

              amlodipine and nicardipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

            • nifedipine

              amlodipine and nifedipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

            • nilotinib

              nilotinib will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • nisoldipine

              amlodipine and nisoldipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

            • nitroglycerin rectal

              nitroglycerin rectal, amlodipine. Either increases effects of the other by pharmacodynamic synergism. Use Caution/Monitor. Marked orthostatic hypotension has been reported when calcium channel blockers and organic nitrates were used concomitantly. Observe for possible additive hypotensive effects during concomitant use. .

            • nitroglycerin sublingual

              amlodipine, nitroglycerin sublingual. Either increases toxicity of the other by additive vasodilation. Modify Therapy/Monitor Closely. Marked orthostatic hypotension reported with concomitant use.

            • nitroprusside sodium

              amlodipine increases effects of nitroprusside sodium by pharmacodynamic synergism. Use Caution/Monitor.

            • ombitasvir/paritaprevir/ritonavir & dasabuvir

              ombitasvir/paritaprevir/ritonavir & dasabuvir will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely. Decrease dose of calcium channel blocker; dose of amlodipine should be decreased by at least 50%; clinical monitoring of patients is recommended for edema and/or signs and symptoms of hypotension. if such events occur, consider further dose reduction of calcium channel blocker or switching to alternative to calcium channel blocker

              ombitasvir/paritaprevir/ritonavir & dasabuvir will increase the level or effect of amlodipine by altering metabolism. Modify Therapy/Monitor Closely. Decrease dose of calcium channel blocker; dose of amlodipine should be decreased by at least 50%; clinical monitoring of patients is recommended for edema and/or signs and symptoms of hypotension. if such events occur, consider further dose reduction of calcium channel blocker or switching to alternative to calcium channel blocker

            • oxaprozin

              perindopril, oxaprozin. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • penbutolol

              penbutolol and amlodipine both increase anti-hypertensive channel blocking. Modify Therapy/Monitor Closely.

            • pentobarbital

              pentobarbital will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • phenobarbital

              phenobarbital will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • phenoxybenzamine

              perindopril, phenoxybenzamine. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Exaggerated first dose hypotensive response.

              phenoxybenzamine and amlodipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

            • phentolamine

              perindopril, phentolamine. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Exaggerated first dose hypotensive response.

              phentolamine and amlodipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

            • phenytoin

              amlodipine will increase the level or effect of phenytoin by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely.

            • piroxicam

              perindopril, piroxicam. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • pindolol

              pindolol and amlodipine both increase anti-hypertensive channel blocking. Modify Therapy/Monitor Closely.

            • posaconazole

              posaconazole will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • potassium acid phosphate

              perindopril increases levels of potassium acid phosphate by decreasing elimination. Use Caution/Monitor. Risk of hyperkalemia.

            • potassium chloride

              perindopril increases levels of potassium chloride by decreasing elimination. Use Caution/Monitor. Risk of hyperkalemia.

            • potassium citrate

              perindopril increases levels of potassium citrate by decreasing elimination. Use Caution/Monitor. Risk of hyperkalemia.

            • potassium citrate/citric acid

              perindopril and potassium citrate/citric acid both increase serum potassium. Use Caution/Monitor.

            • potassium iodide

              potassium iodide and perindopril both increase serum potassium. Use Caution/Monitor. Potassium salts may increase the hyperkalemic effects of ACE inhibitors; the effect may be the result of aldosterone suppression in patients receiving ACE inhibitors.

            • prazosin

              prazosin and amlodipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

              perindopril, prazosin. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Exaggerated first dose hypotensive response.

            • primidone

              primidone will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • salsalate

              perindopril, salsalate. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • propranolol

              propranolol and amlodipine both increase anti-hypertensive channel blocking. Modify Therapy/Monitor Closely.

            • ribociclib

              ribociclib will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • rifabutin

              rifabutin will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • rifampin

              rifampin will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • rifapentine

              rifapentine will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • ritonavir

              ritonavir will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • rucaparib

              rucaparib will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely. Adjust dosage of CYP3A4 substrates, if clinically indicated.

            • saquinavir

              saquinavir increases levels of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Potential for increased toxicity. .

            • silodosin

              perindopril, silodosin. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Exaggerated first dose hypotensive response.

              silodosin and amlodipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

            • sirolimus

              perindopril, sirolimus. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: Coadministration increases risk of angioedema.

            • sodium sulfate/?magnesium sulfate/potassium chloride

              amlodipine, sodium sulfate/?magnesium sulfate/potassium chloride. Either increases effects of the other by unknown mechanism. Use Caution/Monitor. Monitor for hypotension or muscle weakness in patients receiving calcium channel blockers with elevated serum magnesium concentrations.

            • sodium bicarbonate

              sodium bicarbonate decreases effects of perindopril by unspecified interaction mechanism. Use Caution/Monitor.

            • sodium citrate/citric acid

              sodium citrate/citric acid decreases effects of perindopril by unspecified interaction mechanism. Use Caution/Monitor.

            • sodium sulfate/?magnesium sulfate/potassium chloride

              sodium sulfate/?magnesium sulfate/potassium chloride increases toxicity of perindopril by Other (see comment). Use Caution/Monitor. Comment: Coadministration with medications that cause fluid and electrolyte abnormalities may increase the risk of adverse events of seizure, arrhythmias, and renal impairment.

            • sodium sulfate/potassium sulfate/magnesium sulfate

              amlodipine, sodium sulfate/potassium sulfate/magnesium sulfate. Either increases effects of the other by unknown mechanism. Use Caution/Monitor. Monitor for hypotension or muscle weakness in patients receiving calcium channel blockers with elevated serum magnesium concentrations.

              sodium sulfate/potassium sulfate/magnesium sulfate increases toxicity of perindopril by Other (see comment). Use Caution/Monitor. Comment: Coadministration with medications that cause fluid and electrolyte abnormalities may increase the risk of adverse events of seizure, arrhythmias, and renal impairment.

            • sotalol

              sotalol and amlodipine both increase anti-hypertensive channel blocking. Modify Therapy/Monitor Closely.

            • spironolactone

              perindopril, spironolactone. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Risk of hyperkalemia.

            • St John's Wort

              St John's Wort will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely.

            • stiripentol

              stiripentol, amlodipine. affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely. Stiripentol is a CYP3A4 inhibitor and inducer. Monitor CYP3A4 substrates coadministered with stiripentol for increased or decreased effects. CYP3A4 substrates may require dosage adjustment.

            • sulfasalazine

              sulfasalazine decreases effects of perindopril by pharmacodynamic antagonism. Modify Therapy/Monitor Closely. NSAIDs decrease synthesis of vasodilating renal prostaglandins, and thus affect fluid homeostasis and may diminish antihypertensive effect.

              perindopril, sulfasalazine. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • sulindac

              perindopril, sulindac. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • synthetic human angiotensin II

              perindopril increases effects of synthetic human angiotensin II by unspecified interaction mechanism. Use Caution/Monitor.

            • tacrolimus

              amlodipine will increase the level or effect of tacrolimus by unspecified interaction mechanism. Modify Therapy/Monitor Closely. Adjust dose when appropriate.

            • tadalafil

              tadalafil increases effects of amlodipine by pharmacodynamic synergism. Use Caution/Monitor. Risk of hypotension.

            • tazemetostat

              tazemetostat will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

              amlodipine will decrease the level or effect of tazemetostat by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • tecovirimat

              tecovirimat will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Tecovirimat is a weak CYP3A4 inducer. Monitor sensitive CYP3A4 substrates for effectiveness if coadministered.

            • temsirolimus

              amlodipine increases toxicity of temsirolimus by Other (see comment). Use Caution/Monitor. Comment: Combination of mTOR inhibitors with calcium channel blockers increases risk of angioedema.

              perindopril, temsirolimus. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: Coadministration increases risk of angioedema.

            • terazosin

              terazosin and amlodipine both increase anti-hypertensive channel blocking. Use Caution/Monitor.

              perindopril, terazosin. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Exaggerated first dose hypotensive response.

            • timolol

              timolol and amlodipine both increase anti-hypertensive channel blocking. Modify Therapy/Monitor Closely.

            • tolazamide

              perindopril increases effects of tolazamide by pharmacodynamic synergism. Use Caution/Monitor.

            • tinidazole

              amlodipine will increase the level or effect of tinidazole by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • tipranavir

              tipranavir increases levels of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Potential for increased toxicity. Tipranavir is used with ritonavir (boosted therapy) which is a potent CYP3A4 inhibitor.

            • tolbutamide

              perindopril increases effects of tolbutamide by pharmacodynamic synergism. Use Caution/Monitor.

            • tolmetin

              perindopril, tolmetin. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May result in renal function deterioration, particularly in elderly or volume depleted individuals.

            • torsemide

              perindopril, torsemide. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Risk of acute hypotension, renal insufficiency.

            • triamterene

              perindopril, triamterene. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Risk of hyperkalemia.

            • trimagnesium citrate anhydrous

              trimagnesium citrate anhydrous, amlodipine. Either increases effects of the other by Other (see comment). Use Caution/Monitor. Comment: Possible additive effect of magnesium and calcium channel blockers on reduction of ionic calcium may increase risk of hypotension or muscle weakness.

            • trimethoprim

              trimethoprim and perindopril both increase serum potassium. Use Caution/Monitor. Trimethoprim decreases urinary potassium excretion. May cause hyperkalemia, particularly with high doses, renal insufficiency, or when combined with other drugs that cause hyperkalemia.

            • verapamil

              amlodipine and verapamil both increase anti-hypertensive channel blocking. Use Caution/Monitor.

            • voclosporin

              voclosporin and perindopril both increase serum potassium. Use Caution/Monitor.

              voclosporin, perindopril. Either increases toxicity of the other by nephrotoxicity and/or ototoxicity. Modify Therapy/Monitor Closely. Coadministration with drugs associated with nephrotoxicity may increase the risk for acute and/or chronic nephrotoxicity.

            • voriconazole

              voriconazole will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

              voriconazole increases levels of amlodipine by decreasing metabolism. Use Caution/Monitor.

            • xipamide

              xipamide increases effects of amlodipine by pharmacodynamic synergism. Use Caution/Monitor.

              xipamide increases effects of perindopril by pharmacodynamic synergism. Use Caution/Monitor.

            • zotepine

              perindopril, zotepine. Mechanism: pharmacodynamic synergism. Use Caution/Monitor. Exaggerated first dose hypotensive response.

            Minor (63)

            • aceclofenac

              aceclofenac decreases effects of perindopril by pharmacodynamic antagonism. Minor/Significance Unknown. NSAIDs decrease prostaglandin synthesis.

            • acemetacin

              acemetacin decreases effects of perindopril by pharmacodynamic antagonism. Minor/Significance Unknown. NSAIDs decrease prostaglandin synthesis.

            • agrimony

              agrimony increases effects of perindopril by pharmacodynamic synergism. Minor/Significance Unknown.

              agrimony increases effects of amlodipine by pharmacodynamic synergism. Minor/Significance Unknown.

            • amobarbital

              amobarbital will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • brimonidine

              brimonidine increases effects of perindopril by pharmacodynamic synergism. Minor/Significance Unknown.

            • aprepitant

              aprepitant will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • armodafinil

              armodafinil will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • artemether/lumefantrine

              artemether/lumefantrine will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • atazanavir

              atazanavir will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • atracurium

              amlodipine increases effects of atracurium by pharmacodynamic synergism. Minor/Significance Unknown. Ca Channel Blockers interfere w/Ach release from prejunctional axon.

            • brimonidine

              brimonidine increases effects of amlodipine by pharmacodynamic synergism. Minor/Significance Unknown.

            • capsicum

              capsicum, perindopril. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. Increase ACE inhibitor induced cough.

            • chlorpromazine

              chlorpromazine increases effects of perindopril by unspecified interaction mechanism. Minor/Significance Unknown.

            • cisatracurium

              amlodipine increases effects of cisatracurium by pharmacodynamic synergism. Minor/Significance Unknown. Ca Channel Blockers interfere w/Ach release from prejunctional axon.

            • cornsilk

              cornsilk increases effects of amlodipine by pharmacodynamic synergism. Minor/Significance Unknown.

              cornsilk increases effects of perindopril by pharmacodynamic synergism. Minor/Significance Unknown.

            • creatine

              creatine, perindopril. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. (Theoretical interaction) Combination may have additive nephrotoxic effects.

            • dasatinib

              dasatinib will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • dexamethasone

              dexamethasone will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • DHEA, herbal

              DHEA, herbal will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • entecavir

              perindopril, entecavir. Either increases effects of the other by decreasing renal clearance. Minor/Significance Unknown. Coadministration with drugs that reduce renal function or compete for active tubular secretion may increase serum concentrations of either entecavir or the coadministered drug.

            • etravirine

              etravirine will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • fluphenazine

              fluphenazine increases effects of perindopril by unspecified interaction mechanism. Minor/Significance Unknown.

            • fo-ti

              fo-ti increases effects of amlodipine by pharmacodynamic synergism. Minor/Significance Unknown.

            • forskolin

              forskolin increases effects of amlodipine by pharmacodynamic synergism. Minor/Significance Unknown.

            • gentamicin

              perindopril, gentamicin. Mechanism: unspecified interaction mechanism. Minor/Significance Unknown. Mfr. recommends using combination with caution (interaction not specified).

            • grapefruit

              grapefruit will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • incobotulinumtoxinA

              amlodipine increases effects of incobotulinumtoxinA by pharmacodynamic synergism. Minor/Significance Unknown. Ca Channel Blockers interfere w/Ach release from prejunctional axon.

            • lithium

              amlodipine increases toxicity of lithium by pharmacodynamic synergism. Minor/Significance Unknown. Increased risk of neurotoxicity.

            • lornoxicam

              lornoxicam decreases effects of perindopril by pharmacodynamic antagonism. Minor/Significance Unknown. NSAIDs decrease prostaglandin synthesis.

            • maitake

              maitake increases effects of perindopril by pharmacodynamic synergism. Minor/Significance Unknown.

              maitake increases effects of amlodipine by pharmacodynamic synergism. Minor/Significance Unknown.

            • metipranolol ophthalmic

              metipranolol ophthalmic increases effects of amlodipine by pharmacodynamic synergism. Minor/Significance Unknown.

            • octacosanol

              octacosanol increases effects of perindopril by pharmacodynamic synergism. Minor/Significance Unknown.

            • modafinil

              modafinil will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • nelfinavir

              nelfinavir will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • octacosanol

              octacosanol increases effects of amlodipine by pharmacodynamic synergism. Minor/Significance Unknown.

            • onabotulinumtoxinA

              amlodipine increases effects of onabotulinumtoxinA by pharmacodynamic synergism. Minor/Significance Unknown. Ca Channel Blockers interfere w/Ach release from prejunctional axon.

            • oxcarbazepine

              oxcarbazepine will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • pancuronium

              amlodipine increases effects of pancuronium by pharmacodynamic synergism. Minor/Significance Unknown. Ca Channel Blockers interfere w/Ach release from prejunctional axon.

            • parecoxib

              parecoxib decreases effects of perindopril by pharmacodynamic antagonism. Minor/Significance Unknown. NSAIDs decrease prostaglandin synthesis.

            • perphenazine

              perphenazine increases effects of perindopril by unspecified interaction mechanism. Minor/Significance Unknown.

            • porfimer

              amlodipine decreases levels of porfimer by unspecified interaction mechanism. Minor/Significance Unknown.

            • probenecid

              probenecid increases effects of perindopril by unspecified interaction mechanism. Minor/Significance Unknown.

            • prochlorperazine

              prochlorperazine increases effects of perindopril by unspecified interaction mechanism. Minor/Significance Unknown.

            • promazine

              promazine increases effects of perindopril by unspecified interaction mechanism. Minor/Significance Unknown.

            • promethazine

              promethazine increases effects of perindopril by unspecified interaction mechanism. Minor/Significance Unknown.

            • quinupristin/dalfopristin

              quinupristin/dalfopristin will increase the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • rapacuronium

              amlodipine increases effects of rapacuronium by pharmacodynamic synergism. Minor/Significance Unknown. Ca Channel Blockers interfere w/Ach release from prejunctional axon.

            • reishi

              reishi increases effects of perindopril by pharmacodynamic synergism. Minor/Significance Unknown.

              reishi increases effects of amlodipine by pharmacodynamic synergism. Minor/Significance Unknown.

            • rifampin

              rifampin decreases levels of perindopril by increasing metabolism. Minor/Significance Unknown.

            • rocuronium

              amlodipine increases effects of rocuronium by pharmacodynamic synergism. Minor/Significance Unknown. Ca Channel Blockers interfere w/Ach release from prejunctional axon.

            • rufinamide

              rufinamide will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • ruxolitinib

              amlodipine will increase the level or effect of ruxolitinib by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • salicylates (non-asa)

              salicylates (non-asa) decreases effects of perindopril by pharmacodynamic antagonism. Minor/Significance Unknown. NSAIDs decrease prostaglandin synthesis.

            • secobarbital

              secobarbital will decrease the level or effect of amlodipine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • shepherd's purse

              shepherd's purse, perindopril. Other (see comment). Minor/Significance Unknown. Comment: Theoretically, shepherd's purse may interfere with BP control.

              shepherd's purse, amlodipine. Other (see comment). Minor/Significance Unknown. Comment: Theoretically, shepherd's purse may interfere with BP control.

            • succinylcholine

              amlodipine increases effects of succinylcholine by pharmacodynamic synergism. Minor/Significance Unknown. Ca Channel Blockers interfere w/Ach release from prejunctional axon.

            • thioridazine

              thioridazine increases effects of perindopril by unspecified interaction mechanism. Minor/Significance Unknown.

            • tizanidine

              tizanidine increases effects of amlodipine by pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypotension.

              tizanidine increases effects of perindopril by pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypotension.

            • tolfenamic acid

              tolfenamic acid decreases effects of perindopril by pharmacodynamic antagonism. Minor/Significance Unknown. NSAIDs decrease prostaglandin synthesis.

            • treprostinil

              treprostinil increases effects of amlodipine by pharmacodynamic synergism. Minor/Significance Unknown.

            • treprostinil

              treprostinil increases effects of perindopril by pharmacodynamic synergism. Minor/Significance Unknown.

            • trifluoperazine

              trifluoperazine increases effects of perindopril by unspecified interaction mechanism. Minor/Significance Unknown.

            • vecuronium

              amlodipine increases effects of vecuronium by pharmacodynamic synergism. Minor/Significance Unknown. Ca Channel Blockers interfere w/Ach release from prejunctional axon.

            Previous
            Next:

            Adverse Effects

            1-10%

            Peripheral edema (7.2%)

            Cough (3.2%)

            Headache (2.5%)

            Dizziness (2.5%)

            Frequency Not Defined

            Dermatologic: Rash

            Digestive: Nausea, diarrhea

            Postmarketing Reports

            Perindopril

            • Cardiac arrest
            • Eosinophilic pneumonitis
            • Acute renal failure, nephritis
            • Falls
            • Hepatic failure, jaundice (hepatocellular or cholestatic), acute pancreatitis
            • Symptomatic bullous pemphigoid, pemphigus
            • Exfoliative dermatitis, psoriasis, and a syndrome that may include arthralgia/arthritis, vasculitis, serositis, myalgia, fever, rash or other dermatologic manifestations
            • Positive antinuclear antibody (ANA), symptomatic hyponatremia, thrombocytopenia, neutropenia/agranulocytosis, pancytopenia, anemia (including hemolytic and aplastic), leukocytosis, eosinophilia, or an elevated erythrocyte sedimentation rate (ESR)

            Amlodipine

            • Palpitations
            • Gynecomastia
            • Jaundice and hepatic enzyme elevations (mostly consistent with cholestasis or hepatitis), some requiring hospitalization
            Previous
            Next:

            Warnings

            Black Box Warnings

            Discontinue as soon as possible when pregnancy is detected; ACE inhibitors affect renin-angiotensin system, causing oligohydramnios, which may result in fetal injury and/or death

            Contraindications

            History of hereditary or acquired angioedema associated with previous ACE inhibitor treatment

            Coadministration of neprilysin inhibitors (eg, sacubitril) with ACE inhibitors may increase angioedema risk; do not administer ACE inhibitors within 36 hr of switching to or from sacubitril/valsartan

            Coadministration with aliskiren in patients with diabetes mellitus or with renal impairment (ie, GFR <60 mL/min/1.73 m²)

            Cautions

            Use of drugs that act on the renin-angiotensin system during the second and third trimesters of pregnancy reduces fetal renal function and increases fetal and neonatal morbidity and death (see Pregnancy)

            Worsening angina and acute MI can develop after starting or increasing the dose, particularly in patients with severe obstructive CAD

            Hyperkalemia reported; monitor serum potassium levels

            Patients taking concomitant mTOR inhibitor (e.g. temsirolimus) therapy or a neprilysin inhibitor may be at increased risk for angioedema

            Persistent cough reported with all ACE inhibitors, presumably because of the inhibition of the degradation of endogenous bradykinin; generally resolves after discontinuing

            Rarely, ACE inhibitors have been associated with a syndrome that starts with cholestatic jaundice and progresses to fulminant hepatic necrosis and sometimes death; patients receiving ACE inhibitors who develop jaundice or marked elevations of hepatic enzymes should discontinue the ACE inhibitor and receive appropriate medical follow-up

            Hypotension

            • May cause symptomatic hypotension; most likely to occur in patients who have been volume-or salt-depleted as a result of prolonged diuretic therapy, dietary salt restriction, dialysis, diarrhea, or vomiting
            • Patients with severe aortic stenosis may be more likely to experience symptomatic hypotension
            • Correct hypotension in patients undergoing major surgery or during anesthesia with agents that produce hypotension with volume expansion
            • In patients at risk of excessive hypotension, monitor closely for the first 2 weeks of treatment and whenever the therapeutic dose is increased or a diuretic is added or its dose increased
            • If excessive hypotension occurs, immediately place patient in a supine position and, if necessary, treat patient with IV infusion of physiological saline; therapy can usually be continued following restoration of volume and blood pressure

            Renal impairment

            • Monitor renal function periodically
            • Perindoprilat elimination is decreased in renally impaired patients, with a marked increase in accumulation when creatinine clearance < 30 mL/min
            • Drugs that affect renin-angiotensin system can cause reductions in renal function, including acute renal failure; patients whose renal function may depend in part on activity of renin-angiotensin system—(e.g., patients with renal artery stenosis, severe heart failure, post-myocardial infarction or volume depletion) or who are on non-steroidal anti-inflammatory agents (NSAIDS) or angiotensin receptor blockers, may be at particular risk of developing acute renal failure

            Anaphylactoid reactions

            • ACE inhibitors affect the metabolism of eicosanoids and polypeptides, including endogenous bradykinin; therefore, patients taking ACE inhibitors may be subject to a variety of bradykinin- or prostaglandin-mediated adverse reactions, some of them serious
            • Patients receiving coadministration of ACE inhibitor and mTOR (mammalian target of rapamycin) inhibitor (e.g. temsirolimus, sirolimus, everolimus) therapy may be at increased risk for angioedema
            • Black patients receiving ACE inhibitors have a higher incidence of angioedema compared with nonblacks
            • Intestinal angioedema
              • Presents as abdominal pain (with or without nausea or vomiting)
              • Diagnosed by imaging studies (eg, abdominal CT or ultrasound) or at surgery
            • Angioedema of the face, extremities, lips, tongue, glottis, and larynx
              • Discontinue perindopril treatment immediately and observe until the swelling disappears
              • When involvement of the tongue, glottis, or larynx appears likely to cause airway obstruction, administer appropriate therapy promptly (eg, SC epinephrine solution 1:1000 [0.3-0.5 mL])
            Previous
            Next:

            Pregnancy & Lactation

            Pregnancy Category: D

            Discontinue as soon as pregnancy detected; during the second and third trimesters of pregnancy, drugs that act directly on the renin-angiotensin have been associated with fetal injury that includes hypotension, neonatal skull hypoplasia, anuria, reversible or irreversible renal failure, and death

            Lactation: Unknown if distributed in human breast milk; because of the potential for adverse effects on the nursing infant, decide whether to discontinue nursing or discontinue the drug

            Pregnancy Categories

            A: Generally acceptable. Controlled studies in pregnant women show no evidence of fetal risk.

            B: May be acceptable. Either animal studies show no risk but human studies not available or animal studies showed minor risks and human studies done and showed no risk.

            C: Use with caution if benefits outweigh risks. Animal studies show risk and human studies not available or neither animal nor human studies done.

            D: Use in LIFE-THREATENING emergencies when no safer drug available. Positive evidence of human fetal risk.

            X: Do not use in pregnancy. Risks involved outweigh potential benefits. Safer alternatives exist.

            NA: Information not available.

            Previous
            Next:

            Pharmacology

            Mechanism of Action

            Perindopril: A prodrug that is hydrolyzed to perindoprilat; competitively inhibits angiotensin-converting enzyme (ACE) that initially results in decreased plasma angiotensin II concentrations, and, consequently, blood pressure may be reduced in part through decreased vasoconstriction, increased renin activity, and decreased aldosterone secretion

            Amlodipine: A dihydropyridine calcium antagonist; it inhibits transmembrane influx of extracellular calcium ions across membranes of myocardial cells and vascular smooth muscle cells without changing serum calcium concentrations; this inhibits cardiac and vascular smooth muscle contraction, thereby dilating main coronary and systemic arteries

            Absorption

            Bioavailability (amlodipine): 64-90%

            Peak plasma concentration

            • Perindopril: 1 hr
            • Perindoprilat: 4 hr
            • Amlodipine: 6-12 hr

            Distribution

            Protein bound (amlodipine): 93%

            Metabolism

            Perindopril: Extensively metabolized to 6 metabolites resulting from hydrolysis, glucuronidation, and cyclization via dehydration, including the active moiety, perindoprilat

            Amlodipine: Extensively (~90%) metabolized in the liver to inactive metabolites

            Elimination

            Excretion (amlodipine): Mostly in urine (60% as metabolites, 10% as unchanged drug)

            Half-life

            • Perindoprilat: ~100 hr
            • Amlodipine: ~30-50 hr
            Previous
            Next:

            Administration

            Oral Administration

            May take with or without food

            Previous
            Next:

            Images

            No images available for this drug.
            Previous
            Next:

            Patient Handout

            A Patient Handout is not currently available for this monograph.
            Previous
            Next:

            Formulary

            FormularyPatient Discounts

            Adding plans allows you to compare formulary status to other drugs in the same class.

            To view formulary information first create a list of plans. Your list will be saved and can be edited at any time.

            Adding plans allows you to:

            • View the formulary and any restrictions for each plan.
            • Manage and view all your plans together – even plans in different states.
            • Compare formulary status to other drugs in the same class.
            • Access your plan list on any device – mobile or desktop.

            The above information is provided for general informational and educational purposes only. Individual plans may vary and formulary information changes. Contact the applicable plan provider for the most current information.

            Tier Description
            1 This drug is available at the lowest co-pay. Most commonly, these are generic drugs.
            2 This drug is available at a middle level co-pay. Most commonly, these are "preferred" (on formulary) brand drugs.
            3 This drug is available at a higher level co-pay. Most commonly, these are "non-preferred" brand drugs.
            4 This drug is available at a higher level co-pay. Most commonly, these are "non-preferred" brand drugs or specialty prescription products.
            5 This drug is available at a higher level co-pay. Most commonly, these are "non-preferred" brand drugs or specialty prescription products.
            6 This drug is available at a higher level co-pay. Most commonly, these are "non-preferred" brand drugs or specialty prescription products.
            NC NOT COVERED – Drugs that are not covered by the plan.
            Code Definition
            PA Prior Authorization
            Drugs that require prior authorization. This restriction requires that specific clinical criteria be met prior to the approval of the prescription.
            QL Quantity Limits
            Drugs that have quantity limits associated with each prescription. This restriction typically limits the quantity of the drug that will be covered.
            ST Step Therapy
            Drugs that have step therapy associated with each prescription. This restriction typically requires that certain criteria be met prior to approval for the prescription.
            OR Other Restrictions
            Drugs that have restrictions other than prior authorization, quantity limits, and step therapy associated with each prescription.
            Additional Offers
            Email to Patient

            From:

            To:

            The recipient will receive more details and instructions to access this offer.

            By clicking send, you acknowledge that you have permission to email the recipient with this information.

            Email Forms to Patient

            From:

            To:

            The recipient will receive more details and instructions to access this offer.

            By clicking send, you acknowledge that you have permission to email the recipient with this information.

            Previous
            Medscape prescription drug monographs are based on FDA-approved labeling information, unless otherwise noted, combined with additional data derived from primary medical literature.