Miscellaneous antifungal medications
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Miscellaneous antifungal medications
Infectious diseases
Infectious diseases
Infective endocarditis: Clinical (To be retired)
Pneumonia: Clinical (To be retired)
Tuberculosis: Pathology review
Diarrhea: Clinical (To be retired)
Viral hepatitis: Clinical (To be retired)
Urinary tract infections: Clinical (To be retired)
Meningitis, encephalitis and brain abscesses: Clinical (To be retired)
Bites and stings: Clinical (To be retired)
Skin and soft tissue infections: Clinical (To be retired)
HIV and AIDS: Pathology review
Pharmacology
Protein synthesis inhibitors: Aminoglycosides
Antimetabolites: Sulfonamides and trimethoprim
Antituberculosis medications
Miscellaneous cell wall synthesis inhibitors
Protein synthesis inhibitors: Tetracyclines
Cell wall synthesis inhibitors: Penicillins
Miscellaneous protein synthesis inhibitors
Cell wall synthesis inhibitors: Cephalosporins
DNA synthesis inhibitors: Metronidazole
DNA synthesis inhibitors: Fluoroquinolones
Integrase and entry inhibitors
Nucleoside reverse transcriptase inhibitors (NRTIs)
Protease inhibitors
Hepatitis medications
Non-nucleoside reverse transcriptase inhibitors (NNRTIs)
Neuraminidase inhibitors
Herpesvirus medications
Azoles
Echinocandins
Miscellaneous antifungal medications
Anthelmintic medications
Antimalarials
Anti-mite and louse medications
Assessments
Miscellaneous antifungal medications
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Flashcards
Miscellaneous antifungal medications
of complete
Memory Anchors and Partner Content
External References
First Aid
2022
2021
2020
2019
2018
2017
2016
Amphotericin B p. 195
Candida albicans p. , 150, 723
clinical use p. 196
Naegleria fowleri p. , 153
opportunistic fungal infections p. 150
systemic mycoses p. 149
Anemia
amphotericin B p. 196
Arrhythmias
amphotericin B p. 196
Blastomyces spp.
amphotericin B p. 196
Candida spp.
amphotericin B p. 196
Fever
amphotericin B p. 196
Hypotension
amphotericin B p. 196
Mucor spp.
amphotericin B for p. 196
Nephrotoxicity
amphotericin B p. 196
Phlebitis
IV amphotericin B p. 196
Potassium
amphotericin B p. 196
External Links
Transcript
Content Reviewers
Yifan Xiao, MDContributors
Ursula Florjanczyk, MScBMC
Maria Emfietzoglou, MD
Evan Debevec-McKenney
Tanner Marshall, MS
Antifungal agents are a class of medications used to treat mycoses, or fungal infections.
Mycoses can be superficial, meaning they are localized on the skin, or develop into systemic infections in immunodeficient patients.
Antifungals work either through fungistatic action, meaning that they inhibit fungal growth, or through fungicidal action, meaning they kill the fungi.
Now, antifungals include the azole family and a novel class of medications, echinocandins; but there are also many other antifungals with similar or different mechanisms that we’ll talk about in this video.
Okay, most fungal cells have a tough outer cell wall and an inner cell membrane.
The cell membrane is mostly made of phospholipids with some sterol or modified steroid molecules mixed in.
Humans have cholesterol, while fungi have ergosterol. Both sterol molecules help keep the cell membrane stable at a wide range of temperatures.
Now, the precursor to both molecules is lanosterol.
The precursor of lanosterol is squalene.
The conversion of squalene to lanosterol is catalyzed by an enzyme called squalene epoxidase.
Fungi have a cytochrome p450 enzyme called fourteen-alpha-demethylase in their mitochondria and endoplasmic reticulums, which converts lanosterol to ergosterol.
Without ergosterol, the structure of the cell membrane will be disrupted.
This will cause membrane-bound proteins, like ion channels, to stop working properly.
The membrane also becomes fragile, which eventually leads to inhibition of fungal growth.
Okay, let’s start with polyenes, which are naturally-derived antifungal antibiotics that alter cell membrane permeability.
They include amphotericin, also called amphotericin B, and nystatin.
Polyenes have both hydrophilic, meaning they love water, and lipophilic, meaning they love fats, characteristics.
They bind to ergosterol, and the hydrophilic core causes the formation of artificial pores in the cell membrane, thereby creating a leaky membrane.
Summary
There are a few different types of antifungal medications, but they all work in similar ways. Most of them work by disrupting the formation of the fungal cell wall, which eventually kills the fungus. Some common antifungal medications include azoles (such as fluconazole and itraconazole), polyenes (such as amphotericin B and nystatin), and echinocandins (such as caspofungin and anidulafungin).
Sources
- "Katzung & Trevor's Pharmacology Examination and Board Review,12th Edition" McGraw-Hill Education / Medical (2018)
- "Rang and Dale's Pharmacology" Elsevier (2019)
- "Goodman and Gilman's The Pharmacological Basis of Therapeutics, 13th Edition" McGraw-Hill Education / Medical (2017)
- "The antifungal pipeline: a reality check" Nature Reviews Drug Discovery (2017)
- "Onychomycosis" Journal of the American Academy of Dermatology (2019)
- "New Antifungal Agents and New Formulations Against Dermatophytes" Mycopathologia (2016)
Copyright © 2023 Elsevier, except certain content provided by third parties
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