Coxsackie A virus

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style="background:#Template:Taxobox colour;"|Coxsackie A virus
style="background:#Template:Taxobox colour;" | Virus classification
Group: Group IV ((+)ssRNA)
Family: Picornaviridae
Genus: Enterovirus
Species: Human enterovirus A
Subtype

Coxsackie A virus

Template:Search infobox Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Coxsackie (virus) is a cytolytic virus of the Picornaviridae family, an enterovirus (a group containing the polioviruses, coxsackieviruses, and echoviruses). There are 61 non-polio enteroviruses that can cause disease in humans, of which 23 are Coxsackie A viruses (6 are Coxsackie B viruses). Enterovirus are the second most common viral infectious agents in humans (after the rhinoviruses)

Historical Perspective

The Coxsackie viruses were discovered in 1948-49 by Gilbert Dalldorf, a scientist working at the New York State Department of Health in Albany, New York. Dr. Dalldorf, in collaboration with Grace Sickles, had been searching for a cure for the dreaded disease polio. Earlier work Dalldorf had done in monkeys suggested that fluid collected from a non-polio virus preparation could protect against the crippling effects of polio. Using newborn mice as a vehicle, Dalldorf attempted to isolate such protective viruses from the feces of polio patients. In carrying out these experiments, he discovered viruses that often mimicked mild or nonparalytic polio. The virus family he discovered was eventually given the name Coxsackie, for the town of Coxsackie, New York, a small town on the Hudson River where Dalldorf had obtained the first fecal specimens.

The Coxsackie viruses subsequently were found to cause a variety of infections, including epidemic pleurodynia (Bornholm disease), and were subdivided into groups A and B based on their pathology in newborn mice. (Coxsackie A virus causes paralysis and death of the mice, with extensive skeletal muscle necrosis; Coxsackie B causes less severe infection in the mice, but with damage to more organ systems, such as heart, brain, liver, pancreas, and skeletal muscles.)

The use of suckling mice was not Dalldorf's idea, but was brought to his attention in a paper written by Danish scientists Orskov and Andersen in 1947, who were using such mice to study a mouse virus. The discovery of the Coxsackie viruses stimulated many virologists to use this system and ultimately resulted in the isolation of a large number of so-called enteric viruses from the gastrointestinal tract that were unrelated to poliovirus, and some of which were oncogenic (cancer-causing).

The discovery of the Coxsackie viruses yielded further evidence that viruses can sometimes interfere with each other's growth and replication within a host animal. Other researchers found that this interference can be mediated by a substance produced by the host animal, a protein now known as interferon. Interferon has since become prominent in the treatment of a variety of cancers and infectious diseases.

Lately, in the media, there have been many cases of children dying in third world countries from Hand Foot and Mouth disease. Even in the US there have been cases of children dying from this.

Selected papers:

  • 1948 An unidentified, filtrable agent isolated from the feces of children with paralysis. Science 108:61-62.
  • 1949 A virus recovered from the feces of "poliomyelitis" patients pathogenic for suckling mice. J. Exp. Med. 89:567-82. With G. M. Sickles. Serologic differences among strains of the Coxsackie group of viruses. Proc. Soc. Exp. Biol. Med. 72:30-31. The Coxsackie group of viruses. Science 110:594.
  • 1951 With R. Gifford. Clinical and epidemiologic observations of Coxsackie virus infection. N. Engl. J. Med. 244:868-73. The sparing effect of Coxsackie virus infection on experimental poliomyelitis. J. Exp. Med. 94:65-71.
  • 1952 With R. Gifford. Adaptation of group B Coxsackie virus to adult mouse pancreas. J. Exp. Med. 96:491-97.
  • 1954 With R. Gifford. Susceptibility of gravid mice to Coxsackie virus infection. J. Exp. Med. 99:21-27.
  • 1955 With R. Gifford. The recognition of mouse ectromelia. Proc. Soc. Exp. Biol. Med. 88:290-92. With R. Albrecht. Chronologic association of poliomyelitis and Coxsackie virus infections. Proc. Natl. Acad. Sci. USA 41:978-82.
  • 1956 With S. Kelly. Antigenic potency of poliovirus vaccines. Am. J. Hyg. 64:243-58.
  • 1957 The neuropathogenicity of group A Coxsackie viruses. J. Exp. Med. 106:69-76.

Diseases

The most well known Coxsackie A disease is hand, foot and mouth disease (unrelated to foot and mouth disease), a common childhood illness, often produced by Coxsackie A16. In most cases infection is asymptomatic or causes only mild symptoms. In others, infection produces short-lived (7-10 days) fever and painful blisters in the mouth (a condition known as herpangina), on the palms and fingers of the hand, or on the soles of the feet. There can also be blisters in the throat, or on or above the tonsils. Adults can also be affected. The rash, which can appear several days after high temperature and painful sore throat, can be itchy and painful, especially on the hands/fingers and bottom of feet.

Other diseases include acute hemorrhagic conjunctivitis (A24 specifically), herpangina, and aseptic meningitis (both Coxsackie A and B viruses).

Coxsackie B viruses also cause infectious myocarditis, infectious pericarditis, and pleurodynia.

Differentiating Coxsackie A virus disease from other diseases

Different rash-like conditions may be misdiagnosed with the rash of Coxsackie A virus, including:[1]

  • Monkeypox - presentation is similar to smallpox, although it is often a milder form, with fever, headache, myalgia, back pain, swollen lymph nodes, a general feeling of discomfort, and exhaustion. Within 1 to 3 days (sometimes longer) after the appearance of fever, the patient develops a papular rash, often first on the face. The lesions usually develop through several stages before crusting and falling off.
  • Molluscum contagiosum - lesions are commonly flesh-colored, dome-shaped, and pearly in appearance. They are often 1-5 millimeters in diameter, with a dimpled center. Generally not painful, but they may itch or become irritated. Picking or scratching the lesions may lead to further infection or scarring. In about 10% of the cases, eczema develops around the lesions. They may occasionally be complicated by secondary bacterial infections.
  • Parvovirus B19 - the rash of fifth disease is typically described as "slapped cheeks," with erythema across the cheeks and sparing the nasolabial folds, forehead, and mouth.
  • Stevens-Johnson syndrome - symptoms may include fever, sore throat and fatigue. Commonly presents ulcers and other lesions in the mucous membranes, almost always in the mouth and lips but also in the genital and anal regions. Those in the mouth are usually extremely painful and reduce the patient's ability to eat or drink. Conjunctivitis of the eyes occurs in about 30% of children. A rash of round lesions about an inch across, may arise on the face, trunk, arms and legs, and soles of the feet, but usually not on the scalp.
  • Varicella-zoster virus - commonly starts as a painful rash on one side of the face or body. The rash forms blisters that typically scab over in 7-10 days and clears up within 2-4 weeks.
  • Chickenpox - commonly starts with conjunctival and catarrhal symptoms and then characteristic spots appearing in two or three waves, mainly on the body and head, rather than the hands, becoming itchy raw pox (small open sores which heal mostly without scarring). Touching the fluid from a chickenpox blister can also spread the disease.
  • Impetigo - commonly presents with pimple-like lesions surrounded by erythematous skin. Lesions are pustules, filled with pus, which then break down over 4-6 days and form a thick crust. It's often associated with insect bites, cuts, and other forms of trauma to the skin.

Treatment

Treatment is dependent on the disease process initiated by the virus.

Related Chapters

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References

  1. Moore, Zack S; Seward, Jane F; Lane, J Michael (2006). "Smallpox". The Lancet. 367 (9508): 425–435. doi:10.1016/S0140-6736(06)68143-9. ISSN 0140-6736.