Journal ArticleDOI
Pharmacokinetic profile of orally administered itraconazole in human skin.
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TLDR
The results indicate that oral intake of itraconazole will result in therapeutic levels in the skin and these levels vary, depending on the region of skin tested.Abstract:
Itraconazole is an orally effective antifungal agent with a high affinity for tissues. The skin kinetics in human volunteers have been studied after administration of 100 and 200 mg of itraconazole daily. From day 7 onward, tissue levels in the beard region and on the back were consistently higher than the corresponding plasma levels. The levels in the palmar stratum corneum were lower than the corresponding plasma levels but persisted for 3 weeks after discontinuation of therapy. Stratum corneum levels in the beard area were still measurable 4 weeks after the end of therapy. With the 200-mg dose, sweat levels became detectable 24 hours after the first drug intake. The sweat levels were usually lower than the corresponding plasma levels and followed the same curve as the plasma levels. Sebum levels of itraconazole were 10 times as high as the corresponding peak plasma levels. Sebum levels were undetectable 14 days after discontinuation of therapy. The results indicate that oral intake of itraconazole will result in therapeutic levels in the skin and these levels vary, depending on the region of skin tested. There are at least three routes of delivery of itraconazole to the skin: (1) passive uptake by keratinocytes in the basal layer (as shown by the continued presence of the drug in the palmar stratum corneum at a moment when plasma, sebum, and sweat levels are again undetectable); (2) a less significant excretion through the sweat glands (as shown by the lower drug levels compared with the plasma levels); and (3) a massive excretion through the sebaceous glands (as shown by the sebum levels compared with the plasma levels).read more
Citations
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Journal ArticleDOI
Development of Interpretive Breakpoints for Antifungal Susceptibility Testing: Conceptual Framework and Analysis of In Vitro-In Vivo Correlation Data for Fluconazole, Itraconazole, and Candida Infections
John H. Rex,Michael A. Pfaller,John N. Galgiani,Marilyn S. Bartlett,Ana Espinel-Ingroff,Mahmoud A. Ghannoum,M Lancaster,Frank C. Odds,Michael G. Rinaldi,Thomas J. Walsh,A L Barry +10 more
TL;DR: The conceptual framework underlying interpretation of antimicrobial susceptibility testing results is examined and these ideas are used to drive analysis of data packages developed by the respective manufacturers that correlate fluconazole and itraconazole MICs with outcome of candidal infections.
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Fluconazole. A review of its pharmacodynamic and pharmacokinetic properties, and therapeutic potential in superficial and systemic mycoses.
TL;DR: The promising clinical response of patients with various forms of candidiasis or cryptococcosis--together with convenient administration regimens--recommends fluconazole as a useful addition to currently available systemic antifungal therapies, in particular for the treatment of mycoses in patients with AIDS.
Journal ArticleDOI
Oral Azole Drugs as Systemic Antifungal Therapy
TL;DR: Ketoconazole, the first oral azole to be introduced, is less well tolerated than either fluconazole or itraconazole and is associated with more clinically important toxic effects, including hepatitis and inhibition of steroid hormone synthesis.
Journal ArticleDOI
Superficial fungal infections.
TL;DR: This Seminar covers three types of infection: tinea versicolor, piedra, and tinea nigra, which are common worldwide and are caused by Malassezia spp.
Journal ArticleDOI
The clinical pharmacokinetics of itraconazole: an overview.
J. Heykants,A. Van Peer,V. Van de Velde,P. Van Rooy,Willem Meuldermans,K. Lavrijsen,Robert Woestenborghs,J. Van Cutsem,Geert Cauwenbergh +8 more
TL;DR: Itraconazole (R 51211) is the prototype of a class of triazole antifungals characterized by a high lipophilicity, which determines to a large extent the pharmacokinetics of itraconAZole and differentiates it from the hydrophilic triazoles antIFungal fluconazole.
References
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Journal ArticleDOI
Activity of Orally, Topically, and Parenterally Administered Itraconazole in the Treatment of Superficial and Deep Mycoses: Animal Models
TL;DR: Itraconazole used topically was more active than reference compounds against microsporosis, trichophytosis, and superficial candidosis and given orally, itraconAZole was effective therapy for aspergillosis and meningo-cerebral cryptococcosis in mice and for generalized cryptococcoticosis, histoplasmosis and sporotrichosis in guinea pigs.
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Itraconazole Therapy in Lymphangitic and Cutaneous Sporotrichosis
TL;DR: Objective evaluation of the treatment by means of a scoring system indicated complete resolution of the pretherapy abnormalities at varying periods, and therapy with itraconazole is an adequate alternative to iodide treatment in sporotrichosis.
Journal ArticleDOI
A Clinical Trial of Itraconazole in the Treatment of Deep Mycoses and Leishmaniasis
TL;DR: Itraconazole was administered orally to two patients with sporotrichosis, 10 patients with paracoccidioidomycosis, three with mycetomas, nine with chromomycotes due to Cladosporium carrionii, five with chromothycosis due to Fonsecaea pedrosoi and five with leishmaniasis (including one with the nodular disseminated form).
Journal ArticleDOI
Itraconazole: Pharmacologic Studies in Animals and Humans
TL;DR: Several pharmacologic studies of itraconazole, an orally active antifungal triazole were conducted in humans and animals as discussed by the authors, and the results indicated that it has a high tissue affinity and a longer half-life than ketoconazole.