179 Rabies
• Prevention of rabies through postexposure prophylaxis is the main treatment and the only one proven to be beneficial.
• Once signs or symptoms of rabies manifest, the disease is nearly 100% fatal.
• The postexposure prophylaxis regimen recommended by the World Health Organization should not be modified in any way.
• Initiate prophylaxis for any high-risk exposure, even if the wound is healed and the event is remote.
• Treatment of symptomatic rabies is experimental and requires consultation with the health department, the Centers for Disease Control and Prevention, or an infectious disease specialist. It should not begin in the emergency department.
Perspective
Rabies in humans remains rare in the United States. Only 36 cases were reported in the United States in the 20 years from 1980 to 2000,1,2 but rabies exposures in the United States require that approximately 40,000 people receive postexposure prophylaxis annually.3 Human rabies cases in the United States continue to occur, with 2 cases detected in 2008, 4 in 2009, and 1 in 2010.4 International travelers are at increased risk of exposure to rabies and may return to the United States to receive postexposure prophylaxis or rabies treatment. Rabies is a fatal disease.1,2,5,6 Only 6 people are known to have survived the disease.7–13 The low rate of occurrence of the disease challenges physicians to consider this in the differential diagnosis of encephalitides.
Postexposure prophylaxis, if started before clinical signs of rabies develop, is highly effective. With strict adherence to protocol, including wound care, passive immunization, and vaccination with a cell culture vaccine, postexposure prophylaxis prevents rabies.2,14–16 Emergency physicians (EPs) should know when to begin rabies postexposure prophylaxis, when to delay it, and when postexposure prophylaxis is not indicated, and they should also know state and local resources for rabies information.
Anatomy
Rabies is transmitted when saliva or neural tissue from an infected host contacts open wounds or mucous membranes of a recipient. This transmission can occur through bites, aerosolized tissue, or tissue transplantation. Rabies virus is not transmitted by blood, feces, or urine. Rabies is not transmitted across intact skin.2
Once the virus is in a new host, it performs one of two actions. Some virus replicates at the site of the bite in non-nerve tissue. The virus then enters peripheral nerves and travels to the central nervous system (CNS). Some virus does not replicate at the site, but rather immediately enters the peripheral motor and sensory nerves for transport to the CNS. During this time, the virus is in an eclipse phase, and it is difficult to detect with diagnostic tests.17 The virus travels at speeds of 15 to 100 mm/day by retrograde axoplasmic flow.6 When the virus enters the CNS, the incubation time ends. Incubation times range from 2 weeks to several years, and the average is 2 to 3 months.6,17 Once in the CNS, the virus replicates and spreads by cell-to-cell transfer. The virus then travels by anterograde axoplasmic flow to nervous and non-nervous tissue. At the onset of clinical symptoms, the virus is disseminated throughout the body.
Pathophysiology
The virus causes inflammation in the CNS, both encephalitis and myelitis. Perivascular lymphocytic infiltration occurs with lymphocytes, polymorphonuclear leukocytes, and plasma cells. Cytoplasmic eosinophilic inclusion regions (Negri bodies) in neuronal cells are associated with rabies, but they are not sensitive or specific for the diagnosis of rabies.17 Viral replication in dorsal root ganglia causes ganglionitis, and it is responsible for the first clinical symptoms of the disease.5
Clinical Presentation
The first clinical symptoms of rabies are neuropathic pain, paresthesias, or pruritus at the inoculation site. These symptoms were present in 61% of cases in the United States.5,18 A prodromal, flulike illness may mark the onset of clinical rabies. Brain involvement causes encephalitis, manifesting as delirium with periods of lucidity. Two major clinical forms of the disease exist: furious and paralytic.
Paralytic rabies results in quadriplegia.19 It is more common after the bite of a vampire bat in South America. Peripheral neuropathy is responsible for the paralysis in paralytic rabies. Because peripheral nerves are involved, patients lose deep tendon reflexes. The paralysis occurs in an ascending pattern and is associated with pain and fasciculations. The anal sphincter is involved in the quadriplegia.6 Death results from paralysis of bulbar and respiratory muscles.
Variations
Consider rabies in patients with a clinical presentation of encephalitis.20 Atypical presentation of disease is increasingly acknowledged, but it remains poorly described in the literature. Atypical presentations make the suspicion of rabies very difficult, especially if a clear history of rabies exposure is not presented.
Differential Diagnosis
The furious form of rabies is rapidly progressive and is fatal in 1 to 5 days (Table 179.1). The paralytic form of rabies is more slowly progressive, and patients live for up to a month. However, clinical rabies is considered a fatal disease regardless of the clinical manifestation.
MOST THREATENING FURIOUS RABIES | MOST COMMON PARALYTIC RABIES |
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Diagnostic Testing
In the early stage of the disease, tests may show negative results.6 The “gold standard” for the diagnosis of rabies is direct fluorescent antibody testing of the brain. Brain biopsy exclusively for the diagnosis of rabies is discouraged.21,22
Multiple testing techniques exist for the diagnosis of rabies during life. Discuss with the pathologist the preferred sample at your institution. Serum, saliva, and skin samples are commonly used, whereas cerebrospinal fluid, urine, and lacrimal fluid are occasionally tested.6,23 Do not withhold empiric antirabies therapy to obtain diagnostic studies.
Documentation
Rabies Exposure
Patient Instructions
Documentation of discussion with patient regarding need for multiple vaccinations, if PEP initiated
Documentation of discussion with patient regarding need to stay in contact with animal control for animal undergoing observation or for euthanized animal
CDC, Centers for Disease Control and Prevention; PEP, postexposure prophylaxis.
Rabies Transmission
Tips and Tricks
Zoonotic Rabies Reservoirs
Continent or Geographic Region | Primary Animal Reservoir |
---|---|
Africa | Dog, mongoose, antelope |
Asia | Dog |
Europe | Fox, bat |
Middle East | Wolf, dog |
North America | Fox, skunk, raccoon, bat (insectivorous) |
South America | Dog, vampire bat |
To assess the likelihood of rabies exposure, it is helpful to know the distribution of rabid animals in the area. The local or state health department can provide information about rabies prevalence and animal vectors. A list of state health department contact numbers is available through the Centers for Disease Control and Prevention (CDC) at http://www.cdc.gov/ncidod/dvrd/rabies/Links/Links.htm