Subacute sclerosing panencephalitis

doi:10.1017/CBO9780511541728.005

2 - Subacute sclerosing panencephalitis

from Section I - Introduction: RNA viruses

Published online by Cambridge University Press: 22 August 2009

James F. Bale Jr and

Robert S. Fujinami

Edited by

Carol Shoshkes Reiss

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James F. Bale Jr: Affiliation:
Departments of Pediatrics and Neurology, University of Utah School of Medicine, Salt Lake City, UT, USA
Robert S. Fujinami: Affiliation:
Department of Pathology, University of Utah School of Medicine, Salt Lake City, UT, USA
Carol Shoshkes Reiss: Affiliation:
New York University

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Summary

Introduction

Although vaccinations against the measles virus have nearly eliminated subacute sclerosing panencephalitis (SSPE) and other measles virus-induced neurologic disorders in countries with compulsory immunization programs, SSPE remains a rare, fatal neurodegenerative disorder in many regions of the world. This chapter summarizes current information regarding the epidemiology, virology, clinical manifestations, diagnosis, and management of SSPE.

Epidemiology

Measles

Due to the relatedness (sequence homology) of measles virus with rinderpest virus [1], whose natural hosts are cattle, goats, sheep, antelopes, and other cloven-hoofed animals, some hypothesize that the measles virus originated from the rinderpest virus or a common predecessor. As humans first domesticated such animals in the Fertile Crescent of the Middle East, they would have been in close contact with rinderpest virus [2]. Many morbilliviruses – of which measles and rinderpest viruses are members – can cross species. Recent examples of this phenomenon are the Nipah and Hendra viruses; their natural host is the fruit bat, but both viruses can also infect pigs and humans [3, 4].

Although incursions of the measles virus or a measles-like virus into human populations likely occurred with regularity in ancient times, measles did not emerge as a human disease entity until urban areas of several hundred thousand came into existence about 2500 years ago [5]. Measles virus entered human populations quickly; the virus genome stabilized, and measles virus adapted to replicating efficiently in human cells and transmitting among humans [6]. Measles was appreciated as a disease distinct from smallpox around the tenth century [7].

Type: Chapter
Information: Neurotropic Viral Infections , pp. 26 - 34

DOI: https://doi.org/10.1017/CBO9780511541728.005 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2008

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References

Baron, M.D. and Barrett, T., Vet Microbiol, 44 (1995) 175–85.CrossRef

Barrett, T., Biochem Soc Symp, 53 (1987) 25–37.

Eaton, B.T., Broder, C.C., and Wang, L.F., Curr Mol Med, 5 (2005) 805–16.CrossRef

Epstein, J.H., Field, H.E., Luby, S., et al., Curr Infect Dis Rep, 8 (2006) 59–65.CrossRef

Black, F.L., J Theor Biol, 11 (1966) 207–11.CrossRef

Schrag, S.J., Rota, P.A., and Bellini, W.J., J Virol, 73 (1999) 51–4.

AI-Razi (Rhazes). A Treatise on the Smallpox and Measles by Abu Becr Mohammed ibn Zacariya ar-Razi (commonly called Rhazes). Trans. from original Arabic by Greenhill, W.A.. London: Sydenham Society, 1848. Reprinted in Medical Classics, 4 (1939) 22–84.Google Scholar

Johnson, R.T., Viral infections of the nervous system, 2nd ed., Lippincott-Raven, New York, 1998.Google Scholar

American Academy of Pediatrics, Measles. In Pickering, L.K., Baker, C.J., Long, S.S., McMillian, J.A. (Eds.), Red Book: 2006 Report of the Committee on Infectious Diseases, 27th ed., American Academy of Pediatrics, Elk Grove Village, IL, 2006, pp. 441–52.Google Scholar

http://www.deephawaii.com/hawaiianhistory.htm.

http://www.cdc.gov/nip/diseases/measles/history.htm.

Centers for Disease Control and Prevention, MMWR Morb Mortal Wkly Rep, 40 (1991), 36–9.

Centers for Disease Control and Prevention, MMWR Wkly, 55 (2006), 1348–51.

Centers for Disease Control and Prevention, MMWR Wkly, 55 (2006) 247–9.

Gaafar, T., Moshni, E., and Lievano, F., J Infect Dis, 187(suppl 1) (2003) s164–71.CrossRef

Modlin, J.F., Halsey, N.A., Eddins, D.L., et al., J Pediatr, 94 (1979) 231–6.CrossRef

Dyken, P.R., Cunningham, S.C., and Ward, L.C., Pediatr Neurol, 5 (1989) 339–41.CrossRef

Zilber, N., Rannon, L., Alter, M., et al., Neurology, 33 (1983) 1558–64.

Singer, C., Lang, A.E., and Suchowersky, O., Mov Disord, 12 (1977) 342–53.CrossRef

Jabbour, J.T., Duenas, D.A., Sever, J.L., et al., JAMA, 220 (1972) 959–62.CrossRef

Anlar, B., Köse, G., Gürer, Y., et al., Infection, 29 (2001) 192–5.CrossRef

Honarmand, S., Glaser, C.A., Chow, E., et al., Neurology, 63 (2004) 1489–93.CrossRef

Centers for Disease Control and Prevention, MMWR Wkly, 55 (2006) 1124–6.

Gascon, G.G., Semin Pediatr Neurol, 3 (1996) 260–9.CrossRef

Horta-Barbosa, L., Fuccillo, D.A., Sever, J.L., et al., Nature, 221 (1969) 274–7.CrossRef

Payne, F.E., Baublis, J.V., and Itabashi, H.H., N Engl J Med, 281 (1969) 585–9.CrossRef

Zeman, W. and Kolar, O., Neurology, 18 (1968) 1–7.CrossRef

Enders, J.F. and Peebles, T.C., Proc Soc Exp Biol Med, 86 (1954) 277–86.CrossRef

Yanagi, Y., Takeda, M., and Ohno, S., J Gen Virol, 87 (2006) 2767–79.CrossRef

Ayata, M., Hirano, A., and Wong, T.C., J Virol, 63 (1989) 1162–73.

Baczko, K., Carter, M.J., Billeter, M., et al., Virus Res, 1 (1984) 585–95.CrossRef

Baczko, K., Liebert, U.G., Billeter, M., et al., J Virol, 59 (1986) 472–8.

Baczko, K., Liebert, U.G., Cattaneo, R., et al., J Infect Dis, 158 (1988) 144–50.CrossRef

Cattaneo, R., Schmid, A., Rebmann, G., et al., Virology, 154 (1986) 97–107.CrossRef

Cattaneo, R., Schmid, A., Billeter, M.A., et al., J Virol, 62 (1988) 1388–97.

Cattaneo, R., Schmid, A., Eschle, D., et al., Cell, 55 (1988) 255–65.CrossRef

Cattaneo, R., Schmid, A., Spielhofer, P., et al., Virology, 173 (1989) 415–25.CrossRef

Wong, T.C., Ayata, M., Hirano, A., et al., J Virol, 63 (1989) 5464–8.

Yoshikawa, Y., Tsuruoka, H., Matsumoto, M., et al., Virus Genes, 4 (1990) 151–61.CrossRef

Baczko, K., Lampe, J., Liebert, U.G., et al., Virology, 197 (1993) 188–95.CrossRef

Lawrence, D.M.P., Patterson, C.E., Gales, T.L., et al., J Virol, 74 (2000) 1908–18.CrossRef

Hall, W.W., Lamb, R.A., and Choppin, P.W., Proc Natl Acad Sci USA, 76 (1979) 2047–51.CrossRef

Stephenson, J.R. and Meulen, V., Proc Natl Acad Sci USA, 76 (1979) 6601–5.CrossRef

Mehta, N.G., Med Hypotheses, 8 (1982) 423–5.CrossRef

Mehta, P.D., Patrick, B.A., Thormar, H., et al., J Immunol, 129 (1982) 1983–5.

Dhib-Jalbut, S.S., Jacobson, S., McFarlin, D.E., et al., Ann Neurol, 25 (1989) 272–80.CrossRef

Aysun, S., Sanal, O., Renda, Y., et al., Brain Dev, 6 (1984) 391–6.CrossRef

Derakhshan, I., Massoud, A., Foroozanfar, N., et al., Neurology, 31 (1981) 177–8.CrossRef

Handzel, Z.T., Gadoth, N., Idar, D., et al., Brain Dev, 5 (1983) 29–35.CrossRef

Kreth, W.H., Kackell, M.Y., and Meulen, V., J Immunol, 114 (1975) 1042–6.

Livni, E., Kott, E., Danon, Y., et al., Isr J Med Sci, 12 (1976) 1183–8.

Valdimarsson, H., Agnarsdottir, G., and Lachmann, P.J., Proc R Soc Med, 67 (1974) 1125–9.

Yentür, S.P., Gürses, C., Demirbilek, V., et al., J Neuroimmunol, 170 (2005) 179–85.CrossRef

Wrzos, H., Kulczycki, J., Laskowski, Z., et al., Arch Virol, 60 (1979) 291–7.CrossRef

Phillips, C.F., Measles. In Behrman, R.E., Vaughan, V.C. III, Nelson, W.E. (Eds.), Nelson pediatrics, 13th ed., W.B. Saunders Co., Philadelphia, 1987.Google Scholar

Bale, J.F. Jr., In Swaiman, K.F., Ashwal, S.A., Ferriero, D.M. (Eds.), The practice of pediatric neurology, 5th ed., 2005.

Murphy, J.V. and Yunis, E.J., J Pediatr, 88 (1976) 937–942.CrossRef

Mustafa, M.M., Weitman, S.D., Winick, N.J., et al., Clin Infect Dis, 16 (1993) 654–60.CrossRef

Freeman, A.F., Jacobsohn, D.A., Shulman, S.T., et al., Pediatrics, 114 (2004) e657–60.CrossRef

Dyken, P.R., Neurol Clin, 3 (1985) 179–96.

Godec, M.S., Asher, D.M., Swoveland, P.T., et al., J Med Virol, 30 (1990) 237–44.CrossRef

Nakayama, T., Morit, T., Yamaguchi, S., et al., Virus Res, 35 (1995) 1–16.CrossRef

Haddad, F.S., Risk, W.S., and Jabbour, J.T., Ann Neurol, 3 (1977) 211.CrossRef

Nunes, M.L., Costa, Da J.C., Stancher, V.M., et al., Arq Neuropsiquiatr, 57 (1999) 176–81.CrossRef

Piana, F.G., Tso, M.O., and Jenis, E.H., Ann Ophthalmol, 6 (1974) 603–10.

Silva, C.A., Paula-Barbosa, M.M., Pereira, S., et al., Arch Neurol, 38 (1981) 109–13.CrossRef

Jabbour, J.T., Duenas, D.A., and Modlin, J., Arch Neurol, 32 (1975) 493–4.

Aydin, Ö.F., Şenbil, N., Kuyucu, N., et al., J Child Neurol, 18 (2003) 104–8.CrossRef

Risk, W.S. and Haddad, F.S., Arch Neurol, 36 (1979) 610–14.CrossRef

Krawiecki, N.S., Dyken, P.R., Gammal, T.E., et al., Ann Neurol, 15 (1984) 489–93.CrossRef

Lum, G.B., Williams, J.P., Dyken, P.R., et al., Pediatr Neurol, 2 (1986) 75–9.CrossRef

Anlar, B., Saatçi, I., Köse, G., et al., Neurology, 47 (1996) 1278–83.CrossRef

Kato, Z., Saito, K., Yamada, M., et al., J Child Neurol, 17 (2002) 788–90.CrossRef

Huttenlocher, P.R. and Mattson, R.H., Neurology, 29 (1979) 764–71.CrossRef

Ginsberg, T. and Glasky, A.J., Ann NY Acad Sci, 284 (1977) 128–38.CrossRef

Jones, C.E., Huttenlocher, P.R., Dyken, P.R., et al., Lancet, May (1982) 1034–6.CrossRef

Fukuyama, Y., Nihei, K., Matsumoto, S., et al., Brain Dev, 9 (1987) 270–82.CrossRef

Anlar, B., Yalaz, K., Köse, G., et al., J Child Neurol, 13 (1998) 557–9.CrossRef

Solomon, T., Hart, C.A., Vinjamurin, S., et al., J Child Neurol, 17 (2002) 703–5.CrossRef

Gascon, G., Yamani, S., Crowell, J., et al., Brain Dev, 15 (1994) 346–55.CrossRef

Gascon, G.G. and the International Consortium on Subacute Sclerosing Panencephalitis, J Child Neurol, 18 (2003) 819–27.CrossRef