Viral Infections

Respiratory Viruses

Many human respiratory infections are caused by adenoviruses, which are DNA viruses commonly acquired by contact with secretions (including finger transmission) from an infected person or by contact with a contaminated object (eg, towel, instrument). Infection may be airborne (particles released by coughing and sneezing) or waterborne. Respiratory or GI viral shedding (transmission of infectious viral particles by the infected host) may continue for months, even if infection is asymptomatic, as most are. When infection is symptomatic, many clinical manifestations are possible. The most common syndrome, especially in children, involves fever that tends to be greater than 39°C (102°F) and last more than 5 days. Sore throat, cough, runny nose, or other respiratory symptoms may occur. A separate syndrome involves conjunctivitis (an inflammation in the eye), pharyngitis (sore throat), and fever (pharyngoconjunctival fever). Eye inflammation involving both the conjunctiva and the cornea, termed epidemic keratoconjunctivitis, is sometimes severe and occurs both sporadically and in epidemics. Conjunctivitis is frequently bilateral (affecting both eyes). Periauricular adenopathy—swollen glands in the ear area—may develop. Systemic symptoms and signs are mild or absent. Epidemic keratoconjunctivitis usually resolves within 3 or 4 weeks, although corneal lesions may persist much longer.

Herpesviruses

Eight different types of herpesviruses infect humans. After initial infection, all herpesviruses remain latent (inactive) within specific host cells and may subsequently reactivate or be shed. Herpesviruses do not survive long outside a host; thus, transmission usually requires contact with blood or sexual fluid, although varicella zoster virus (VZV) may spread by contact with respiratory secretions. Because the virus remains latent, transmission sometimes occurs from asymptomatic infected people.

Herpes simplex virus types 1 and 2 (HSV-1 and HSV-2) are widespread throughout most human populations and cause painful sores and blisters. Cold sores or fever blisters in the mouth or on the lips are most often caused by HSV-1, transmitted by close contact with an infected individual or an object that is contaminated by fluids from that individual. Genital herpes is among the most common sexually transmitted diseases in the United States and, while most often caused by HSV-2 infection, may also be associated with HSV-1. After the initial symptoms (painful blisters that break and become ulcers), the infection becomes latent and can recur throughout the patient’s lifetime.

One of the most commonly encountered herpesviruses is human herpesvirus type 3 or VZV, the causative organism of chickenpox and shingles. Chickenpox is predominantly a childhood disease caused by initial exposure to the virus. Shingles, also known as herpes zoster, typically presents in older patients. It is caused by reactivation of the VZV contracted at an earlier date. Chickenpox is extremely contagious and spread by droplet contact with an infected individual. Patients typically experience headache, fever, and fatigue as the initial symptoms up to 2 weeks prior to the development of a rash. The rash begins as teardrop-shaped, fluid-filled pouches, known as vesicles, on the face and trunk, and it is extremely itchy. The vesicles erupt (break) and crust over after a couple of days, with new vesicle formation ceasing after 5 days and crusting of vesicles complete by the sixth day. The disease is contagious from 48 hours prior to the development of the rash until final crusting of the rash. Chickenpox is typically a mild disease; however, in adults, newborns, and immunocompromised patients, it can progress to pneumonia and septic shock.

Shingles, as mentioned earlier, is a reactivation of VZV. When latent, the virus resides in the roots of nerves. Upon reactivation the patient experiences sharp shooting pain in the affected region, followed in 2–3 days by the development of red vesicular lesions (vesicles). Lesions develop for up to 5 days. Typically patients experience only one outbreak of zoster; however, the pain may persist for months to years.

Infection with human herpesvirus type 8 (HHV-8) and EBV are linked to the development of malignancy (cancer). HHV-8 is also known as Kaposi’s sarcoma–associated herpesvirus (KSHV) and infections with this agent are most often seen in immunosuppressed patients, especially those with AIDS.

In addition to symptomatic treatment, some antiviral medications (detailed later in this chapter) are active against herpesviruses. Drugs that have activity against herpesviruses include acyclovir, cidofovir, famciclovir, fomivirsen, foscarnet, ganciclovir, idoxuridine, penciclovir, trifluridine, valacyclovir, valganciclovir, and vidarabine. While antiviral therapy can reduce the severity of symptoms, frequency of recurrence, and, possibly, disease transmission, it does not cure the infection.² Additionally, vaccines have been developed to protect patients from herpesvirus infections; these are discussed in Chapter 30.

Hepatitis Viruses

Hepatitis is an inflammation of the liver characterized by the widespread death of cells. Noninfectious hepatitis is covered in Chapter 23. Major infectious causes are specific hepatitis viruses A, B, and C. Less common causes include other viral infections (eg, infectious mononucleosis, yellow fever, CMV infection) and leptospirosis (a nonviral parasitic infection). Hepatitis A is spread through the GI tract. It is a self-limiting disease, usually resolving within 2–6 months, and is seldom chronic or fatal.² There is no recommended drug treatment for hepatitis A.

Hepatitis B and C are transmitted via blood or other body fluids. Hepatitis B can even be transmitted from an infected mother to her child during childbirth, as well as sexual activity with an infected partner, which accounts for up to 50% of new cases in the United States.²

Hepatitis B infections can be asymptomatic and undetectable except with tests for serum antibodies and may resolve completely in 6 months. Some patients (especially those infected in infancy), however, can progress to a chronic infection, which can be controlled with antivirals but not cured. Patients with chronic infections can be contagious even when they are showing no symptoms. Chronic hepatitis B can result in fatal liver disease and malignancy. Hepatitis C may be the most common blood-borne disease in the United States.² Many patients are asymptomatic (but contagious) for long periods, but over 20–30 years develop fatal liver damage. This disease can be controlled and even cured by a combination of antiviral medications.

Enterovirus

Enteroviruses are picornaviruses (pico = small, so these are small RNA viruses). This group includes the poliovirus, coxsackievirus, echovirus, and enterovirus D. Coxsackieviruses and echoviruses are shed in oral secretions, stool, blood, and cerebrospinal fluid and have wide geographic distribution. Enteroviruses cause various diseases, including poliomyelitis and meningitis. Epidemic pleurodynia, hand-foot-and-mouth disease, and herpangina are other diseases caused almost exclusively by enteroviruses.

Rubella Virus

Rubella (German measles) is caused by an RNA virus, which is spread by respiratory droplets through close contact or through the air. It is a contagious viral infection that may produce adenopathy (swollen glands), rash, and sometimes constitutional symptoms, which are usually mild and brief. Infection during early pregnancy can cause spontaneous abortion, stillbirth, or congenital defects, including but not limited to hearing loss, ophthalmologic defects, most commonly cataracts, cardiac abnormalities, and neurologic defects. Diagnosis is clinical and treatment is rarely necessary. Vaccination is effective; hence, only sporadic cases are seen in the United States.

A patient can transmit rubella from asymptomatic infection or from 10 days before until 15 days after the onset of the rash. Congenitally infected infants may transmit rubella for many months after birth. Rubella is less contagious than measles. Immunity appears to be lifelong after natural infection.

Measles Virus

Measles is a viral infection rendered very uncommon in the United States and other developed countries by effective vaccination. It is a highly contagious viral infection most common in children. It is characterized by fever, cough, nasal congestion, conjunctivitis, and a rash consisting of red elevated bumps that usually spreads from the head downward over the body. Koplik’s spots, which appear as a dot of white sand on a slightly elevated reddened surface inside the mouth, are also seen. Diagnosis is based on clinical symptoms and treatment is supportive, consisting of acetaminophen or ibuprofen for fever and antihistamines for rash.

Human Immunodeficiency Virus

Human immunodeficiency virus (HIV) infection results from one of two similar agents (HIV-1 and HIV-2) called retroviruses because of the way their RNA works as a template for new DNA in infected host cells. These viruses destroy CD4 lymphocytes (important immune system cells) and impair cell-mediated immunity, increasing the risk of certain infections and cancers.

HIV is spread primarily through sexual contact, although other modes of transmission include parenteral (shared needles or accidental needle sticks, blood transfusion) and childbirth (from mother to child). Initial infection may cause nonspecific febrile illness. The risk of developing subsequent infections is proportional to the level of remaining CD4 lymphocytes. Clinical manifestations range from asymptomatic carriage to AIDS, which is defined by serious opportunistic infections or cancers or a CD4 count of <200/μL. HIV infection can be diagnosed by antibody or antigen testing. Screening should be routinely offered to all adults and adolescents. Treatment aims to suppress HIV replication by using combinations of drugs that inhibit viral enzymes and replication.

Adamantines

Amantadine (Symmetrel) and its derivative, rimantadine (Flumadine), are cyclic compounds of the adamantine family that inhibit uncoating of the viral RNA within infected host cells, thus preventing replication. These medications have been used for influenza treatment and prophylaxis. The most common side effects are GI and central nervous system (CNS) disturbances (difficulty concentrating, dizziness, insomnia), and in the case of rimantadine, hepatic dysfunction. These are more pronounced in the elderly and in patients with renal insufficiency. Though these medications have activity against influenza A, they are not recommended for treatment or prophylaxis due to high resistance rates. They are only warranted for resistant influenza virus, in conjunction with an NA inhibitor.

Neuraminidase Inhibitors (Zanamivir, Oseltamivir, Peramivir)

Zanamivir and oseltamivir are inhibitors of NA, which is responsible for the release of influenza virus from infected cells. The release of virus from infected cells is stopped, halting the spread of virus within the respiratory tract. These agents have activity against both influenza A and influenza B. Oseltamivir and zanamivir are easy to administer: zanamivir is a nasal spray and oseltamivir is given orally. They are well tolerated and duration of therapy is 5 days. Peramivir is only available as a solution and is given as an IV infusion. Peramivir may be given as a single dose for patients without complications, or for up to 10 days in higher-risk patients. Unfortunately, these agents require use within 48 hours of symptom onset to be effective and duration of illness is decreased by only 1–2 days even when they are started appropriately.

Endonuclease Inhibitor (Baloxavir)

Baloxavir Marboxil is an oral pro-drug (must be converted to an active form) of baloxavir, which is an inhibitor of endonuclease. This agent has activity against both influenza A and influenza B by inhibiting viral replication. Baloxavir is a well-tolerated medication and only one dose needs to be given in the treatment of influenza. Like the neuraminidase inhibitors, this medication should be given within 48 hours of influenza symptoms.

Interferons

Interferons are cellular messengers responsible for antiviral, immunomodulatory, and antiproliferative activities in the body. Interferon (IFN)-alfa appears to function by inhibiting viral penetration, translation, transcription, protein processing, maturation, and release, as well as enhancing the ability of the body’s immune system to eliminate viral particles (virions). Interferons are used to treat chronic hepatitis B, D, and acute hepatitis C. They have also been used experimentally against human papilloma virus (responsible for warts) and West Nile virus.

Nucleosides and Nucleotides

Nucleosides and nucleotides are antiviral medications that interfere with nucleic acid (DNA and/or RNA) synthesis. By inhibiting viral nucleic acid synthesis, they interfere with or prevent viral replication and spread. Acyclovir, ganciclovir, and valganciclovir are all analogs of the nucleoside guanosine. They require a viral enzyme for activation, so they are selectively activated and accumulate in infected cells. Their antiviral activity is accomplished by two mechanisms: competitive inhibition of viral DNA polymerase (where they take the place of the guanosine that is normally used by the virus) and chain termination following assimilation into the viral genome. These medications have activity against herpesvirus, VZV, EBV, and CMV. Intravenous acyclovir is associated with reversible renal toxicity. The main toxicity associated with ganciclovir and valganciclovir is myelosuppression.

Acyclovir was the first agent in this group to be developed. It is active against the herpesviruses, including genital herpes, varicella (chickenpox), and zoster (shingles). It has also been investigated for use in CMV and HSV. Administered by IV or oral routes, it must be given frequently (five times daily or every 4 hours) when used for acute infection. Acyclovir is also available alone or in combination with hydrocortisone as an ointment or cream for the treatment of genital herpes and cold sores.

Other nucleoside analogs that are active against HSV include famciclovir and valacyclovir (oral treatment for genital herpes, cold sores, and shingles) and penciclovir (administered as a cream for cold sores on the lips and face). Ganciclovir is indicated for the treatment of CMV retinitis. It is available in dosage forms administered directly into the eye. Adefovir dipivoxil was initially investigated for the treatment of HIV, but it eventually gained FDA approval for the treatment of hepatitis B infection. Adefovir dipivoxil is a prodrug requiring enzymes in the cell to become active. It inhibits hepatitis B DNA polymerase, resulting in chain termination (halts nucleic acid synthesis). Sixty percent of the drug is absorbed upon oral administration and is unaffected by the presence of food in the stomach (so it may be taken without regard to meals). In contrast to acyclovir, dosage is only once daily. It is renally eliminated, making it safe for patients with severe liver disease. Commonly encountered side effects are headache, diarrhea, abdominal pain, and dose-dependent renal toxicity. Less common, more severe side effects are lactic acidosis and hepatic steatosis. Entecavir is an orally administered guanosine analog that competitively inhibits hepatitis B virus (HBV) replication enzymes. Oral bioavailability approaches 100% but is decreased by food; therefore, entecavir should be taken on an empty stomach. It is excreted by the kidney, so doses are adjusted for patients with renal insufficiency and those on dialysis.

Cidofovir is a cytosine nucleotide analog with in vitro activity against a variety of viral agents. Unlike acyclovir and similar drugs, cidofovir is transformed to an active form without the need for viral enzymes. Common adverse effects associated with cidofovir are nephrotoxicity, neutropenia, and metabolic acidosis. At the time of this writing, its only approved indication is for the treatment of CMV retinitis in patients with AIDS.

Ribavirin is another guanosine analog that is phosphorylated intracellularly by host cell enzymes. Although its mechanism of action has not been fully explained, it shows antiviral activity against a wide range of viruses, including influenza A and B, parainfluenza, RSV, paramyxoviruses, hepatitis C virus (HCV), and HIV-1. The oral form, currently indicated only for treatment of HCV in combination with an interferon, should be taken with food (meals high in fat increase absorption). Elimination is primarily via the kidneys and dose reduction is needed in cases of renal insufficiency. Hemolytic anemia occurs in up to 20% of patients treated with oral ribavirin. It is associated with depression, fatigue, nausea, and rash.

For RSV infections in infants and children, only inhaled (aerosol) ribavirin (and not the oral form) is indicated. It is generally reserved for hospitalized patients, especially if they also suffer from chronic lung, heart, or immune system deficiencies or diseases. Administration is generally continuous over 12–18 hours daily for 3–7 days.

Foscarnet (phosphonoformic acid) is an inorganic compound that inhibits viral enzymes directly without requiring activation. It has shown activity against HSV, VZV, CMV, EBV, HHV-6, KSHV, and HIV-1. Its major toxicity is renal function impairment, but it has also been associated with changes in plasma minerals and electrolytes resulting in seizures. Patients receiving this drug are subject to careful monitoring of kidney function and serum electrolytes. Foscarnet is currently indicated only in the treatment of immunocompromised patients with CMV retinitis or certain resistant HSV infections of the skin and mucous membranes. It is administered by IV infusion (not topically).

Letermovir is a viral terminase inhibitor approved for the prophylaxis of CMV.

Tecovirimat is an antiviral medication that has activity against the smallpox virus.

Antiretroviral Medications

Antiretroviral medications are medications that have activity against HIV. They are categorized by their mechanisms of action. The expected outcome of antiretroviral therapy is not to cure HIV infection, but to improve the patients’ quality of life by reducing symptoms, maximize immune system functioning, and prevent transmission. This is currently best accomplished by suppression of viral replication, and treatment is generally aimed at that goal.

HIV is a relatively new infection first identified in the last half of the 20th century, and its treatment continues to evolve. The earliest antiretrovirals were the nucleoside reverse transcriptase inhibitors (NRTIs), and the first of these was zidovudine (sometimes still abbreviated AZT for its original name, azidothymidine, which describes its structure). NRTIs, which also include abacavir, emtricitabine, lamivudine, and tenofovir disoproxil fumarate act by inhibition of HIV-1 reverse transcriptase, an enzyme vital to HIV replication. They can also be incorporated into the viral DNA chain to cause early termination (before it is complete). They require an intracellular chemical reaction to become active and have activity against both HIV-1 and HIV-2. The main adverse effects are lactic acidosis, hepatic steatosis (fatty liver), peripheral neuropathy, and pancreatitis. Telbivudine, mentioned among the general antivirals, is classified as an NRTI but is indicated only for chronic HBV (and not currently used for HIV).

Tenofovir has a mechanism of action similar to the NRTIs, but because of its chemical structure, it is termed a nucleotide analog reverse transcriptase inhibitor (NtARTI or NtRTI). It also differs because it can have weak effects on some human cell replication enzymes and because it is indicated not only in the treatment of HIV, but also for chronic HBV. Nausea, vomiting, diarrhea, and flatulence are the most frequently experienced adverse events. Lactic acidosis and hepatic steatosis are possible. It may also have effects on bone density and has been associated with kidney damage.

Non-nucleoside reverse transcriptase inhibitors (NNRTIs) bind directly to the HIV-1 enzyme reverse transcriptase, resulting in the blockade of viral protein synthesis. The binding site of NNRTIs is near to but distinct from that affected by NRTIs. Medications in this group include doravirine, efavirenz, etraverine, nevirapine, and rilpivirine. Unlike the NRTI agents, NNRTIs do not require intracellular activation and have little effectiveness against HIV-2. NNRTI resistance occurs rapidly when these drugs are used as monotherapy, so they are usually combined with other agents. Common adverse events are GI distress, elevated liver enzyme levels, skin rash, and occasionally Stevens-Johnson syndrome. They are metabolized by the liver and have many interactions with other medications metabolized in the same way, including anticonvulsants, antifungals, H₂-receptor antagonists, and some antibiotics.

Pre-exposure Prophylaxis

For patients who do not have HIV but may be at high risk for contracting the virus, the use of pre-exposure prophylaxis (PrEP) can be used to reduce the probability of infection. The Centers for Disease Control and Prevention recommends that PrEP be considered in those without HIV who have vaginal or anal sex with a partner who has or may have HIV, those who may share needles or equipment with someone with HIV, and those who have had nonoccupational postexposure prophylaxis (PEP) and continue to engage in high-risk activities. PrEP works by having antiviral medication in the body if and when a person may be exposed to HIV, and helps to halt replication of HIV and stop the virus from spreading. For PrEP it is essential that a person take it every day, otherwise there may not be enough of the medication in their body to prevent the HIV from spreading.³

PrEP involves treatment with a combination of two or more antiviral medications with different mechanisms of action. As of this writing, the preparations approved for this type of therapy are oral fixed-dose combinations of emtricitabine and tenofovir. Emtricitabine with tenofovir alafenamide (Descovy) is approved for PrEP to reduce the risk of sexually acquired HIV infection. Emtricitabine with tenofovir disoproxil fumarate (Truvada) is indicated as PrEP for uninfected patients at high risk for acquiring HIV via sexual exposure.

Postexposure Prophylaxis

Because infection with HIV is potentially fatal and there is currently no vaccine available to prevent it, those who have (or may have) been exposed to the virus should receive therapy to prevent infection. This is known as postexposure prophylaxis (PEP). The type of PEP prescribed usually depends on the nature of the exposure.

Occupational (workplace) exposure to HIV occurs when healthcare workers come in contact with materials (blood or body fluids) via needle stick, in the eyes or mouth, or on damaged skin (cuts, chapping, and dermatitis). Although the risk of actual transmission of the HIV virus by such events is very low, the potential harm is so great that PEP is often offered anyway, unless it can be verified that the potentially infective materials are HIV-free. If the source is unknown and the exposed person chooses, a two-drug regimen (usually a PI and an agent from a different class of antiretrovirals) is continued for 4 weeks. If the source of the exposure is known to be HIV-positive, a three-drug regimen (those from the two-drug plan plus an additional agent) is followed.³

Nonoccupational exposure to HIV can occur from sexual contact (including assault) with infected (or potentially infected) partners, injection drug use, or other contact with body fluids. PEP for individuals with this type of exposure is chosen on a case-by-case basis, but it generally involves a 4-week HAART regimen.³