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Aids-Associated Viral Infections

Published online by Cambridge University Press:  02 July 2020

Sara E. Miller*
Affiliation:
Departments of Microbiology and Pathology, Duke Medical Center, Durham, NC27710
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Extract

Infection with human immunodeficiency virus (HIV) eventually causes a profound decrease in the body's ability to eradicate or control infections with microorganisms, including viruses. Some infections in AIDS patients are due to common organisms which are of little significance in immunocompetent individuals. Other organisms can be harbored continuously, occasionally causing disease, but normally being suppressed after a heightened immune defense; in AIDS patients, these infections can be life-threatening. Further, practices that predispose to HIV infection also permit entry of other organisms, such as hepatitis and herpesviruses. Electron microscopy is beneficial as an adjunct to other modalities for viral detection. Methods for identifying viruses, both in fluids by negative staining and in tissues by thin sectioning, have been published. Some viral pathogens, including HIV itself, are best documented by other means.

HIV has been demonstrated by EM in infected individuals, but because it destroys and makes scarce the cells for which it has an affinity, it is difficult to find them.

Type
Pathology of Aids and Related Conditions
Copyright
Copyright © Microscopy Society of America

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References

1.Cavert, W.. Med. Clin. North America 81 (1997)411.CrossRefGoogle Scholar
2.Miller, S. E. and Howell, D. N.. J. Electron Microsc. Tech. 8(1988)41.CrossRefGoogle Scholar
3.Orenstein, J. M.. Ultrastruct. Pathol. 16(1992)179.CrossRefGoogle Scholar
3.Hayat, M. A. and , S. E.. Negative Staining: Applications and Methods. New York, McGraw-Hill (1990).Google Scholar
4.Doane, F. W. and Anderson, N.. Electron Microscopy in Diagnostic Virology. A Practical Guide and Atlas. New York, Cambridge University Press (1987).Google Scholar
5.Miller, S. E.. J. Electron Microsc. Tech. 4(1986)265.CrossRefGoogle Scholar
6.Palmer, E. L. and Martin, M. L.. Electron Microscopy in Viral Diagnosis. Boca Raton, FL, CRC Press (1988).Google Scholar
7.Hsiung, G. D., Green, R. H., eds. Section H: Virology and Rickettsiology. in D. Seligson, ed. Handbook Series in Clinical Laboratory Science, Vol. 1, Parts 1 and 2. West Palm Beach, FL, CRC Press (1978).Google Scholar
8.Hsiung, G. D.. Diagnostic Virology Illustrated by Light and Electron Microscopy. New Haven, CT, Yale University Press (1982).Google Scholar
9.Miller, S. E., in Lennette, E. H., Lennette, D. A. and Lennette, E. T., eds. Diagnostic Procedures for Viral, Rickettsial and Chlamydial Infections, Washington, D. C, American Public Health Assoc. (1995)35.Google Scholar