Unlike the complex structure of fungi or protozoa, viral structure is simple. There are several subclasses of antiviral medications: antiherpes, antiinfluenza, antihepatitis, and antiretrovirals. Each subclass will be discussed in more detail below. See Figure 3.10[1] for images of viruses.

Photos of viruses. The first photo shows members of the Coronavirus family. The second photo shows the Ebolavirus, a member of the Filovirus family.
Figure 3.10 Images of Viruses (a) Members of the Coronavirus family can cause respiratory infections like the common cold, severe acute respiratory syndrome (SARS), and Middle East respiratory syndrome (MERS). Here they are viewed under a transmission electron microscope (TEM). (b) Ebolavirus, a member of the Filovirus family. (credit a: modification of work by Centers for Disease Control and Prevention; credit b: modification of work by Thomas W. Geisbert)

Subclass: Antiherpes

Mechanism of Action: Acyclovir causes termination of the DNA chain during the viral replication process. Acyclovir can be administered either topically or systemically, depending on the infection.[2]

Indications: Acyclovir (Zovirax) and its derivatives are frequently used for the treatment of herpes and varicella virus infections, including genital herpes, chicken pox, shingles, Epstein-Barr virus infections, and cytomegalovirus infections.

Nursing Considerations: Acyclovir use may result in nephrotoxicity.

Side Effects/Adverse Effects: Common side effects may include gastrointestinal distress. Additional adverse effects may include renal impairment and decreased seizure threshold.

Patient Teaching & Education: Patients who are being treated with antiviral therapy should be instructed about the importance of medication compliance. They may also experience significant fatigue, so periods of rest should be encouraged.[3]

Subclass: Antiinfluenza

Mechanism of Action: Tamiflu prevents the release of virus from infected cells.

Indications: Tamiflu (oseltamivir) is used to target the influenza virus by blocking the release of the virus from the infected cells.

Nursing Considerations: This medication does not cure influenza but can decrease flu symptoms and shorten the duration of illness if taken in a timely manner. Patients are prescribed the medication for prophylaxis against infection, known exposure, or to lessen the course of the illness. If patients experience flu-like symptoms, it is critical that they start treatment within 48 hours of symptom onset.

Side Effects/Adverse Effects: Common side effects include gastrointestinal distress. More concerning adverse effects include serious skin hypersensitivity reactions or neuropsychiatric symptoms. Use cautiously in patients with renal failure, chronic cardiac or respiratory diseases, or any medical condition that may require imminent hospitalization.

Patient Teaching & Education: Patients who are being treated with antiviral therapy should be instructed about the importance of medication compliance. They may also experience significant fatigue, so periods of rest should be encouraged.[4]

The influenza virus is one of the few RNA viruses that replicates in the nucleus of cells. Antivirals block the release stage. See Figure 3.11.[5]

Illustration of Influenza virus attaching to target cell and replication within nucleus of cells.
Figure 3.11 Influenza Virus Replication Stages

Subclass: Antihepatitis

Mechanism of Action: Antihepatitis medications inhibit translation of viral mRNA into viral proteins. This action impedes the replication of the hepatitis virus.

Indications: Antihepatits medications are used to treat chronic hepatitis and the hepatitis B virus and hepatitis C virus.

Nursing Considerations: The medication is used to maintain or improve liver function when active disease is present. Therapy is prolonged, typically greater than 1 year or indefinitely based on the patient’s status.

Side Effects/Adverse Effects: Adverse effects of antihepatitis medications include severe acute exacerbations of hepatitis B, nephrotoxicity, lactic acidosis, and severe hepatomegaly.

Patient Teaching/Education: Patients receiving treatment for antihepatitis medications should also be offered HIV testing to ensure that they do not have an unrecognized or untreated HIV infection. Antihepatitis medications may promote resistance to antiretrovirals in patients with chronic HBV infection. Patients must understand that they should not stop taking medication unless directed by a health care provider. Monitor hepatic function several months after stopping therapy.

Subclass: Antiretrovirals

Viruses with complex life cycles, such as HIV, can be more difficult to treat. These types of viruses require the use of antiretroviral medications that block viral replication. (See Figure 3.12 to view the viral replication process of HIV.)[6] Additionally, antiretrovirals fall under the class of antiviral medications.

Illustration with labels showing HIV attached to cell surface receptor
Figure 3.12 HIV attaches to a cell surface receptor of an immune cell and fuses with the cell membrane. Viral contents are released into the cell, where viral enzymes convert the single-stranded RNA genome into DNA and incorporate it into the host genome

Mechanism of Action: Antiretrovirals impede virus replication.

Indications: Antiretrovirals are used for the treatment of illnesses like HIV.

Nursing Considerations: Many antiretrovirals may impact renal function; therefore, the patient’s urine output and renal labs should be monitored carefully for signs of decreased function.

Side Effects/Adverse Effects: Adverse side effects of antiretroviral medications include lactic acidosis and severe hepatomegaly. Patients should cease medication immediately if pancreatitis occurs.

Patient Teaching & Education: Patients who are being treated with antiviral therapy should be instructed about the importance of antiretroviral compliance. They may also experience significant fatigue, so periods of rest should be encouraged.[7]

Now let’s take a closer look at the medication grids for the subclasses of antivirals in Table 3.14a-d.[8] 

Tables 3.14a Acyclovir Medication Grid

Class/Subclass Prototype/Generic Administration Considerations Therapeutic Effects Side/Adverse Effects
Antivirals: Antiherpes acyclovir Check for allergies

Route: PO, IV, or topical; do not give IM or subcutaneously (subq)

Give with food if GI distress

IV: Give IV infusion over at least 1 hour to prevent renal tubular damage

Use cautiously if renal impairment, neurological problems, or dehydration

Start therapy as early as possible after signs or symptoms occur

Encourage fluid intake

Avoid sexual contact while lesions present

Drug is not a cure for herpes but improves signs and symptoms of herpes lesions if started early

Can be used long-term for prevention of outbreaks

GI distress

Monitor renal function in long-term use, especially if renal impairment

Lowers seizure threshold

Tables 3.14b Oseltamivir Medication Grid

Class/Subclass Prototype/Generic Administration Considerations Therapeutic Effects Side/Adverse Effects
Antivirals:
Antiinfluenza Agents
oseltamivir Check for allergies

Route: PO

Must be given within 48 hours of onset of symptoms

Administer with food to avoid GI distress

Does not replace need for annual influenza vaccination

Reduce duration of flu symptoms GI distress

Serious skin/ hypersensitivity reactions; discontinue immediately

Monitor for neuropsychiatric symptoms

Use cautiously in patients with renal failure, chronic cardiac or respiratory diseases, or any medical condition that may require imminent hospitalization

Tables 3.14c Adefovir Medication Grid

Class/Subclass Prototype/Generic Administration Considerations Therapeutic Effects Side/Adverse Effects
Antivirals:
Antihepatitis Agents
adefovir Route: PO

Prolonged therapy (>1 year or indefinitely) based on patient status

Offer HIV testing; may promote resistance to antiretrovirals in patients with chronic HBV infection who also have unrecognized or untreated HIV infection

Do not stop taking medication unless directed. Monitor hepatic function several months after stopping therapy

Maintain or improve liver function when active disease is present Severe acute exacerbations of hepatitis B

Nephrotoxicity

Lactic acidosis

Severe hepatomegaly

Tables 3.14d Lamuvadine-Zidovudine Medication Grid

Class/Subclass Prototype/Generic Administration Considerations Therapeutic Effects Side/Adverse Effects
Antivirals: Antiretrovirals
Nucleoside–Nucleotide Reverse Transcriptase Inhibitors
lamivudine- zidovudine Check for allergies

Lamivudine used to treat HIV-1 infection contains a higher dose of the active ingredient than the lamivudine used to treat chronic HBV infection. Patients with HIV-1 infection should receive only dosing forms appropriate for HIV-1 treatment

Use cautiously in patients with renal impairment

Inform patient that drug doesn’t cure HIV infection, that opportunistic infections and other complications of HIV infection may still occur, and that transmission of HIV to others through sexual contact or blood contamination is still possible. Taking these medications, along with practicing safer sex and making other lifestyle changes, may decrease the risk of transmitting (spreading) the HIV or hepatitis B virus to other people

Teach symptoms of pancreatitis

Decreases chance of developing acquired immunodeficiency syndrome (AIDS) and HIV-related illnesses such as serious infections or cancer Lactic acidosis

Severe hepatomegaly

Stop treatment immediately if pancreatitis

Critical Thinking Activity 3.14Image of a circle containing a speech bubble with a question mark in it.

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

A patient is prescribed oseltamivir (Tamiflu) for influenza symptoms. The patient states to the nurse, “I hope this medication works quickly! I have felt lousy for the past five days!” What is the nurse’s next best response?

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

 


  1. “Unknown” by CNX OpenStax is licensed under CC BY 4.0. Access for free at https://openstax.org/books/microbiology/pages/1-3-types-of-microorganisms
  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. uCentral from Unbound Medicine. https://www.unboundmedicine.com/ucentral
  4. uCentral from Unbound Medicine. https://www.unboundmedicine.com/ucentral
  5. “Unknown” by CNX OpenStax is licensed under CC BY 4.0 Access for free at https://openstax.org/books/microbiology/pages/6-2-the-viral-life-cycle
  6. This work is a derivative of “HIV Virus Replication Cycle” by NIAID is licensed under CC BY 2.0
  7. uCentral from Unbound Medicine. https://www.unboundmedicine.com/ucentral
  8. This work is a derivative of DailyMed by U.S. National Library of Medicine in the Public Domain.

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