ITRACONAZOLE

Itraconazole Capsule is the generic name for itraconazole, an azole antifungal agent. Itraconazole is a 1:1:1:1 racemic mixture of four diastereomers (two enantiomeric pairs), each possessing three chiral centers. It may be represented by the following structural formula and nomenclature: ±)-1-[( R *)- sec -butyl]-4-[ p -[4-[ p -[[(2 R *,4 S *)-2-(2,4-dichlorophenyl)-2-(1 H -1,2,4-triazol-1-ylmethyl)-1,3-dioxolan-4-yl]methoxy]phenyl]-1-piperazinyl]phenyl]-Δ 2 -1,2,4-triazolin-5-one mixture with (±)-1-[( R *)- sec -butyl]-4-[ p -[4-[ p -[[(2 S *,4 R *)-2-(2,4-dichlorophenyl)-2-(1 H- 1,2,4-triazol-1-ylmethyl)-1,3-dioxolan-4-yl]methoxy]phenyl]-1-piperazinyl]phenyl]-Δ 2 -1,2,4-triazolin-5-one or (±)-1-[( RS )- sec -butyl]-4-[ p -[4-[ p -[[(2 R ,4 S )-2-(2,4-dichlorophenyl)-2-(1 H -1,2,4-triazol-1-ylmethyl)-1,3-dioxolan-4-yl]methoxy]phenyl]-1-piperazinyl]phenyl]-Δ 2 -1,2,4-triazolin-5-one Itraconazole has a molecular formula of C 35 H 38 Cl 2 N 8 O 4 and a molecular weight of 705.64. It is a white or almost white powder. It is freely soluble in methylene chloride, sparingly soluble in tetrahydrofuran, very slightly soluble in alcohol and practically insoluble in water. It has a pKa of 3.7 (based on extrapolation of values obtained from methanolic solutions) and a log (n-octanol/water) partition coefficient of 5.66 at pH 8.1. Itraconazole capsules contain 100 mg of itraconazole coated on sugar spheres (composed of sucrose, starch and purified water). Inactive ingredients are hydroxypropyl methylcellulose, polyethylene glycol, hypromellose, gelatin, titanium dioxide, D&C Red No. 22, FD&C Blue No. 1, and D&C Red No. 28. The imprinting ink contains shellac, propylene glycol, black iron oxide, and potassium hydroxide. Itraconazole Structure

Itraconazole capsules are indicated for the treatment of the following fungal infections in immunocompromised and non-immunocompromised patients: 1. Blastomycosis, pulmonary and extrapulmonary 2. Histoplasmosis, including chronic cavitary pulmonary disease and disseminated, non- meningeal histoplasmosis, and 3. Aspergillosis, pulmonary and extrapulmonary, in patients who are intolerant of or who are refractory to amphotericin B therapy. Specimens for fungal cultures and other relevant laboratory studies (wet mount, histopathology, serology) should be obtained before therapy to isolate and identify causative organisms. Therapy may be instituted before the results of the cultures and other laboratory studies are known; however, once these results become available, antiinfective therapy should be adjusted accordingly. Itraconazole capsules are also indicated for the treatment of the following fungal infections in non-immunocompromised patients: 1. Onychomycosis of the toenail, with or without fingernail involvement, due to dermatophytes (tinea unguium), and 2. Onychomycosis of the fingernail due to dermatophytes (tinea unguium). Prior to initiating treatment, appropriate nail specimens for laboratory testing (KOH preparation, fungal culture, or nail biopsy) should be obtained to confirm the diagnosis of onychomycosis. (See CLINICAL PHARMACOLOGY: Special Populations, CONTRAINDICATIONS, WARNINGS, and ADVERSE REACTIONS: Post-marketing Experience for more information.) Description of Clinical Studies: Blastomycosis: Analyses were conducted on data from two open-label, non-concurrently controlled studies (N=73 combined) in patients with normal or abnormal immune status. The median dose was 200 mg/day. A response for most signs and symptoms was observed within the first 2 weeks, and all signs and symptoms cleared between 3 and 6 months. Results of these two studies demonstrated substantial evidence of the effectiveness of itraconazole for the treatment of blastomycosis compared with the natural history of untreated cases. Histoplasmosis: Analyses were conducted on data from two open-label, non-concurrently controlled studies (N=34 combined) in patients with normal or abnormal immune status (not including HIV-infected patients). The median dose was 200 mg/day. A response for most signs and symptoms was observed within the first 2 weeks, and all signs and symptoms cleared between 3 and 12 months. Results of these two studies demonstrated substantial evidence of the effectiveness of itraconazole for the treatment of histoplasmosis, compared with the natural history of untreated cases. Histoplasmosis in HIV-infected patients: Data from a small number of HIV-infected patients suggested that the response rate of histoplasmosis in HIV-infected patients is similar to that of non-HIV-infected patients. The clinical course of histoplasmosis in HIV-infected patients is more severe and usually requires maintenance therapy to prevent relapse. Aspergillosis: Analyses were conducted on data from an open-label, “single-patient-use” protocol designed to make itraconazole available in the U.S. for patients who either failed or were intolerant of amphotericin B therapy (N=190). The findings were corroborated by two smaller open-label studies (N=31 combined) in the same patient population. Most adult patients were treated with a daily dose of 200 to 400 mg, with a median duration of 3 months. Results of these studies demonstrated substantial evidence of effectiveness of itraconazole as a second-line therapy for the treatment of aspergillosis compared with the natural history of the disease in patients who either failed or were intolerant of amphotericin B therapy. Onychomycosis of the toenail: Analyses were conducted on data from three double-blind, placebo-controlled studies (N=214 total; 110 given itraconazole capsules in which patients with onychomycosis of the toenails received 200 mg of itraconazole capsules once daily for 12 consecutive weeks. Results of these studies demonstrated mycologic cure, defined as simultaneous occurrence of negative KOH plus negative culture, in 54% of patients. Thirty-five percent (35%) of patients were considered an overall success (mycologic cure plus clear or minimal nail involvement with significantly decreased signs) and 14% of patients demonstrated mycologic cure plus clinical cure (clearance of all signs, with or without residual nail deformity). The mean time to overall success was approximately 10 months. Twenty-one percent (21%) of the overall success group had a relapse (worsening of the global score or conversion of KOH or culture from negative to positive). Onychomycosis of the fingernail: Analyses were conducted on data from a double-blind, placebo-controlled study (N=73 total; 37 given itraconazole capsules in which patients with onychomycosis of the fingernails received a 1-week course of 200 mg of itraconazole capsules b.i.d., followed by a 3-week period without itraconazole, which was followed by a second 1-week course of 200 mg of itraconazole capsules b.i.d. Results demonstrated mycologic cure in 61% of patients. Fifty-six percent (56%) of patients were considered an overall success and 47% of patients demonstrated mycologic cure plus clinical cure. The mean time to overall success was approximately 5 months. None of the patients who achieved overall success relapsed.

Itraconazole capsules should be taken with a full meal to ensure maximal absorption. Itraconazole capsules must be swallowed whole. Itraconazole capsule is a different preparation than itraconazole Oral Solution and should not be used interchangeably. Treatment of Blastomycosis and Histoplasmosis: The recommended dose is 200 mg once daily (2 capsules). If there is no obvious improvement, or there is evidence of progressive fungal disease, the dose should be increased in 100-mg increments to a maximum of 400 mg daily. Doses above 200 mg/day should be given in two divided doses. Treatment of Aspergillosis: A daily dose of 200 to 400 mg is recommended. Treatment in Life-Threatening Situations: In life-threatening situations, a loading dose should be used. Although clinical studies did not provide for a loading dose, it is recommended, based on pharmacokinetic data, that a loading dose of 200 mg (2 capsules) three times daily (600 mg/day) be given for the first 3 days of treatment. Treatment should be continued for a minimum of three months and until clinical parameters and laboratory tests indicate that the active fungal infection has subsided. An inadequate period of treatment may lead to recurrence of active infection. Itraconazole capsules and itraconazole Oral Solution should not be used interchangeably. Only the oral solution has been demonstrated effective for oral and/or esophageal candidiasis. Treatment of Onychomycosis: Toenails with or without fingernail involvement: The recommended dose is 200 mg (2 capsules) once daily for 12 consecutive weeks. Treatment of Onychomycosis: Fingernails only: The recommended dosing regimen is two treatment courses, each consisting of 200 mg (2 capsules) b.i.d. (400 mg/day) for 1 week. The courses are separated by a 3-week period without itraconazole. Use in Patients with Renal Impairment: Limited data are available on the use of oral itraconazole in patients with renal impairment. Caution should be exercised when this drug is administered in this patient population. (See CLINICAL PHARMACOLOGY: Special Populations and PRECAUTIONS .) Use in Patients with Hepatic Impairment: Limited data are available on the use of oral itraconazole in patients with hepatic impairment. Caution should be exercised when this drug is administered in this patient population. (See CLINICAL PHARMACOLOGY: Special Populations, WARNINGS, and PRECAUTIONS.)

Congestive Heart Failure: Itraconazole capsules should not be administered for the treatment of onychomycosis in patients with evidence of ventricular dysfunction such as congestive heart failure (CHF) or a history of CHF. (See BOXED WARNINGS, WARNINGS, PRECAUTIONS: Drug Interactions-Calcium Channel Blockers, ADVERSE REACTIONS: Post-marketing Experience, and CLINICAL PHARMACOLOGY: Special Populations.) Drug Interactions: Coadministration of a number of CYP3A4 substrates are contraindicated with itraconazole. Plasma concentrations increase for the following drugs: methadone, disopyramide, dofetilide, dronedarone, quinidine, ergot alkaloids (such as dihydroergotamine, ergometrine (ergonovine), ergotamine, methylergometrine (methylergonovine)), irinotecan, lurasidone, oral midazolam, pimozide, triazolam, felodipine, nisoldipine, ranolazine, eplerenone, cisapride, lovastatin, simvastatin, ticagrelor, and, in subjects with varying degrees of renal or hepatic impairment, colchicine, fesoterodine, telithromycin and solifenacin. (See PRECAUTIONS: Drug Interactions Section for specific examples.) This increase in drug concentrations caused by coadministration with itraconazole may increase or prolong both the pharmacologic effect and/or adverse reactions to these drugs. For example, increased plasma concentrations of some of these drugs can lead to QT prolongation and ventricular tachyarrhythmias including occurrences of torsade de pointes, a potentially fatal arrhythmia. Specific examples are listed in PRECAUTIONS: Drug Interactions. Itraconazole should not be administered for the treatment of onychomycosis to pregnant patients or to women contemplating pregnancy. Itraconazole are contraindicated for patients who have shown hypersensitivity to itraconazole. There is limited information regarding cross-hypersensitivity between itraconazole and other azole antifungal agents. Caution should be used when prescribing itraconazole to patients with hypersensitivity to other azoles.

Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug cannot be directly compared to rates in the clinical trials of another drug and may not reflect the rates observed in clinical practice. Itraconazole has been associated with rare cases of serious hepatotoxicity, including liver failure and death. Some of these cases had neither pre-existing liver disease nor a serious underlying medical condition. If clinical signs or symptoms develop that are consistent with liver disease, treatment should be discontinued and liver function testing performed. The risks and benefits of itraconazole use should be reassessed. (See WARNINGS: Hepatic Effects and PRECAUTIONS: Hepatotoxicity and Information for Patients.) Adverse Events in the Treatment of Systemic Fungal Infections Adverse event data were derived from 602 patients treated for systemic fungal disease in U.S. clinical trials who were immunocompromised or receiving multiple concomitant medications. Treatment was discontinued in 10.5% of patients due to adverse events. The median duration before discontinuation of therapy was 81 days (range: 2 to 776 days). The table lists adverse events reported by at least 1% of patients. Table 2: Clinical Trials of Systemic Fungal Infections: Adverse Events Occurring with an Incidence of Greater than or Equal to 1% Body System/Adverse Event Incidence (%) (N=602) Gastrointestinal Nausea Vomiting Diarrhea Abdominal Pain Anorexia 11 5 3 2 1 Body as a Whole Edema Fatigue Fever Malaise 4 3 3 1 Skin and Appendages Rash* Pruritus 9 3 Central/Peripheral Nervous System Headache Dizziness 4 2 Psychiatric Libido Decreased Somnolence 1 1 Cardiovascular Hypertension 3 Metabolic/Nutritional Hypokalemia 2 Urinary System Albuminuria 1 Liver and Biliary System Hepatic Function Abnormal 3 Reproductive System, Male Impotence 1 * Rash tends to occur more frequently in immunocompromised patients receiving immunosuppressive medications. Adverse events infrequently reported in all studies included constipation, gastritis, depression, insomnia, tinnitus, menstrual disorder, adrenal insufficiency, gynecomastia, and male breast pain. Adverse Events Reported in Toenail Onychomycosis Clinical Trials Patients in these trials were on a continuous dosing regimen of 200 mg once daily for 12 consecutive weeks. The following adverse events led to temporary or permanent discontinuation of therapy. Table 3: Clinical Trials of Onychomycosis of the Toenail: Adverse Events Leading to Temporary or Permanent Discontinuation of Therapy Adverse Event Incidence (%) Itraconazole (N=112) Elevated Liver Enzymes (greater than twice the upper limit of normal) 4 Gastrointestinal Disorders 4 Rash 3 Hypertension 2 Orthostatic Hypotension 1 Headache 1 Malaise 1 Myalgia 1 Vasculitis 1 Vertigo 1 The following adverse events occurred with an incidence of greater than or equal to 1% (N=112): headache: 10%; rhinitis: 9%; upper respiratory tract infection: 8%; sinusitis, injury: 7%; diarrhea, dyspepsia, flatulence, abdominal pain, dizziness, rash: 4%; cystitis, urinary tract infection, liver function abnormality, myalgia, nausea: 3%; appetite increased, constipation, gastritis, gastroenteritis, pharyngitis, asthenia, fever, pain, tremor, herpes zoster, abnormal dreaming: 2%. Adverse Events Reported in Fingernail Onychomycosis Clinical Trials Patients in these trials were on a dosing regimen consisting of two 1-week treatment periods of 200 mg twice daily, separated by a 3-week period without drug. The following adverse events led to temporary or permanent discontinuation of therapy. Table 4: Clinical Trials of Onychomycosis of the Fingernail: Adverse Events Leading to Temporary or Permanent Discontinuation of Therapy Adverse Event Incidence (%) Itraconazole (N=37) Rash/Pruritus 3 Hypertriglyceridemia 3 The following adverse events occurred with an incidence of greater than or equal to 1% (N=37): headache: 8%; pruritus, nausea, rhinitis: 5%; rash, bursitis, anxiety, depression, constipation, abdominal pain, dyspepsia, ulcerative stomatitis, gingivitis, hypertriglyceridemia, sinusitis, fatigue, malaise, pain, injury: 3%. Adverse Events Reported from Other Clinical Trials In addition, the following adverse drug reaction was reported in patients who participated in itraconazole capsules clinical trials: Hepatobiliary Disorders: hyperbilirubinemia. The following is a list of additional adverse drug reactions associated with itraconazole that have been reported in clinical trials of itraconazole Oral Solution and itraconazole IV excluding the adverse reaction term “Injection site inflammation” which is specific to the injection route of administration: Cardiac Disorders: cardiac failure, left ventricular failure, tachycardia; General Disorders and Administration Site Conditions: face edema, chest pain, chills; Hepatobiliary Disorders: hepatic failure, jaundice; Investigations: alanine aminotransferase increased, aspartate aminotransferase increased, blood alkaline phosphatase increased, blood lactate dehydrogenase increased, blood urea increased, gamma-glutamyltransferase increased, urine analysis abnormal; Metabolism and Nutrition Disorders: hyperglycemia, hyperkalemia, hypomagnesemia; Psychiatric Disorders: confusional state; Renal and Urinary Disorders: renal impairment; Respiratory, Thoracic and Mediastinal Disorders: dysphonia, cough; Skin and Subcutaneous Tissue Disorders: rash erythematous, hyperhidrosis; Vascular Disorders: hypotension Post-marketing Experience Adverse drug reactions that have been first identified during post-marketing experience with itraconazole (all formulations) are listed in the table below. Because these reactions are reported voluntarily from a population of uncertain size, reliably estimating their frequency or establishing a causal relationship to drug exposure is not always possible. Table 5: Postmarketing Reports of Adverse Drug Reactions Blood and Lymphatic System Disorders: Leukopenia, neutropenia, thrombocytopenia Immune System Disorders: Anaphylaxis; anaphylactic, anaphylactoid and allergic reactions; serum sickness; angioneurotic edema Nervous System Disorders: Peripheral neuropathy, paresthesia, hypoesthesia, tremor Eye Disorders: Visual disturbances, including vision blurred and diplopia Ear and Labyrinth Disorders: Transient or permanent hearing loss Cardiac Disorders: Congestive heart failure Respiratory, Thoracic and Mediastinal Disorders: Pulmonary edema, dyspnea Gastrointestinal Disorders: Pancreatitis, dysgeusia Hepatobiliary Disorders: Serious hepatotoxicity (including some cases of fatal acute liver failure), hepatitis Skin and Subcutaneous Tissue Disorders: Toxic epidermal necrolysis, Stevens-Johnson syndrome, acute generalized exanthematous pustulosis, erythema multiforme, exfoliative dermatitis, leukocytoclastic vasculitis, alopecia, photosensitivity, urticaria Musculoskeletal and Connective Tissue Disorders: Arthralgia Renal and Urinary Disorders: Urinary incontinence, pollakiuria Reproductive System and Breast Disorders: Erectile dysfunction General Disorders and Administration Site Conditions: Peripheral edema Investigations: Blood creatine phosphokinase increased There is limited information on the use of itraconazole during pregnancy. Cases of congenital abnormalities including skeletal, genitourinary tract, cardiovascular and ophthalmic malformations as well as chromosomal and multiple malformations have been reported during post-marketing experience. A causal relationship with itraconazole has not been established. See CLINICAL PHARMACOLOGY: Special Populations, CONTRAINDICATIONS, WARNINGS, and PRECAUTIONS: Drug Interactions for more information.)

Itraconazole is mainly metabolized through CYP3A4. Other drugs that either share this metabolic pathway or modify CYP3A4 activity may influence the pharmacokinetics of itraconazole. Similarly, itraconazole may modify the pharmacokinetics of other drugs that share this metabolic pathway. Itraconazole is a potent CYP3A4 inhibitor and a P-glycoprotein inhibitor. When using concomitant medication, it is recommended that the corresponding label be consulted for information on the route of metabolism and the possible need to adjust dosages. Drugs that may decrease itraconazole plasma concentrations Drugs that reduce the gastric acidity (e.g. acid neutralizing medicines such as aluminum hydroxide, or acid secretion suppressors such as H 2 -receptor antagonists and proton pump inhibitors) impair the absorption of itraconazole from itraconazole capsules. It is recommended that these drugs be used with caution when coadministered with itraconazole capsules: · It is recommended that itraconazole capsules be administered with an acidic beverage (such as non-diet cola) upon co-treatment with drugs reducing gastric acidity. · It is recommended that acid neutralizing medicines (e.g. aluminum hydroxide) be administered at least 1 hour before or 2 hours after the intake of itraconazole capsules. · Upon coadministration, it is recommended that the antifungal activity be monitored and the itraconazole dose increased as deemed necessary. Coadministration of itraconazole with potent enzyme inducers of CYP3A4 may decrease the bioavailability of itraconazole and hydroxy-itraconazole to such an extent that efficacy may be reduced. Examples include: · Antibacterials: isoniazid, rifabutin (see also under ‘Drugs that may have their plasma concentrations increased by itraconazole’), rifampicin · Anticonvulsants: carbamazepine, (see also under ‘Drugs that may have their plasma concentrations increased by itraconazole’), phenobarbital, phenytoin · Antivirals: efavirenz, nevirapine Therefore, administration of potent enzyme inducers of CYP3A4 with itraconazole is not recommended. It is recommended that the use of these drugs be avoided from 2 weeks before and during treatment with itraconazole, unless the benefits outweigh the risk of potentially reduced itraconazole efficacy. Upon coadministration, it is recommended that the antifungal activity be monitored and the itraconazole dose increased as deemed necessary. Drugs that may increase itraconazole plasma concentrations Potent inhibitors of CYP3A4 may increase the bioavailability of itraconazole. Examples include: · Antibacterials: ciprofloxacin, clarithromycin, erythromycin · Antivirals: ritonavir-boosted darunavir, ritonavir-boosted fosamprenavir, indinavir (see also under ‘Drugs that may have their plasma concentrations increased by itraconazole’), ritonavir (see also under ‘Drugs that may have their plasma concentrations increased by itraconazole’) and telaprevir. It is recommended that these drugs be used with caution when coadministered with itraconazole capsules. It is recommended that patients who must take itraconazole concomitantly with potent inhibitors of CYP3A4 be monitored closely for signs or symptoms of increased or prolonged pharmacologic effects of itraconazole, and the itraconazole dose be decreased as deemed necessary. Drugs that may have their plasma concentrations increased by itraconazole Itraconazole and its major metabolite, hydroxy-itraconazole, can inhibit the metabolism of drugs metabolized by CYP3A4 and can inhibit the drug transport by P-glycoprotein, which may result in increased plasma concentrations of these drugs and/or their active metabolite(s) when they are administered with itraconazole. These elevated plasma concentrations may increase or prolong both therapeutic and adverse effects of these drugs. CYP3A4-metabolized drugs known to prolong the QT interval may be contraindicated with itraconazole, since the combination may lead to ventricular tachyarrhythmias including occurrences of torsade de pointes, a potentially fatal arrhythmia. Once treatment is stopped, itraconazole plasma concentrations decrease to an almost undetectable concentration within 7 to 14 days, depending on the dose and duration of treatment. In patients with hepatic cirrhosis or in subjects receiving CYP3A4 inhibitors, the decline in plasma concentrations may be even more gradual. This is particularly important when initiating therapy with drugs whose metabolism is affected by itraconazole. Examples of drugs that may have their plasma concentrations increased by itraconazole presented by drug class with advice regarding coadministration with itraconazole: Table 1: Drugs that may have their plasma concentrations increased by itraconazole Drug Class Contraindicated Not Recommended Use with Caution Comments Under no circumstances is the drug to be coadministered with itraconazole, and up to two weeks after discontinuation of treatment with itraconazole. It is recommended that the use of the drug be avoided during and up to two weeks after discontinuation of treatment with itraconazole, unless the benefits outweigh the potentially increased risks of side effects. If coadministration cannot be avoided, clinical monitoring for signs or symptoms of increased or prolonged effects or side effects of the interacting drug is recommended, and its dosage be reduced or interrupted as deemed necessary. When appropriate, it is recommended that plasma concentrations be measured. The label of the coadministered drug should be consulted for information on dose adjustment and adverse effects. Careful monitoring is recommended when the drug is coadministered with itraconazole. Upon coadministration, it is recommended that patients be monitored closely for signs or symptoms of increased or prolonged effects or side effects of the interacting drug, and its dosage be reduced as deemed necessary. When appropriate, it is recommended that plasma concentrations be measured. The label of the coadministered drug should be consulted for information on dose adjustment and adverse effects. Alpha Blockers tamsulosin Analgesics methadone alfentanil, buprenorphine IV and sublingual, fentanyl, oxycodone, sufentanil Methadone: The potential increase in plasma concentrations of methadone when coadministered with itraconazole may increase the risk of serious cardiovascular events including QTc prolongation and torsade de pointes . Fentanyl: The potential increase in plasma concentrations of fentanyl when coadministered with itraconazole may increase the risk of potentially fatal respiratory depression. Sufentanil: No human pharmacokinetic data of an interaction with itraconazole are available. In vitro data suggest that sufentanil is metabolized by CYP3A4 and so potentially increased sufentanil plasma concentrations would be expected when coadministered with itraconazole. Antiarrhythmics disopyramide, dofetilide, dronedarone, quinidine digoxin Disopyramide, dofetilide, dronedarone, quinidine: The potential increase in plasma concentrations of these drugs when coadministered with itraconazole may increase the risk of serious cardiovascular events including QTc prolongation. Antibacterials telithromycin, in subjects with severe renal impairment or severe hepatic impairment rifabutin telithromycin Telithromycin: The potential increase in plasma concentrations of telithromycin in subjects with severe renal impairment or severe hepatic impairment, when coadministered with itraconazole may increase the risk of serious cardiovascular events including QT prolongation and torsade de pointes. Rifabutin: See also under ‘Drugs that may decrease itraconazole plasma concentrations’. Anticoagulants and Antiplatelet Drugs ticagrelor apixaban, rivaroxaban coumarins, cilostazol, dabigatran Ticagrelor: The potential increase in plasma concentrations of ticagrelor may increase the risk of bleeding. Coumarins: Itraconazole may enhance the anticoagulant effect of coumarin-like drugs, such as warfarin. Anticonvulsants carbamazepine Carbamazepine: In vivo studies have demonstrated an increase in plasma carbamazepine concentrations in subjects concomitantly receiving ketoconazole. Although there are no data regarding the effect of itraconazole on carbamazepine metabolism, because of the similarities between ketoconazole and itraconazole, concomitant administration of itraconazole and carbamazepine may inhibit the metabolism of carbamazepine. See also under ‘Drugs that may decrease itraconazole plasma concentrations’. Antidiabetics repaglinide, saxagliptin Antihelmintics and Antiprotozoals praziquantel Antimigraine Drugs ergot alkaloids, such as dihydroergotamine, ergometrine (ergonovine), ergotamine, methylergometrine (methylergonovine) eletriptan Ergot Alkaloids: The potential increase in plasma concentrations of ergot alkaloids when coadministered with itraconazole may increase the risk of ergotism, i.e., a risk for vasospasm potentially leading to cerebral ischemia and/or ischemia of the extremities. Antineoplastics irinotecan axitinib, dabrafenib, dasatinib, ibrutinib, nilotinib, sunitinib bortezomib, busulphan, docetaxel, erlotinib, imatinib, ixabepilone, lapatinib, ponatinib, trimetrexate, vinca alkaloids Irinotecan: The potential increase in plasma concentrations of irinotecan when coadministered with itraconazole may increase the risk of potentially fatal adverse events. Antipsychotics, Anxiolytics and Hypnotics lurasidone, oral midazolam, pimozide, triazolam alprazolam, aripiprazole, buspirone, diazepam, haloperidol, midazolam IV, perospirone, quetiapine, ramelteon, risperidone Midazolam, triazolam: Coadministration of itraconazole and oral midazolam, or triazolam may cause several-fold increases in plasma concentrations of these drugs. This may potentiate and prolong hypnotic and sedative effects, especially with repeated dosing or chronic administration of these agents. Pimozide: The potential increase in plasma concentrations of pimozide when coadministered with itraconazole may increase the risk of serious cardiovascular events including QTc prolongation and torsade de pointes . Antivirals simeprevir maraviroc, indinavir, ritonavir, saquinavir Indinavir, ritonavir: See also under ‘Drugs that may increase itraconazole plasma concentrations’. Beta Blockers nadolol Calcium Channel Blockers felodipine, nisoldipine other dihydropyridines, verapamil Calcium channel blockers can have a negative inotropic effect which may be additive to those of itraconazole. The potential increase in plasma concentrations of calcium channel blockers when co-administered with itraconazole may increase the risk of congestive heart failure. Dihydropyridines: Concomitant administration of itraconazole may cause several-fold increases in plasma concentrations of dihydropyridines. Edema has been reported in patients concomitantly receiving itraconazole and dihydropyridine calcium channel blockers. Cardiovascular Drugs, Miscellaneous ranolazine aliskiren, sildenafil, for the treatment of pulmonary hypertension bosentan, riociguat Ranolazine: The potential increase in plasma concentrations of ranolazine when coadministered with itraconazole may increase the risk of serious cardiovascular events including QTc prolongation. Diuretics eplerenone Eplerenone: The potential increase in plasma concentrations of eplerenone when coadministered with itraconazole may increase the risk of hyperkalemia and hypotension. Gastrointestinal Drugs cisapride aprepitant Cisapride: The potential increase in plasma concentrations of cisapride when coadministered with itraconazole may increase the risk of serious cardiovascular events including QTc prolongation. Immunosuppres sants everolimus, temsirolimus budesonide, ciclesonide, cyclosporine, dexamethasone, fluticasone, methylprednisolone, rapamycin (also known as sirolimus), tacrolimus Lipid Regulating Drugs lovastatin, simvastatin atorvastatin The potential increase in plasma concentrations of atorvastatin, lovastatin, and simvastatin when coadministered with itraconazole may increase the risk of skeletal muscle toxicity, including rhabdomyolysis. Respiratory Drugs salmeterol Urological Drugs fesoterodine, in subjects with moderate to severe renal impairment, or moderate to severe hepatic impairment, solifenacin, in subjects with severe renal impairment or moderate to severe hepatic impairment darifenacin, vardenafil fesoterodine. oxybutynin, sildenafil, for the treatment of erectile dysfunction, solifenacin, tadalafil, tolterodine Fesoterodine: The potential increase in plasma concentrations of the fesoterodine active metabolite may be greater in subjects with moderate to severe renal impairment, or moderate to severe hepatic impairment, which may lead to an increased risk of adverse reactions. Solifenacin: The potential increase in plasma concentrations of solifenacin in subjects with severe renal impairment or moderate to severe hepatic impairment, when coadministered with itraconazole may increase the risk of serious cardiovascular events including QT prolongation. Other colchicine, in subjects with renal or hepatic impairment colchicine, conivaptan, tolvaptan cinacalcet Colchicine: The potential increase in plasma concentrations of colchicine when coadministered with itraconazole may increase the risk of potentially fatal adverse events. Conivaptan and Tolvaptan: A safe and effective dose of either conivaptan or tolvaptan has not been established when coadministered with itraconazole. Drugs that may have their plasma concentrations decreased by itraconazole Coadministration of itraconazole with the NSAID meloxicam may decrease the plasma concentration of meloxicam. It is recommended that meloxicam be used with caution when coadministered with itraconazole, and its effects or side effects be monitored. It is recommended that the dosage of meloxicam, if coadministered with itraconazole, be adjusted if necessary. Pediatric Population Interaction studies have only been performed in adults.