3.15 Antifungals

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Photomicrograph of the fungus Candida albicans, with nucleus labeled.
Figure 3.13 Candida albicans is a unicellular fungus, or yeast. It is the causative agent of vaginal yeast infections as well as oral thrush, a yeast infection of the mouth that commonly afflicts infants.

[1]

Fungi are important to humans in a variety of ways. Both microscopic and macroscopic fungi have medical relevance, but some pathogenic species that can cause mycoses (illnesses caused by fungi). See Figure 3.13 for a microscopic image of candida albicans that is the causative agent of yeast infections. Some pathogenic fungi are opportunistic, meaning that they mainly cause infections when the host’s immune defenses are compromised and do not normally cause illness in healthy individuals. Fungi are important in other ways. They act as decomposers in the environment, and they are critical for the production of certain foods such as cheeses. Fungi are also major sources of antibiotics, such as penicillin from the fungus Penicillium.[2].

Indications:

Imidazoles are synthetic fungicides commonly used in medical applications and also in agriculture to keep seeds and harvested crops from molding. Examples include miconazole, ketoconazole, and clotrimazole, which are used to treat fungal skin infections such as ringworm, specifically tinea pedis (athlete’s foot), tinea cruris (jock itch), and tinea corporis.

Triazole drugs, including fluconazole, can be administered orally or intravenously for the treatment of several types of systemic yeast infections, including oral thrush and cryptococcal meningitis, both of which are prevalent in patients with AIDS. Triazoles also exhibit more selective toxicity, compared with the imidazoles, and are associated with fewer side effects.[3]

Allylamines, a structurally different class of synthetic antifungal drugs, are most commonly used topically for the treatment of dermatophytic skin infections like athlete’s foot, ringworm, and jock itch. Oral treatment with terbinafine is also used for fingernail and toenail fungus, but it can be associated with the rare side effect of hepatotoxicity.[4]

Polyenes are a class of antifungal agents naturally produced by certain actinomycete soil bacteria and are structurally related to macrolides. Common examples include nystatin and amphotericin B. Nystatin is typically used as a topical treatment for yeast infections of the skin, mouth, and vagina, but may also be used for intestinal fungal infections. The drug amphotericin B is used for systemic fungal infections like aspergillosis, cryptococcal meningitis, histoplasmosis, blastomycosis, and candidiasis. Amphotericin B was the only antifungal drug available for several decades, but its use has associated serious side effects, including nephrotoxicity.[5]

Mechanism of Action: Antifungals disrupt ergosterol biosyntheses of the cell membrane increasing cellular permeability and causing cell death.

Special Administration Considerations: Administration guidelines will vary depending on the type of fungal infection being treated. It is important to monitor response of the affected area and examine class specific administration considerations to monitor patient response.

Patient Teaching & Education: The patient should be advised to follow dosage instructions carefully and finish the drug completely, even if they feel their symptoms have resolved.  The patient should report any skin rash, abdominal pain, fever, or diarrhea to the provider.  The patient should monitor carefully for unexplained bruising or bleeding, which may be a sign of liver dysfunction.[6]

Now let’s take a closer look at the medication grid for various antifungals in Table 3.15.[7]

Table 3.15 Antifungal Medication Grid

Class/Subclass Prototype/Generic Administration Considerations Therapeutic Effects Side/Adverse Effects
Antifungals clotrimazole Check for allergies

Topical cream: apply liberally twice daily to affected area

 Improve symptoms of athlete’s foot (tinea pedis), jock itch (tinea cruris), or ringworm Topical-skin irritation, rash
fluconazole Check for allergies

Route: PO/IV

Single or multiple doses

Caution if liver dysfunction

Potential for fetal harm

 Improve symptoms of yeast infection Hepatotoxicity
terbinafine Cream or aerosol

Wash affected area with soap and water and allow to dry completely before applying

 Improve symptoms of athlete’s foot (tinea pedis), jock itch (tinea cruris), or ringworm External use only
nystatin PO: If order is “‘swish and swallow,” instruct patient to hold medication in mouth for several minutes before swallowing

Topical cream/powder: apply liberally twice daily

 Improve symptoms of yeast infection of skin External use only
amphotericin B Check for allergies

Route: IV

Reconstitute and dilute as directed on packaging

Administer slowly over several hours initially and monitor VS every 30 minutes; may require premedication

Therapy may take several months

Alert: Different amphotericin B preparations aren’t interchangeable

Caution if renal impairment

Black Box Warning: Don’t use to treat noninvasive forms of fungal disease in patients with normal neutrophil counts

 Improvement of systemic fungal infection such as aspergillis Monitor fluid intake and output; report change in urine appearance or volume

Monitor BUN and creatinine levels two or three times weekly. Kidney damage may be reversible if drug is stopped at first sign of renal dysfunction

Hydrate patient before infusion to reduce risk of nephrotoxicity

Obtain liver function tests once or twice weekly

Monitor CBC weekly

Monitor potassium level closely and report signs of hypokalemia

Check calcium and magnesium levels twice weekly

Drug may be ototoxic. Report evidence of hearing loss, tinnitus, vertigo, or unsteady gait

 

Critical Thinking Activity 3.15a

Using the above grid information, consider the following clinical scenario question:

A patient in a skilled nursing facility has been receiving nystatin applied to groin folds twice daily for several weeks, but there is no sign of improvement. What is the nurse’s best response?

Note: Answers to the Critical Thinking activities can be found in the “Answer Key” sections at the end of the book.

  1. This image is a derivative of "Candida albicans" by Dr. Gordon Roberstad, Centers of Disease Control and Prevention.  https://cnx.org/contents/y54zcuVm@1/Characteristics-of-Fungi, licensed under CC0
  2. This work is a derivative of Microbiology by OpenStax licensed under CC BY 4.0. Access for free at https://openstax.org/books/microbiology/pages/1-introduction
  3. This work is a derivative of Microbiology by OpenStax licensed under CC BY 4.0. Access for free at https://openstax.org/books/microbiology/pages/1-introduction
  4. This work is a derivative of Microbiology by OpenStax licensed under CC BY 4.0. Access for free at https://openstax.org/books/microbiology/pages/1-introduction
  5. This work is a derivative of Microbiology by OpenStax licensed under CC BY 4.0. Access for free at https://openstax.org/books/microbiology/pages/1-introduction
  6. uCentral from Unbound Medicine. https://www.unboundmedicine.com/ucentral
  7. Daily Med, https://dailymed.nlm.nih.gov/dailymed/index.cfm, used for hyperlinked medications in this module. Retrieved June 27, 2019

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