hydrocortisone/acetic acid otic (OTC)

Brand and Other Names:VoSoL HC
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Dosing & Uses

AdultPediatric

Dosage Forms & Strengths

hydrocortisone/acetic acid/propylene glycol diacetate

otic solution

  • 1%/ 2%/ 3%

Otitis Externa

Instill 3-5 gtt into affected ear 4-6 times/day

Dosage Forms & Strengths

hydrocortisone/acetic acid otic/propylene glycol diacetate

otic solution

  • 1%/ 2%// 3%

Otitis Externa

<3 years

  • Safety and efficacy not established

>3 years

  • Instill 3-5 gtt into affected ear 4-6 times/day
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Interactions

Interaction Checker

and hydrocortisone/acetic acid otic

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            Contraindicated (1)

            • mifepristone

              mifepristone, hydrocortisone. Mechanism: unknown. Contraindicated. Mfr. states that mifepristone is contraindicated in pts. on long term corticosteroid Tx.

            Serious - Use Alternative (73)

            • adenovirus types 4 and 7 live, oral

              hydrocortisone decreases effects of adenovirus types 4 and 7 live, oral by pharmacodynamic antagonism. Avoid or Use Alternate Drug. Corticosteroids may diminish therapeutic effects of vaccines and increase risk of adverse effects (increased risk of infection). Live-attenuated vaccines should be avoided for at least 3mo after cessation of corticosteroid therapy.

            • aldesleukin

              hydrocortisone decreases effects of aldesleukin by pharmacodynamic antagonism. Avoid or Use Alternate Drug. Avoid combination because corticosteroids can potentially diminish the antineoplastic effects of aldesleukin.

            • anthrax vaccine

              hydrocortisone decreases effects of anthrax vaccine by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • axicabtagene ciloleucel

              hydrocortisone decreases effects of axicabtagene ciloleucel by Other (see comment). Avoid or Use Alternate Drug. Comment: Avoid prophylactic use of systemic corticosteroids as premedication before axicabtagene ciloleucel. Corticosteroids may, however, be required for treatment of cytokine release syndrome or neurologic toxicity.

            • BCG vaccine live

              hydrocortisone decreases effects of BCG vaccine live by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • carbamazepine

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

            • cimetidine

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

            • clarithromycin

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

            • dihydroergotamine

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

            • dihydroergotamine intranasal

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

            • diphtheria & tetanus toxoids

              hydrocortisone decreases effects of diphtheria & tetanus toxoids by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • diphtheria & tetanus toxoids/ acellular pertussis vaccine

              hydrocortisone decreases effects of diphtheria & tetanus toxoids/ acellular pertussis vaccine by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • diphtheria & tetanus toxoids/acellular pertussis/poliovirus, inactivated vaccine

              hydrocortisone decreases effects of diphtheria & tetanus toxoids/acellular pertussis/poliovirus, inactivated vaccine by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • dronedarone

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

            • erdafitinib

              erdafitinib will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Avoid or Use Alternate Drug. If coadministration unavoidable, separate administration by at least 6 hr before or after administration of P-gp substrates with narrow therapeutic index.

            • ergotamine

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

            • erythromycin base

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

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

            • erythromycin ethylsuccinate

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

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

            • erythromycin lactobionate

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

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

            • erythromycin stearate

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

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

            • hepatitis A vaccine inactivated

              hydrocortisone decreases effects of hepatitis A vaccine inactivated by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • hepatitis a/b vaccine

              hydrocortisone decreases effects of hepatitis a/b vaccine by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • hepatitis a/typhoid vaccine

              hydrocortisone decreases effects of hepatitis a/typhoid vaccine by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • hepatitis b vaccine

              hydrocortisone decreases effects of hepatitis b vaccine by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • human papillomavirus vaccine, nonavalent

              hydrocortisone decreases effects of human papillomavirus vaccine, nonavalent by pharmacodynamic antagonism. Avoid or Use Alternate Drug. Immunosuppressive therapies, including irradiation, antimetabolites, alkylating agents, cytotoxic drugs, and corticosteroids (used in greater than physiologic doses), may reduce the immune responses to vaccines.

            • human papillomavirus vaccine, quadrivalent

              hydrocortisone decreases effects of human papillomavirus vaccine, quadrivalent by pharmacodynamic antagonism. Avoid or Use Alternate Drug. Immunosuppressive therapies, including irradiation, antimetabolites, alkylating agents, cytotoxic drugs, and corticosteroids (used in greater than physiologic doses), may reduce the immune responses to vaccines.

            • influenza virus vaccine quadrivalent

              hydrocortisone decreases effects of influenza virus vaccine quadrivalent by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • influenza virus vaccine quadrivalent, adjuvanted

              hydrocortisone decreases effects of influenza virus vaccine quadrivalent, adjuvanted by pharmacodynamic antagonism. Avoid or Use Alternate Drug. Immunosuppressive drugs may reduce the immune response to influenza vaccine.

            • influenza virus vaccine quadrivalent, cell-cultured

              hydrocortisone decreases effects of influenza virus vaccine quadrivalent, cell-cultured by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • influenza virus vaccine quadrivalent, intranasal

              hydrocortisone decreases effects of influenza virus vaccine quadrivalent, intranasal by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • influenza virus vaccine trivalent

              hydrocortisone decreases effects of influenza virus vaccine trivalent by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • influenza virus vaccine trivalent, adjuvanted

              hydrocortisone decreases effects of influenza virus vaccine trivalent, adjuvanted by pharmacodynamic antagonism. Avoid or Use Alternate Drug. Immunosuppressive drugs may reduce the immune response to influenza vaccine.

            • Japanese encephalitis virus vaccine

              hydrocortisone decreases effects of Japanese encephalitis virus vaccine by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • ketoconazole

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

            • lasmiditan

              lasmiditan increases levels of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Avoid or Use Alternate Drug.

            • lovastatin

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

            • macimorelin

              hydrocortisone, macimorelin. unspecified interaction mechanism. Avoid or Use Alternate Drug. Drugs that directly affect the pituitary secretion of growth hormone (GH) may impact the accuracy of the macimorelin diagnostic test. Allow sufficient washout time of drugs affecting GH release before administering macimorelin. .

            • measles (rubeola) vaccine

              hydrocortisone decreases effects of measles (rubeola) vaccine by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • measles mumps and rubella vaccine, live

              hydrocortisone decreases effects of measles mumps and rubella vaccine, live by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • measles, mumps, rubella and varicella vaccine, live

              hydrocortisone decreases effects of measles, mumps, rubella and varicella vaccine, live by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • meningococcal A C Y and W-135 polysaccharide vaccine combined

              hydrocortisone decreases effects of meningococcal A C Y and W-135 polysaccharide vaccine combined by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • nefazodone

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

            • pneumococcal vaccine 13-valent

              hydrocortisone decreases effects of pneumococcal vaccine 13-valent by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • pneumococcal vaccine heptavalent

              hydrocortisone decreases effects of pneumococcal vaccine heptavalent by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • pneumococcal vaccine polyvalent

              hydrocortisone decreases effects of pneumococcal vaccine polyvalent by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • quinidine

              quinidine will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Avoid or Use Alternate Drug.

            • rabies vaccine

              hydrocortisone decreases effects of rabies vaccine by pharmacodynamic antagonism. Contraindicated. Corticosteroids may interfere with development of active immunity.

            • rabies vaccine chick embryo cell derived

              hydrocortisone decreases effects of rabies vaccine chick embryo cell derived by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • ranolazine

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

            • rifabutin

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

            • rifampin

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

            • rotavirus oral vaccine, live

              hydrocortisone decreases effects of rotavirus oral vaccine, live by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • rubella vaccine

              hydrocortisone decreases effects of rubella vaccine by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • silodosin

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

            • simvastatin

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

            • sirolimus

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

            • smallpox (vaccinia) vaccine, live

              hydrocortisone decreases effects of smallpox (vaccinia) vaccine, live by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • sotorasib

              sotorasib will decrease the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Avoid or Use Alternate Drug. If use is unavoidable, refer to the prescribing information of the P-gp substrate for dosage modifications.

            • squill

              hydrocortisone increases toxicity of squill by unspecified interaction mechanism. Avoid or Use Alternate Drug.

            • St John's Wort

              St John's Wort will decrease the level or effect of hydrocortisone by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Avoid or Use Alternate Drug.

            • tepotinib

              tepotinib will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Avoid or Use Alternate Drug. If concomitant use unavoidable, reduce the P-gp substrate dosage if recommended in its approved product labeling.

            • testosterone intranasal

              testosterone intranasal, hydrocortisone. Either increases effects of the other by Other (see comment). Avoid or Use Alternate Drug. Comment: Coadministration increases risk for edema, particularly in patients with cardiac, renal, or hepatic disease.

            • tetanus toxoid adsorbed or fluid

              hydrocortisone decreases effects of tetanus toxoid adsorbed or fluid by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • tick-borne encephalitis vaccine

              hydrocortisone decreases effects of tick-borne encephalitis vaccine by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • tisagenlecleucel

              hydrocortisone decreases effects of tisagenlecleucel by pharmacodynamic antagonism. Avoid or Use Alternate Drug. Avoid using corticosteroids as premedication or during treatment with tisagenlecleucel, except for life-threatening emergence (eg, cytokine release syndrome).

            • tofacitinib

              hydrocortisone, tofacitinib. Either increases toxicity of the other by immunosuppressive effects; risk of infection. Avoid or Use Alternate Drug.

            • tolvaptan

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

            • travelers diarrhea and cholera vaccine inactivated

              hydrocortisone decreases effects of travelers diarrhea and cholera vaccine inactivated by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • typhoid polysaccharide vaccine

              hydrocortisone decreases effects of typhoid polysaccharide vaccine by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • typhoid vaccine live

              hydrocortisone decreases effects of typhoid vaccine live by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • varicella virus vaccine live

              hydrocortisone decreases effects of varicella virus vaccine live by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • yellow fever vaccine

              hydrocortisone decreases effects of yellow fever vaccine by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            • zoster vaccine live

              hydrocortisone decreases effects of zoster vaccine live by pharmacodynamic antagonism. Contraindicated. Corticosteroids also increase risk of infection with concomitant live vaccines.

            Monitor Closely (239)

            • aceclofenac

              aceclofenac, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • acemetacin

              acemetacin, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • albiglutide

              hydrocortisone decreases effects of albiglutide by pharmacodynamic antagonism. Use Caution/Monitor. Corticosteroids may diminish hypoglycemic effect of antidiabetic agents. Monitor blood glucose levels carefully. .

            • alitretinoin

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

            • almotriptan

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

            • alprazolam

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

            • amiodarone

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

              amiodarone will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • amobarbital

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

            • antithrombin alfa

              hydrocortisone, antithrombin alfa. Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may decrease anticoagulant effects by increasing blood coagulability; conversely, they may impair vascular integrity, thus increasing bleeding risk. Monitor INR closely.

            • antithrombin III

              hydrocortisone, antithrombin III. Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may decrease anticoagulant effects by increasing blood coagulability; conversely, they may impair vascular integrity, thus increasing bleeding risk. Monitor INR closely.

            • aprepitant

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

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

            • argatroban

              hydrocortisone, argatroban. Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may decrease anticoagulant effects by increasing blood coagulability; conversely, they may impair vascular integrity, thus increasing bleeding risk. Monitor INR closely.

            • aripiprazole

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

            • armodafinil

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

            • artemether/lumefantrine

              artemether/lumefantrine will decrease the level or effect of hydrocortisone by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

              hydrocortisone will decrease the level or effect of artemether/lumefantrine by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • aspirin

              aspirin, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • aspirin rectal

              aspirin rectal, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • aspirin/citric acid/sodium bicarbonate

              aspirin/citric acid/sodium bicarbonate, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • atazanavir

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

            • atogepant

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

            • atorvastatin

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

              atorvastatin will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • atracurium

              atracurium, hydrocortisone. Other (see comment). Use Caution/Monitor. Comment: Coadministration of corticosteroids and neuromuscular blockers may increase risk of developing acute myopathy.

            • axitinib

              hydrocortisone decreases levels of axitinib by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • bazedoxifene/conjugated estrogens

              hydrocortisone will decrease the level or effect of bazedoxifene/conjugated estrogens by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • belatacept

              belatacept and hydrocortisone both increase immunosuppressive effects; risk of infection. Use Caution/Monitor.

            • bemiparin

              hydrocortisone, bemiparin. Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may decrease anticoagulant effects by increasing blood coagulability; conversely, they may impair vascular integrity, thus increasing bleeding risk. Monitor INR closely.

            • berotralstat

              berotralstat will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor. Monitor or titrate P-gp substrate dose if coadministered.

            • bivalirudin

              hydrocortisone, bivalirudin. Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may decrease anticoagulant effects by increasing blood coagulability; conversely, they may impair vascular integrity, thus increasing bleeding risk. Monitor INR closely.

            • bosentan

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

            • bosutinib

              bosutinib increases levels of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • budesonide

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

            • buspirone

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

            • butabarbital

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

            • butalbital

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

            • carbamazepine

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

            • celecoxib

              celecoxib, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • cholera vaccine

              hydrocortisone decreases effects of cholera vaccine by immunosuppressive effects; risk of infection. Modify Therapy/Monitor Closely. Immunosuppressive therapies, including irradiation, antimetabolites, alkylating agents, cytotoxic drugs and corticosteroids (used in greater than physiologic doses), may reduce the immune response to cholera vaccine.

            • cholestyramine

              cholestyramine decreases levels of hydrocortisone by inhibition of GI absorption. Applies only to oral form of both agents. Use Caution/Monitor.

            • choline magnesium trisalicylate

              choline magnesium trisalicylate, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • cilostazol

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

            • cinacalcet

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

            • ciprofloxacin

              hydrocortisone and ciprofloxacin both increase Other (see comment). Use Caution/Monitor. Coadministration of quinolone antibiotics and corticosteroids may increase risk of tendon rupture.

            • cisatracurium

              cisatracurium, hydrocortisone. Other (see comment). Use Caution/Monitor. Comment: Coadministration of corticosteroids and neuromuscular blockers may increase risk of developing acute myopathy.

            • clarithromycin

              clarithromycin will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • clopidogrel

              hydrocortisone will increase the level or effect of clopidogrel by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. CYP3A4 inducers may increase the metabolism of clopidogrel to its active metabolite. Monitor patients for potential increase in antiplatelet effects when CYP3A4 inducers are used in combination with clopidogrel

            • clotrimazole

              clotrimazole will decrease the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • clozapine

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

            • colchicine

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

            • conivaptan

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

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

            • conjugated estrogens

              hydrocortisone will decrease the level or effect of conjugated estrogens by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • conjugated estrogens, vaginal

              hydrocortisone will decrease the level or effect of conjugated estrogens, vaginal by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • cortisone

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

            • cyclosporine

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

              cyclosporine will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

              hydrocortisone, cyclosporine. Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may increase or decrease cyclosporine concentrations. Also, cyclosporine may increase the plasma concentrations of the corticosteroids. Monitor for changes in cyclosporine concentrations and for toxicities of corticosteroids and/or cyclosporine.

            • dalteparin

              hydrocortisone, dalteparin. Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may decrease anticoagulant effects by increasing blood coagulability; conversely, they may impair vascular integrity, thus increasing bleeding risk. Monitor INR closely.

            • darifenacin

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

            • darunavir

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

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

            • dasatinib

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

            • deferasirox

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

            • dengue vaccine

              hydrocortisone decreases effects of dengue vaccine by immunosuppressive effects; risk of infection. Use Caution/Monitor. Immunosuppressive therapies (eg, irradiation, antimetabolites, alkylating agents, cytotoxic drugs, corticosteroids [greater than physiologic doses]) may reduce immune response to dengue vaccine.

            • denosumab

              hydrocortisone, denosumab. Other (see comment). Use Caution/Monitor. Comment: Caution should be taken in patients on concomitant immunosuppressants or with impaired immune systems because of increased risk for serious infections.

            • dexamethasone

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

            • DHEA, herbal

              DHEA, herbal will increase the level or effect of hydrocortisone by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • diazepam

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

            • dichlorphenamide

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

            • diclofenac

              diclofenac, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • dienogest/estradiol valerate

              hydrocortisone will decrease the level or effect of dienogest/estradiol valerate by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Advise women to use alternative method of contraception or back-up method when moderate or weak enzyme inducer is used with combination contraceptives. Back-up contraception should be continued for 28 days after discontinuing medication to ensure contraceptive reliability.

            • diflunisal

              diflunisal, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • diltiazem

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

            • dronedarone

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

              dronedarone will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • efavirenz

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

            • elagolix

              elagolix will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • eletriptan

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

            • eliglustat

              eliglustat increases levels of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Modify Therapy/Monitor Closely. Monitor therapeutic drug concentrations, as indicated, or consider reducing the dosage of the P-gp substrate and titrate to clinical effect.

            • enoxaparin

              hydrocortisone, enoxaparin. Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may decrease anticoagulant effects by increasing blood coagulability; conversely, they may impair vascular integrity, thus increasing bleeding risk. Monitor INR closely.

            • erythromycin base

              erythromycin base will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • erythromycin ethylsuccinate

              erythromycin ethylsuccinate will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • erythromycin lactobionate

              erythromycin lactobionate will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • erythromycin stearate

              erythromycin stearate will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • estradiol

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

            • estrogens conjugated synthetic

              hydrocortisone will decrease the level or effect of estrogens conjugated synthetic by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • estropipate

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

            • etodolac

              etodolac, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • etravirine

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

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

            • exenatide injectable solution

              hydrocortisone decreases effects of exenatide injectable solution by pharmacodynamic antagonism. Use Caution/Monitor. Corticosteroids may diminish hypoglycemic effect of antidiabetic agents. Monitor blood glucose levels carefully. .

            • exenatide injectable suspension

              hydrocortisone decreases effects of exenatide injectable suspension by pharmacodynamic antagonism. Use Caution/Monitor. Corticosteroids may diminish hypoglycemic effect of antidiabetic agents. Monitor blood glucose levels carefully.

            • felodipine

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

              felodipine will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • fenoprofen

              fenoprofen, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • fesoterodine

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

            • fingolimod

              hydrocortisone increases effects of fingolimod by immunosuppressive effects; risk of infection. Modify Therapy/Monitor Closely. Concomitant therapy is expected to increase the risk of immunosuppression. Use caution when switching patients from long-acting therapies with immune effects. .

            • fluconazole

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

            • fludrocortisone

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

            • flurbiprofen

              flurbiprofen, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • fondaparinux

              hydrocortisone, fondaparinux. Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may decrease anticoagulant effects by increasing blood coagulability; conversely, they may impair vascular integrity, thus increasing bleeding risk. Monitor INR closely.

            • fosamprenavir

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

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

            • fosphenytoin

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

              fosphenytoin will decrease the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • fostamatinib

              fostamatinib will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor. Concomitant use of fostamatinib may increase concentrations of P-gp substrates. Monitor for toxicities of the P-gp substrate drug that may require dosage reduction when given concurrently with fostamatinib.

            • gemifloxacin

              hydrocortisone and gemifloxacin both increase Other (see comment). Use Caution/Monitor. Coadministration of quinolone antibiotics and corticosteroids may increase risk of tendon rupture.

            • glecaprevir/pibrentasvir

              glecaprevir/pibrentasvir will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • glycerol phenylbutyrate

              hydrocortisone decreases effects of glycerol phenylbutyrate by Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may cause the breakdown of body protein and increase plasma ammonia levels; monitor ammonia levels closely when glycerol phenylbutyrate is coadministered with corticosteroids.

            • grapefruit

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

            • griseofulvin

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

            • haemophilus influenzae type b vaccine

              hydrocortisone decreases effects of haemophilus influenzae type b vaccine by pharmacodynamic antagonism. Modify Therapy/Monitor Closely. Avoid vaccination during chemotherapy or radiation therapy if possible because antibody response might be suboptimal. Patients vaccinated within a 14-day period before starting or during immunosuppressive therapy should be revaccinated =3 months after therapy is discontinued if immune competence has been restored.

            • hemin

              hydrocortisone decreases effects of hemin by pharmacodynamic synergism. Use Caution/Monitor. Drugs that increase delta-aminolevulinic acid synthetase may decrease hemin effect.

            • heparin

              hydrocortisone, heparin. Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may decrease anticoagulant effects by increasing blood coagulability; conversely, they may impair vascular integrity, thus increasing bleeding risk. Monitor INR closely.

            • hydroxyprogesterone caproate

              hydrocortisone will decrease the level or effect of hydroxyprogesterone caproate by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • ibuprofen

              ibuprofen, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • ibuprofen IV

              ibuprofen IV, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • iloperidone

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

            • indacaterol, inhaled

              hydrocortisone, indacaterol, inhaled. serum potassium. Use Caution/Monitor. Combination may increase risk of hypokalemia.

            • indinavir

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

              indinavir will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • indomethacin

              indomethacin, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • influenza A (H5N1) vaccine

              hydrocortisone decreases effects of influenza A (H5N1) vaccine by pharmacodynamic antagonism. Use Caution/Monitor. Corticosteroids used in greater than physiologic doses may reduce immune response to H5N1 vaccine.

            • influenza virus vaccine (H5N1), adjuvanted

              hydrocortisone decreases effects of influenza virus vaccine (H5N1), adjuvanted by pharmacodynamic antagonism. Use Caution/Monitor. Corticosteroids used in greater than physiologic doses may reduce immune response to H5N1 vaccine.

            • influenza virus vaccine quadrivalent, recombinant

              hydrocortisone decreases effects of influenza virus vaccine quadrivalent, recombinant by pharmacodynamic antagonism. Use Caution/Monitor. Immune response to vaccine may be decreased in immunocompromised individuals.

            • influenza virus vaccine trivalent, recombinant

              hydrocortisone decreases effects of influenza virus vaccine trivalent, recombinant by pharmacodynamic antagonism. Use Caution/Monitor. Immune response to vaccine may be decreased in immunocompromised individuals.

            • insulin degludec

              hydrocortisone decreases effects of insulin degludec by pharmacodynamic antagonism. Modify Therapy/Monitor Closely. Endogneous cortisol is a regulatory hormone that increases blood glucose levels; exogenous systemic corticosteroids have been associated with hyperglycemia and may cause diabetes with chronic, high dose use; dose of antidiabetic agents may need adjustment and increased frequency of glucose monitoring may be required.

            • insulin degludec/insulin aspart

              hydrocortisone decreases effects of insulin degludec/insulin aspart by pharmacodynamic antagonism. Modify Therapy/Monitor Closely. Endogneous cortisol is a regulatory hormone that increases blood glucose levels; exogenous systemic corticosteroids have been associated with hyperglycemia and may cause diabetes with chronic, high dose use; dose of antidiabetic agents may need adjustment and increased frequency of glucose monitoring may be required.

            • insulin inhaled

              hydrocortisone decreases effects of insulin inhaled by pharmacodynamic antagonism. Modify Therapy/Monitor Closely. Endogneous cortisol is a regulatory hormone that increases blood glucose levels; exogenous systemic corticosteroids have been associated with hyperglycemia and may cause diabetes with chronic, high dose use; dose of antidiabetic agents may need adjustment and increased frequency of glucose monitoring may be required.

            • isavuconazonium sulfate

              hydrocortisone will decrease the level or effect of isavuconazonium sulfate by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

              hydrocortisone and isavuconazonium sulfate both decrease immunosuppressive effects; risk of infection. Use Caution/Monitor.

            • isoniazid

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

            • istradefylline

              istradefylline will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor. Istradefylline 40 mg/day increased peak levels and AUC of P-gp substrates in clinical trials. Consider dose reduction of sensitive P-gp substrates.

            • ivacaftor

              ivacaftor increases levels of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor. Ivacaftor and its M1 metabolite has the potential to inhibit P-gp; may significantly increase systemic exposure to sensitive P-gp substrates with a narrow therapeutic index.

            • ixabepilone

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

            • ketoconazole

              ketoconazole will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • ketoprofen

              ketoprofen, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • ketorolac

              ketorolac, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • ketorolac intranasal

              ketorolac intranasal, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • lapatinib

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

              lapatinib will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • letermovir

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

            • levofloxacin

              hydrocortisone and levofloxacin both increase Other (see comment). Use Caution/Monitor. Coadministration of quinolone antibiotics and corticosteroids may increase risk of tendon rupture.

            • linagliptin

              hydrocortisone will increase the level or effect of linagliptin by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor. Use of alternative treatments is strongly recommended when linagliptin is to be administered with a CYP3A4 inducer

            • liraglutide

              hydrocortisone decreases effects of liraglutide by pharmacodynamic antagonism. Use Caution/Monitor. Corticosteroids may diminish hypoglycemic effect of antidiabetic agents. Monitor blood glucose levels carefully. .

            • lomitapide

              lomitapide increases levels of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Modify Therapy/Monitor Closely. Consider reducing dose when used concomitantly with lomitapide.

            • lonafarnib

              lonafarnib will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Modify Therapy/Monitor Closely. Lonafarnib is a weak P-gp inhibitor. Monitor for adverse reactions if coadministered with P-gp substrates where minimal concentration changes may lead to serious or life-threatening toxicities. Reduce P-gp substrate dose if needed.

            • lonapegsomatropin

              lonapegsomatropin decreases effects of hydrocortisone by Other (see comment). Use Caution/Monitor. Comment: Growth hormone (GH) inhibits microsomal enzyme 11 beta-hydroxysteroid dehydrogenase type 1, which converts cortisone to its active metabolite, cortisol. Patients with untreated GH deficiency may have increases in serum cortisol, and initiation of lonapegsomatropin may result decreased serum cortisol. Patients with hypoadrenalism treated with glucocorticoids may require an increase glucocorticoid stress or maintenance doses following lonapegsomatropin initiation.

              hydrocortisone decreases effects of lonapegsomatropin by Other (see comment). Use Caution/Monitor. Comment: Growth hormone (GH) inhibits microsomal enzyme 11 beta-hydroxysteroid dehydrogenase type 1, which converts cortisone to its active metabolite, cortisol. Patients with untreated GH deficiency may have increases in serum cortisol, and initiation of lonapegsomatropin may result decreased serum cortisol. Patients with hypoadrenalism treated with glucocorticoids may require an increase glucocorticoid stress or maintenance doses following lonapegsomatropin initiation.

            • lopinavir

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

            • loratadine

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

              loratadine will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • lornoxicam

              lornoxicam, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • lovastatin

              lovastatin will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • lumefantrine

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

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

            • maraviroc

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

            • marijuana

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

            • meclofenamate

              meclofenamate, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • mefenamic acid

              mefenamic acid, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • meloxicam

              meloxicam, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • meningococcal group B vaccine

              hydrocortisone decreases effects of meningococcal group B vaccine by pharmacodynamic antagonism. Use Caution/Monitor. Individuals with altered immunocompetence may have reduced immune responses to the vaccine.

            • mestranol

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

            • methadone

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

            • methylprednisolone

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

            • metronidazole

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

            • miconazole vaginal

              miconazole vaginal will increase the level or effect of hydrocortisone by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • midazolam

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

            • modafinil

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

            • moxifloxacin

              hydrocortisone and moxifloxacin both increase Other (see comment). Use Caution/Monitor. Coadministration of quinolone antibiotics and corticosteroids may increase risk of tendon rupture.

            • nabumetone

              nabumetone, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • naproxen

              naproxen, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • nefazodone

              nefazodone will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • nelfinavir

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

            • nevirapine

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

            • nicardipine

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

              nicardipine will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • nifedipine

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

              nifedipine will decrease the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • nilotinib

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

              nilotinib will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • nisoldipine

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

            • ocrelizumab

              hydrocortisone and ocrelizumab both increase immunosuppressive effects; risk of infection. Use Caution/Monitor. Coadministration of ocrelizumab with high doses of corticosteroids is expected to increase the risk of immunosuppression.

            • ofatumumab SC

              ofatumumab SC, hydrocortisone. Either increases effects of the other by immunosuppressive effects; risk of infection. Use Caution/Monitor. Consider the risk of additive immune system effects when coadministering immunosuppressive therapies with coadministration. When switching from therapies with immune effects, take into account the duration and mechanism of action of these therapies when initiating ofatumumab SC.

            • ofloxacin

              hydrocortisone and ofloxacin both increase Other (see comment). Use Caution/Monitor. Coadministration of quinolone antibiotics and corticosteroids may increase risk of tendon rupture.

            • olodaterol inhaled

              hydrocortisone and olodaterol inhaled both decrease serum potassium. Use Caution/Monitor.

            • oxaprozin

              oxaprozin, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • oxcarbazepine

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

            • pancuronium

              pancuronium, hydrocortisone. Other (see comment). Use Caution/Monitor. Comment: Coadministration of corticosteroids and neuromuscular blockers may increase risk of developing acute myopathy.

            • parecoxib

              parecoxib, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • pentobarbital

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

            • phenindione

              hydrocortisone, phenindione. Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may decrease anticoagulant effects by increasing blood coagulability; conversely, they may impair vascular integrity, thus increasing bleeding risk. Monitor INR closely.

            • phenobarbital

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

              phenobarbital will decrease the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • phenytoin

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

              phenytoin will decrease the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • piroxicam

              piroxicam, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • poliovirus vaccine inactivated

              hydrocortisone decreases effects of poliovirus vaccine inactivated by pharmacodynamic antagonism. Modify Therapy/Monitor Closely. Avoid vaccination during chemotherapy or radiation therapy if possible because antibody response might be suboptimal. Patients vaccinated within a 14-day period before starting or during immunosuppressive therapy should be revaccinated =3 months after therapy is discontinued if immune competence has been restored. .

            • ponatinib

              ponatinib increases levels of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • ponesimod

              ponesimod and hydrocortisone both increase immunosuppressive effects; risk of infection. Use Caution/Monitor. Caution if coadministered because of additive immunosuppressive effects during such therapy and in the weeks following administration. When switching from drugs with prolonged immune effects, consider the half-life and mode of action of these drugs to avoid unintended additive immunosuppressive effects.

            • posaconazole

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

            • prednisone

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

            • primidone

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

            • protamine

              hydrocortisone, protamine. Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may decrease anticoagulant effects by increasing blood coagulability; conversely, they may impair vascular integrity, thus increasing bleeding risk. Monitor INR closely.

            • quercetin

              quercetin will decrease the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • quetiapine

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

            • quinidine

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

            • quinupristin/dalfopristin

              quinupristin/dalfopristin will increase the level or effect of hydrocortisone by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • ranolazine

              ranolazine will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • repaglinide

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

            • rifampin

              rifampin will decrease the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • rifapentine

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

            • ritonavir

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

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

              ritonavir will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • rocuronium

              rocuronium, hydrocortisone. Other (see comment). Use Caution/Monitor. Comment: Coadministration of corticosteroids and neuromuscular blockers may increase risk of developing acute myopathy.

            • rufinamide

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

            • salicylates (non-asa)

              salicylates (non-asa), hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • salsalate

              salsalate, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • saquinavir

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

            • sarecycline

              sarecycline will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor. Monitor for toxicities of P-gp substrates that may require dosage reduction when coadministered with P-gp inhibitors.

            • secobarbital

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

            • simvastatin

              simvastatin will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • sipuleucel-T

              hydrocortisone decreases effects of sipuleucel-T by pharmacodynamic antagonism. Modify Therapy/Monitor Closely.

            • sirolimus

              sirolimus will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • sodium picosulfate/magnesium oxide/anhydrous citric acid

              hydrocortisone, sodium picosulfate/magnesium oxide/anhydrous citric acid. Either increases toxicity of the other by Other (see comment). Use Caution/Monitor. Comment: May be associated with fluid and electrolyte imbalances such as hypokalemia.

            • sodium sulfate/?magnesium sulfate/potassium chloride

              sodium sulfate/?magnesium sulfate/potassium chloride increases toxicity of hydrocortisone 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

              sodium sulfate/potassium sulfate/magnesium sulfate increases toxicity of hydrocortisone 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/polyethylene glycol

              hydrocortisone and sodium sulfate/potassium sulfate/magnesium sulfate/polyethylene glycol both decrease serum potassium. Modify Therapy/Monitor Closely.

            • solifenacin

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

            • somapacitan

              somapacitan decreases effects of hydrocortisone by Other (see comment). Modify Therapy/Monitor Closely. Comment: Microsomal enzyme 11-beta-hydroxysteroid dehydrogenase type 1 (11-beta-HSD-1) required for cortisone conversion to its active metabolite, cortisol, in hepatic and adipose tissue. GH inhibits 11-beta-HSD-1. Patients treated with glucocorticoid for hypoadrenalism may require increased maintenance or stress doses after initiating somapacitan.

            • somatrem

              hydrocortisone decreases effects of somatrem by pharmacodynamic antagonism. Use Caution/Monitor.

            • sorafenib

              hydrocortisone decreases levels of sorafenib by increasing metabolism. Use Caution/Monitor.

            • St John's Wort

              St John's Wort will decrease the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • stiripentol

              stiripentol will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Modify Therapy/Monitor Closely. Consider reducing the dose of P-glycoprotein (P-gp) substrates, if adverse reactions are experienced when administered concomitantly with stiripentol.

            • succinylcholine

              succinylcholine, hydrocortisone. Other (see comment). Use Caution/Monitor. Comment: Coadministration of corticosteroids and neuromuscular blockers may increase risk of developing acute myopathy.

            • sulfasalazine

              sulfasalazine, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • sulindac

              sulindac, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • tacrolimus

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

              tacrolimus will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • tazemetostat

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

            • theophylline

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

            • tipranavir

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

            • tolfenamic acid

              tolfenamic acid, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • tolmetin

              tolmetin, hydrocortisone. Either increases toxicity of the other by pharmacodynamic synergism. Use Caution/Monitor. Increased risk of GI ulceration.

            • tolterodine

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

            • tolvaptan

              tolvaptan will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • topiramate

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

            • trastuzumab

              trastuzumab, hydrocortisone. Either increases toxicity of the other by immunosuppressive effects; risk of infection. Use Caution/Monitor. Neutropenia or febrile neutropenia incidence were increased when trastuzumab was coadministered with myelosuppressive chemotherapy. .

            • trastuzumab deruxtecan

              trastuzumab deruxtecan, hydrocortisone. Either increases toxicity of the other by immunosuppressive effects; risk of infection. Use Caution/Monitor. Neutropenia or febrile neutropenia incidence were increased when trastuzumab was coadministered with myelosuppressive chemotherapy. .

            • trazodone

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

              trazodone will decrease the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • triamcinolone acetonide injectable suspension

              hydrocortisone will decrease the level or effect of triamcinolone acetonide injectable suspension by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Use Caution/Monitor.

            • triazolam

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

            • tucatinib

              tucatinib will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor. Consider reducing the dosage of P-gp substrates, where minimal concentration changes may lead to serious or life-threatening toxicities.

            • ubrogepant

              hydrocortisone will decrease the level or effect of ubrogepant by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Modify Therapy/Monitor Closely. Dose adjustment is recommended with concomitant use of ubrogepant and moderate and weak CYP3A4 inducers. (see Dosage Modifications)

            • vardenafil

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

            • vecuronium

              vecuronium, hydrocortisone. Other (see comment). Use Caution/Monitor. Comment: Coadministration of corticosteroids and neuromuscular blockers may increase risk of developing acute myopathy.

            • verapamil

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

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

              verapamil will increase the level or effect of hydrocortisone by P-glycoprotein (MDR1) efflux transporter. Use Caution/Monitor.

            • voriconazole

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

            • warfarin

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

              hydrocortisone, warfarin. Other (see comment). Use Caution/Monitor. Comment: Corticosteroids may decrease anticoagulant effects by increasing blood coagulability; conversely, they may impair vascular integrity, thus increasing bleeding risk. Monitor INR closely.

            • xipamide

              xipamide, hydrocortisone. pharmacodynamic synergism. Use Caution/Monitor. Risk of hypokalemia.

            • zafirlukast

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

            • zoster vaccine recombinant

              hydrocortisone decreases effects of zoster vaccine recombinant by pharmacodynamic antagonism. Use Caution/Monitor. Immunosuppressive therapies may reduce the effectiveness of zoster vaccine recombinant.

            Minor (117)

            • acarbose

              hydrocortisone decreases effects of acarbose by pharmacodynamic antagonism. Minor/Significance Unknown.

            • alfentanil

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

            • alfuzosin

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

            • alosetron

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

            • amitriptyline

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

            • amphotericin B deoxycholate

              amphotericin B deoxycholate, hydrocortisone. Mechanism: unspecified interaction mechanism. Minor/Significance Unknown. Potential for hypokalemia.

            • armodafinil

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

            • aspirin

              hydrocortisone decreases levels of aspirin by increasing renal clearance. Minor/Significance Unknown.

            • aspirin rectal

              hydrocortisone decreases levels of aspirin rectal by increasing renal clearance. Minor/Significance Unknown.

            • aspirin/citric acid/sodium bicarbonate

              hydrocortisone decreases levels of aspirin/citric acid/sodium bicarbonate by increasing renal clearance. Minor/Significance Unknown.

            • atazanavir

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

            • balsalazide

              hydrocortisone decreases levels of balsalazide by increasing renal clearance. Minor/Significance Unknown.

            • bendroflumethiazide

              hydrocortisone, bendroflumethiazide. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypokalemia, especially with strong glucocorticoid activity.

            • bosentan

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

            • bumetanide

              hydrocortisone, bumetanide. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypokalemia, especially with strong glucocorticoid activity.

            • calcium acetate

              hydrocortisone decreases levels of calcium acetate by increasing elimination. Minor/Significance Unknown.

            • calcium carbonate

              hydrocortisone decreases levels of calcium carbonate by increasing elimination. Minor/Significance Unknown.

            • calcium chloride

              hydrocortisone decreases levels of calcium chloride by increasing elimination. Minor/Significance Unknown.

            • calcium citrate

              hydrocortisone decreases levels of calcium citrate by increasing elimination. Minor/Significance Unknown.

            • calcium gluconate

              hydrocortisone decreases levels of calcium gluconate by increasing elimination. Minor/Significance Unknown.

            • cevimeline

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

            • chlorothiazide

              hydrocortisone, chlorothiazide. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypokalemia, especially with strong glucocorticoid activity.

            • chlorpropamide

              hydrocortisone decreases effects of chlorpropamide by pharmacodynamic antagonism. Minor/Significance Unknown.

            • chlorthalidone

              hydrocortisone, chlorthalidone. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypokalemia, especially with strong glucocorticoid activity.

            • choline magnesium trisalicylate

              hydrocortisone decreases levels of choline magnesium trisalicylate by increasing renal clearance. Minor/Significance Unknown.

            • chromium

              hydrocortisone decreases levels of chromium by increasing renal clearance. Minor/Significance Unknown.

            • clarithromycin

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

            • clomipramine

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

            • colestipol

              colestipol decreases levels of hydrocortisone by inhibition of GI absorption. Applies only to oral form of both agents. Minor/Significance Unknown.

            • cyclopenthiazide

              hydrocortisone, cyclopenthiazide. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypokalemia, especially with strong glucocorticoid activity.

            • cyclosporine

              hydrocortisone, cyclosporine. Either increases levels of the other by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • danazol

              danazol, hydrocortisone. Either increases effects of the other by pharmacodynamic synergism. Minor/Significance Unknown. May enhance edema formation.

            • dapsone

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

            • desipramine

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

            • diflunisal

              hydrocortisone decreases levels of diflunisal by increasing renal clearance. Minor/Significance Unknown.

            • disopyramide

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

            • docetaxel

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

            • donepezil

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

            • dutasteride

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

            • efavirenz

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

            • eplerenone

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

            • eslicarbazepine acetate

              eslicarbazepine acetate will decrease the level or effect of hydrocortisone by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • ethacrynic acid

              hydrocortisone, ethacrynic acid. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypokalemia, especially with strong glucocorticoid activity.

            • eucalyptus

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

            • feverfew

              hydrocortisone decreases effects of feverfew by pharmacodynamic antagonism. Minor/Significance Unknown.

            • finasteride

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

            • fluoxymesterone

              fluoxymesterone, hydrocortisone. Either increases effects of the other by pharmacodynamic synergism. Minor/Significance Unknown. May enhance edema formation.

            • furosemide

              hydrocortisone, furosemide. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypokalemia, especially with strong glucocorticoid activity.

            • galantamine

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

            • glimepiride

              hydrocortisone decreases effects of glimepiride by pharmacodynamic antagonism. Minor/Significance Unknown.

            • glipizide

              hydrocortisone decreases effects of glipizide by pharmacodynamic antagonism. Minor/Significance Unknown.

            • glyburide

              hydrocortisone decreases effects of glyburide by pharmacodynamic antagonism. Minor/Significance Unknown.

            • hydrochlorothiazide

              hydrocortisone, hydrochlorothiazide. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypokalemia, especially with strong glucocorticoid activity.

            • imipramine

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

            • indapamide

              hydrocortisone, indapamide. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypokalemia, especially with strong glucocorticoid activity.

            • insulin aspart

              hydrocortisone decreases effects of insulin aspart by pharmacodynamic antagonism. Minor/Significance Unknown.

            • insulin detemir

              hydrocortisone decreases effects of insulin detemir by pharmacodynamic antagonism. Minor/Significance Unknown.

            • insulin glargine

              hydrocortisone decreases effects of insulin glargine by pharmacodynamic antagonism. Minor/Significance Unknown.

            • insulin glulisine

              hydrocortisone decreases effects of insulin glulisine by pharmacodynamic antagonism. Minor/Significance Unknown.

            • insulin lispro

              hydrocortisone decreases effects of insulin lispro by pharmacodynamic antagonism. Minor/Significance Unknown.

            • insulin NPH

              hydrocortisone decreases effects of insulin NPH by pharmacodynamic antagonism. Minor/Significance Unknown.

            • insulin regular human

              hydrocortisone decreases effects of insulin regular human by pharmacodynamic antagonism. Minor/Significance Unknown.

            • isoniazid

              hydrocortisone decreases effects of isoniazid by unknown mechanism. Minor/Significance Unknown.

            • isradipine

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

            • ketoconazole

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

            • mesalamine

              hydrocortisone decreases levels of mesalamine by increasing renal clearance. Minor/Significance Unknown.

            • mesterolone

              mesterolone, hydrocortisone. Either increases effects of the other by pharmacodynamic synergism. Minor/Significance Unknown. May enhance edema formation.

            • metformin

              hydrocortisone decreases effects of metformin by pharmacodynamic antagonism. Minor/Significance Unknown.

            • methyclothiazide

              hydrocortisone, methyclothiazide. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypokalemia, especially with strong glucocorticoid activity.

            • methyltestosterone

              methyltestosterone, hydrocortisone. Either increases effects of the other by pharmacodynamic synergism. Minor/Significance Unknown. May enhance edema formation.

            • metolazone

              hydrocortisone, metolazone. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypokalemia, especially with strong glucocorticoid activity.

            • metyrapone

              hydrocortisone decreases effects of metyrapone by unspecified interaction mechanism. Minor/Significance Unknown.

            • miglitol

              hydrocortisone decreases effects of miglitol by pharmacodynamic antagonism. Minor/Significance Unknown.

            • montelukast

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

            • nateglinide

              hydrocortisone decreases effects of nateglinide by pharmacodynamic antagonism. Minor/Significance Unknown.

            • nifedipine

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

            • nimodipine

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

            • nitrendipine

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

            • oxandrolone

              oxandrolone, hydrocortisone. Either increases effects of the other by pharmacodynamic synergism. Minor/Significance Unknown. May enhance edema formation.

            • oxybutynin

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

            • oxymetholone

              oxymetholone, hydrocortisone. Either increases effects of the other by pharmacodynamic synergism. Minor/Significance Unknown. May enhance edema formation.

            • paclitaxel

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

            • paclitaxel protein bound

              hydrocortisone will decrease the level or effect of paclitaxel protein bound by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • parecoxib

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

            • pimozide

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

            • pioglitazone

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

              hydrocortisone decreases effects of pioglitazone by pharmacodynamic antagonism. Minor/Significance Unknown.

            • porfimer

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

            • propafenone

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

            • quinine

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

            • ramelteon

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

            • repaglinide

              hydrocortisone decreases effects of repaglinide by pharmacodynamic antagonism. Minor/Significance Unknown.

            • rosiglitazone

              hydrocortisone decreases effects of rosiglitazone by pharmacodynamic antagonism. Minor/Significance Unknown.

            • salicylates (non-asa)

              hydrocortisone decreases levels of salicylates (non-asa) by increasing renal clearance. Minor/Significance Unknown.

            • salsalate

              hydrocortisone decreases levels of salsalate by increasing renal clearance. Minor/Significance Unknown.

            • sargramostim

              hydrocortisone increases effects of sargramostim by pharmacodynamic synergism. Minor/Significance Unknown.

            • saxagliptin

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

              hydrocortisone decreases effects of saxagliptin by pharmacodynamic antagonism. Minor/Significance Unknown.

            • sitagliptin

              hydrocortisone decreases effects of sitagliptin by pharmacodynamic antagonism. Minor/Significance Unknown.

            • somatropin

              hydrocortisone decreases effects of somatropin by pharmacodynamic antagonism. Minor/Significance Unknown.

            • sufentanil

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

            • sulfasalazine

              hydrocortisone decreases levels of sulfasalazine by increasing renal clearance. Minor/Significance Unknown.

            • tacrolimus

              hydrocortisone, tacrolimus. Either increases levels of the other by decreasing metabolism. Minor/Significance Unknown.

            • testosterone

              testosterone, hydrocortisone. Either increases effects of the other by pharmacodynamic synergism. Minor/Significance Unknown. May enhance edema formation.

            • testosterone buccal system

              testosterone buccal system, hydrocortisone. Either increases effects of the other by pharmacodynamic synergism. Minor/Significance Unknown. May enhance edema formation.

            • testosterone topical

              testosterone topical, hydrocortisone. Either increases effects of the other by pharmacodynamic synergism. Minor/Significance Unknown. May enhance edema formation.

            • tolazamide

              hydrocortisone decreases effects of tolazamide by pharmacodynamic antagonism. Minor/Significance Unknown.

            • tolbutamide

              hydrocortisone decreases effects of tolbutamide by pharmacodynamic antagonism. Minor/Significance Unknown.

            • torsemide

              hydrocortisone, torsemide. Mechanism: pharmacodynamic synergism. Minor/Significance Unknown. Risk of hypokalemia, especially with strong glucocorticoid activity.

            • vildagliptin

              hydrocortisone decreases effects of vildagliptin by pharmacodynamic antagonism. Minor/Significance Unknown.

            • vinblastine

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

            • vincristine

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

            • vincristine liposomal

              hydrocortisone will decrease the level or effect of vincristine liposomal by affecting hepatic/intestinal enzyme CYP3A4 metabolism. Minor/Significance Unknown.

            • vinorelbine

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

            • willow bark

              hydrocortisone decreases levels of willow bark by increasing renal clearance. Minor/Significance Unknown.

            • zaleplon

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

            • ziprasidone

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

            • zolpidem

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

            • zonisamide

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

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            Warnings

            Contraindications

            Hypersensitivity to drugs or components of the formulation; herpes simplex, varicella, vaccinia, perforated lymphatic membrane

            Cautions

            Use with extreme caution in patients < 3 years old; safety and efficacy not established

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            Pregnancy & Lactation

            Pregnancy category: C

            Lactation: Low amounts excreted into breast milk; use with caution

            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.

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            Pharmacology

            Mechanism of Action

            Hydrocortisone elicits anti-inflammatory & antipruritic effects

            Acetic acid is used as an antibacterial/antifungal agent

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            Images

            BRAND FORM. UNIT PRICE PILL IMAGE
            hydrocortisone-acetic acid otic (ear)
            -
            1-2 % drops
            hydrocortisone-acetic acid otic (ear)
            -
            1-2 % drops

            Copyright © 2010 First DataBank, Inc.

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            Patient Handout

            A Patient Handout is not currently available for this monograph.
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            Medscape prescription drug monographs are based on FDA-approved labeling information, unless otherwise noted, combined with additional data derived from primary medical literature.