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Antifungal agents

This document provides an overview of antifungal agents including their classification, mechanisms of action, indications, and adverse effects. It discusses several classes of antifungals such as azoles, polyenes, and echinocandins. Azoles like ketoconazole and fluconazole inhibit ergosterol synthesis, while polyenes like amphotericin B bind to ergosterol in the fungal cell membrane. Echinocandins target glucan synthesis. The document reviews specific drugs, their dosages, mechanisms, and side effects in treating superficial and systemic fungal infections. Future antifungal agents that may be effective for resistant fungal strains are also mentioned.

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Introduction to antifungal agents, covering classification, mechanisms of action, indications, and adverse effects.

Fungi are eukaryotic and complex organisms with unique cell wall and membrane structures, emphasizing the differences from bacteria.

Classification of fungal infections into superficial (dermatomycoses) and systemic types (candidiasis, cryptococosis, etc.).

Drugs disrupting fungal cell membranes: Polyenes (Amphotericin, Nystatin), Azoles, and other classes like Allylamines and Echinocandins.

Mechanism of polyene antibiotics emphasizing ergosterol binding, leading to cell death, with specifics on Amphotericin B, its uses, and side effects.

Serious adverse effects associated with antifungal treatments, particularly renal toxicity from Amphotericin B and strategies to mitigate these effects.

Nystatin's use in treating superficial candidiasis, its mechanism, formulation, and administration.

Broad overview of Azole antifungals focusing on their mechanisms (inhibiting ergosterol synthesis) and detailing Imidazoles and Triazoles.Fluconazole's pharmacological profile, bioavailability, specific dosages, and its role in treating cryptococcal meningitis.

Flucytosine's mechanism as an antimetabolite, its applications in combination therapy, typical dosing, and potential side effects.

Overview of Caspofungin, its mechanism, uses, and notable side effects.

Griseofulvin's mechanism of action targeting microtubules, its uses in dermatological diseases, and associated side effects.

Comparison of various antifungal agents including topical preparations and their applications.

Detailed dosing guidelines for Amphotericin, Itraconazole, and Fluconazole for different fungal infections.Emerging antifungal agents and therapeutic strategies including newer compounds and boosting immunity in immunocompromised patients.

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ANTIFUNGAL AGENTS -classification -MOA -indications -Adverse effects Susritha.k Pg dpt of ent ASRAMS eluru
 Fungi are eukaryotic, heterotrophic (not self sustaining) organisms that live as saprobes or parasites.  They are complex organisms in comparison to bacteria.  Fungal infections are also called as mycoses.
 They have nucleus and well defined nuclear membrane, and chromosomes.  they have rigid cell wall composed of chitin ( N – acetylglucosamine )  where as bacterial cell wall is composed of peptidoglycan .  fungal cell membrane contains ergosterol.
Fungal infection SUPERFICIAL Dermatomycoses affecting skin, hair or nails. SYSTEMIC Candidiasis cryptococosis, Aspergillosis, Candidiasis Blastomycosis, Histoplasmosis, Coccidioidomycosi s, Paracoccidioidomy cosis
Drug Classification A) Drugs that disrupt fungal cell membrane i) Polyenes Amphotericin Nystatin Natamycin ii) Azoles A) Imidazole Ketoconazole Butaxonazole Clotrimazole Econazole Miconazole Oxiconazole Sulconazole B) Triazole Fluconazole Itraconazole Tioconazole
iii) Allylamines Terbinafine Naftifine Butenafine vi) Echinocandins caspofungin
B)Drugs that inhibits mitosis Griseofulvin C)Drugs that inhibits DNA synthesis flucytosine Miscellaneous Haloprogi Tolnaftate Whitefield's ointment Ciclopirox olamine
Diagram showing mechanism of action of different anti fungal durgs
POLYENE ANTIBIOTICS  They act by: Binding to sterol in cell membrane. Deformity in plasma membrane occurs Interferes with permeability and with transport functions This allows leakage of intracellular ions and enzymes especially loss of intracellular k+ cell death.  They bind selectively to ergosterol in fungus but not in mammalian cell wall.
AMPHOTERICIN B  It is macrolide antibiotic large lactone ring.  Poorly absorbed orally, useful for fungal infection of gastrointestinal tract.  Locally used in corneal ulcers, arthritis and candidial bladder irrigation  For systemic infections given as slow I/V infusion.  Highly protein bound.  Penetration through BBB is poor but increases in inflamed meninges.  Excreted slowly via kidneys, traces found in urine for months after cessation of drugs.  Half life 15 days
 Drug of choice for most systemic infections.  Course of treatment lasts 6-12 weeks.  Dose 0.5-1 mgkgday.
ADVERSE EFFECTS:  Most serious is renal toxicity, which occurs in 80% of patients.  Hypokalaemia in 25% of patients, requiring potassium supplementation.  Hypomagnesaemia Anemia Impaired hepatic function Thrombocytopenia   
Liposomal preparations of amphotericin B(newer preparations)    To reduce the toxicity of amphotericin B ,several new formulations have been developed in which amphotericin B is packaged in a lipid-associated delivery system, to assume that they will less bind to mammalian cell. Lipid vehicle act as a reservoir, reducing binding to human cell. In this way it permits a larger doses, even five times more than colloidal preparation, they have better clearance .  Clinically they have more efficacy , less nephrotoxicity.  But these are very expensive.
Nystatin  It is polyene macrolide,similar in structure to amphotericin and with same mechanism of action.  Too  Not toxic for systemic use absorbed from GIT /skin therefore administered orally.
 Prevent or treat superficial candidiasis of mouth, esophagus or intestinal tract, oral suspension of 100,000 U/ml 4 times a day and tablets 500,000 U are used to decrease GIT colonization with Candida.  Can be used in combination with antibacterial agents and corticosteroids.
AZOLES:  a bivalent chemical group composed of two nitrogen atoms.  They are antibacterial, antiprotozoal, anthelminthic and antifungal.  These are group of synthetic fungistatic agents.  They have broad spectrum of activity.  Inhibit the fungal cytochrome P450 3A enzyme , (lanosine 14-desmethylase ),which is responsible for converting lanosterol to ergosterol, the main sterol in the fungal cell membrane, this alters fluidity of the membrane, thus inhibiting the growth of fungi.
IMIDAZOLES  Ketoconazole,  miconazole,  clotrimazole,  isoconazole ,  Tioconazole  They interfere with fungal oxidative enzymes to cause lethal accumulation of hydrogen peroxide.  they reduce the formation of ergosterol by inhibition of fungal cytochrome P450 enzyme, which become permeable to cellular constituent
TRIAZOLES:    Fluconazole, itraconazole, voriconazole  They damage the fungal cell membrane by inhibiting enzyme desmethylase .  They are selective  Penetrate to CNS  Resistant to degradation  Cause less endocrine disturbance.
KETACONAZOLE:  First azole that could be given orally to treat systemic fungal infections.  Well absorbed orally as acidic environment favours its dissolution.  Only administered orally.  After oral administration of 200,400 and 800 mg, plasma conc. reaches to 4.8 and 20 ug/ml.  Half mg life increases with dose and it is 7-8 hrs with 800
 Decrease in the ergosterol in the fungal membrane by ketoconazle reduces the fungicidal action of amphotericin.  Oral dose 400 mg daily.
 As it inhibits steroid biosynthesis, several endocrinological abnormalities may be evident as menstrual abnormalities, gynecomastia, decreased libido and impotency.  Contraindicated in pregnancy.
ITRACONAZOLE     It is a synthetic triazole it is new drug It lacks endocrine side effects of ketoconazole. It has broad spectrum activirty  Administered orally as well as I/V.  Do not penetrate CSF adequately. Dose 100 mg twice daily with food, initially 300 mg thrice daily as a loading dose hypertriglyceridemia, Hypokalaemia, hepatotoxicty   FLUCONAZOLE  It is fluorinated bistriazole.  Completely absorbed from GIT  Excellent bioavailability by oral route.  Concentration in plasma is same by oral or I/v route Drug interactions are less common. It easily penetrate CSF and is a drug of choice in cryptococcal meningitis and coccido mycosis Candidiasis: 200 mg on 1st day then 100 mg daily for 2 weeks.     Cryptococcosis: 400 mg daily for 8 weeks in meningitis.  Hepatic failure may lead to death  It is highly teratogenic.
Voriconazole  A new drug available in i.v and oral fromulations.  recommended dosage is 400 mg/ day  high biological availability when given orally  hepatic metabolism predominant.  it is similar to itraconazole but more potent.
FLUCYTOSINE  Has useful activity against Candida and Cryptococcus.  it is synthetic pyrimidine antimetabolite that is often used in combination with amphotericin B.  Mechanism of action   It is converted to antimetabolite 5-florouracil in a fungal cell. This 5-FU inhibits thymidylate synthetase enzyme and thus DNA synthesis.
 dose 100-150 mg /kg per day divided into 4 doses.  Generally use in combination with amphotericin  For cryptococcal meningitis in AIDS patients Side effects:   reversible neutropenia, thrombocytopenia and occasional bone marrow depression.
Caspofungin  It is echinocandin class of antifungal drugs  it interferes with the synthesis of fungal cell wall by inhibiting synthesis of D-glucan.  especially useful for aspergillus and candida.  not active orally.  Has half life of 9-11 hours  Adverse  effects include nausea ,vomiting, flushing very expensive
GRISEOFULVIN  Isolated from Pencillium griseofulvum  It interacts with microtubules and interferes with mitosis.
 Uses   Mycotic diseases of skin, hair (particularly for scalp) , nail. It is also highly effective in athlete's foot Peripheral neuritis  Lethargy  mental confusion  impairment in performance of routine task  fatigue, vertigo ,syncope, blurred vision. 
Comparison of Azoles fungistatic drugs
Topical anti fungal preparations  Topical       azole derivatives Ciclopirox olamine Naftifine Terbinafine Butenafine tolnaftate Nystatin and Amphotericin
 Amphotericin    B Candida oesphogitis0.15-0.2mg/kg daily. Invasive aspergillosis1-1.2mg/kg until progression is arrested. Candida cystitisbladder irrigation with 50ug/ml.
 Itraconazoledeep   mycosis Divided dosage1st 3 days 200mg three times(loading dose) Maitainence dose200mg once daily for 12wks.  Flucanozole  Oesophageal candidiasis     200mg 1st day. 100mg daily for 2 wks. Coccidioial meningitis Cryptococcal meningitis400mg daily 8wks later 200mg for life
Future prospects  Posaconazole azoles. & rabuconazole newer Very effective in treatment of zygomycosis in immunocompromised  Nikkomycins newer antifungals act by inhibiting chitin synthesis.
 Sordarinsupcoming  Inhibits fungal growth by blocking elongation factor2.  Two   class of antifungals new echinocandins Micafungin Anidulafungin Effective in immunocomprimised pts against aspergillus & candida infections.
 Recombinant form of human granulocyte colony stimulating factors like  Lenogastrin increase neutrophil count in neutropenia pts with fungal infections.  These are used along with antifungal agents to enhance their efficacy in immunocompromised pts.
Bibliography  Goodmans gillmans-the pharmacological basis of therepeutics 10th edition pg:1295.  Principles of pharmacology –sharma h.s pg:789-90.  Tripati

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Antifungal agents

  • 1.
  • 2.
     Fungi are eukaryotic,heterotrophic (not self sustaining) organisms that live as saprobes or parasites.  They are complex organisms in comparison to bacteria.  Fungal infections are also called as mycoses.
  • 3.
     They have nucleusand well defined nuclear membrane, and chromosomes.  they have rigid cell wall composed of chitin ( N – acetylglucosamine )  where as bacterial cell wall is composed of peptidoglycan .  fungal cell membrane contains ergosterol.
  • 4.
    Fungal infection SUPERFICIAL Dermatomycoses affecting skin,hair or nails. SYSTEMIC Candidiasis cryptococosis, Aspergillosis, Candidiasis Blastomycosis, Histoplasmosis, Coccidioidomycosi s, Paracoccidioidomy cosis
  • 5.
    Drug Classification A) Drugsthat disrupt fungal cell membrane i) Polyenes Amphotericin Nystatin Natamycin ii) Azoles A) Imidazole Ketoconazole Butaxonazole Clotrimazole Econazole Miconazole Oxiconazole Sulconazole B) Triazole Fluconazole Itraconazole Tioconazole
  • 6.
  • 7.
    B)Drugs that inhibitsmitosis Griseofulvin C)Drugs that inhibits DNA synthesis flucytosine Miscellaneous Haloprogi Tolnaftate Whitefield's ointment Ciclopirox olamine
  • 8.
    Diagram showing mechanismof action of different anti fungal durgs
  • 9.
    POLYENE ANTIBIOTICS  They actby: Binding to sterol in cell membrane. Deformity in plasma membrane occurs Interferes with permeability and with transport functions This allows leakage of intracellular ions and enzymes especially loss of intracellular k+ cell death.  They bind selectively to ergosterol in fungus but not in mammalian cell wall.
  • 10.
    AMPHOTERICIN B  It ismacrolide antibiotic large lactone ring.  Poorly absorbed orally, useful for fungal infection of gastrointestinal tract.  Locally used in corneal ulcers, arthritis and candidial bladder irrigation  For systemic infections given as slow I/V infusion.  Highly protein bound.  Penetration through BBB is poor but increases in inflamed meninges.  Excreted slowly via kidneys, traces found in urine for months after cessation of drugs.  Half life 15 days
  • 11.
     Drug of choicefor most systemic infections.  Course of treatment lasts 6-12 weeks.  Dose 0.5-1 mgkgday.
  • 12.
    ADVERSE EFFECTS:  Most seriousis renal toxicity, which occurs in 80% of patients.  Hypokalaemia in 25% of patients, requiring potassium supplementation.  Hypomagnesaemia Anemia Impaired hepatic function Thrombocytopenia   
  • 13.
    Liposomal preparations of amphotericinB(newer preparations)    To reduce the toxicity of amphotericin B ,several new formulations have been developed in which amphotericin B is packaged in a lipid-associated delivery system, to assume that they will less bind to mammalian cell. Lipid vehicle act as a reservoir, reducing binding to human cell. In this way it permits a larger doses, even five times more than colloidal preparation, they have better clearance .  Clinically they have more efficacy , less nephrotoxicity.  But these are very expensive.
  • 15.
    Nystatin  It is polyenemacrolide,similar in structure to amphotericin and with same mechanism of action.  Too  Not toxic for systemic use absorbed from GIT /skin therefore administered orally.
  • 16.
     Prevent or treatsuperficial candidiasis of mouth, esophagus or intestinal tract, oral suspension of 100,000 U/ml 4 times a day and tablets 500,000 U are used to decrease GIT colonization with Candida.  Can be used in combination with antibacterial agents and corticosteroids.
  • 17.
    AZOLES:  a bivalent chemicalgroup composed of two nitrogen atoms.  They are antibacterial, antiprotozoal, anthelminthic and antifungal.  These are group of synthetic fungistatic agents.  They have broad spectrum of activity.  Inhibit the fungal cytochrome P450 3A enzyme , (lanosine 14-desmethylase ),which is responsible for converting lanosterol to ergosterol, the main sterol in the fungal cell membrane, this alters fluidity of the membrane, thus inhibiting the growth of fungi.
  • 18.
    IMIDAZOLES  Ketoconazole,  miconazole, clotrimazole,  isoconazole ,  Tioconazole  They interfere with fungal oxidative enzymes to cause lethal accumulation of hydrogen peroxide.  they reduce the formation of ergosterol by inhibition of fungal cytochrome P450 enzyme, which become permeable to cellular constituent
  • 19.
    TRIAZOLES:    Fluconazole, itraconazole, voriconazole  They damage thefungal cell membrane by inhibiting enzyme desmethylase .  They are selective  Penetrate to CNS  Resistant to degradation  Cause less endocrine disturbance.
  • 20.
    KETACONAZOLE:  First azole thatcould be given orally to treat systemic fungal infections.  Well absorbed orally as acidic environment favours its dissolution.  Only administered orally.  After oral administration of 200,400 and 800 mg, plasma conc. reaches to 4.8 and 20 ug/ml.  Half mg life increases with dose and it is 7-8 hrs with 800
  • 22.
     Decrease in the ergosterolin the fungal membrane by ketoconazle reduces the fungicidal action of amphotericin.  Oral dose 400 mg daily.
  • 23.
     As it inhibitssteroid biosynthesis, several endocrinological abnormalities may be evident as menstrual abnormalities, gynecomastia, decreased libido and impotency.  Contraindicated in pregnancy.
  • 24.
    ITRACONAZOLE     It is asynthetic triazole it is new drug It lacks endocrine side effects of ketoconazole. It has broad spectrum activirty  Administered orally as well as I/V.  Do not penetrate CSF adequately. Dose 100 mg twice daily with food, initially 300 mg thrice daily as a loading dose hypertriglyceridemia, Hypokalaemia, hepatotoxicty   FLUCONAZOLE  It is fluorinated bistriazole.  Completely absorbed from GIT  Excellent bioavailability by oral route.  Concentration in plasma is same by oral or I/v route Drug interactions are less common. It easily penetrate CSF and is a drug of choice in cryptococcal meningitis and coccido mycosis Candidiasis: 200 mg on 1st day then 100 mg daily for 2 weeks.     Cryptococcosis: 400 mg daily for 8 weeks in meningitis.  Hepatic failure may lead to death  It is highly teratogenic.
  • 25.
    Voriconazole  A new drugavailable in i.v and oral fromulations.  recommended dosage is 400 mg/ day  high biological availability when given orally  hepatic metabolism predominant.  it is similar to itraconazole but more potent.
  • 26.
    FLUCYTOSINE  Has useful activityagainst Candida and Cryptococcus.  it is synthetic pyrimidine antimetabolite that is often used in combination with amphotericin B.  Mechanism of action   It is converted to antimetabolite 5-florouracil in a fungal cell. This 5-FU inhibits thymidylate synthetase enzyme and thus DNA synthesis.
  • 27.
     dose 100-150 mg/kg per day divided into 4 doses.  Generally use in combination with amphotericin  For cryptococcal meningitis in AIDS patients Side effects:   reversible neutropenia, thrombocytopenia and occasional bone marrow depression.
  • 28.
    Caspofungin  It is echinocandinclass of antifungal drugs  it interferes with the synthesis of fungal cell wall by inhibiting synthesis of D-glucan.  especially useful for aspergillus and candida.  not active orally.  Has half life of 9-11 hours  Adverse  effects include nausea ,vomiting, flushing very expensive
  • 30.
    GRISEOFULVIN  Isolated from Pencilliumgriseofulvum  It interacts with microtubules and interferes with mitosis.
  • 31.
     Uses   Mycotic diseases ofskin, hair (particularly for scalp) , nail. It is also highly effective in athlete's foot Peripheral neuritis  Lethargy  mental confusion  impairment in performance of routine task  fatigue, vertigo ,syncope, blurred vision. 
  • 32.
    Comparison of Azolesfungistatic drugs
  • 33.
    Topical anti fungal preparations Topical       azole derivatives Ciclopirox olamine Naftifine Terbinafine Butenafine tolnaftate Nystatin and Amphotericin
  • 34.
     Amphotericin    B Candida oesphogitis0.15-0.2mg/kgdaily. Invasive aspergillosis1-1.2mg/kg until progression is arrested. Candida cystitisbladder irrigation with 50ug/ml.
  • 35.
     Itraconazoledeep   mycosis Divided dosage1st3 days 200mg three times(loading dose) Maitainence dose200mg once daily for 12wks.  Flucanozole  Oesophageal candidiasis     200mg 1st day. 100mg daily for 2 wks. Coccidioial meningitis Cryptococcal meningitis400mg daily 8wks later 200mg for life
  • 36.
    Future prospects  Posaconazole azoles. &rabuconazole newer Very effective in treatment of zygomycosis in immunocompromised  Nikkomycins newer antifungals act by inhibiting chitin synthesis.
  • 37.
     Sordarinsupcoming  Inhibits fungalgrowth by blocking elongation factor2.  Two   class of antifungals new echinocandins Micafungin Anidulafungin Effective in immunocomprimised pts against aspergillus & candida infections.
  • 38.
     Recombinant form ofhuman granulocyte colony stimulating factors like  Lenogastrin increase neutrophil count in neutropenia pts with fungal infections.  These are used along with antifungal agents to enhance their efficacy in immunocompromised pts.
  • 39.
    Bibliography  Goodmans gillmans-the pharmacological basisof therepeutics 10th edition pg:1295.  Principles of pharmacology –sharma h.s pg:789-90.  Tripati