Human Biologists in the Archives Demography, Health, Nutrition and Genetics in Historical Populations
Book contents
- Frontmatter
- Contents
- Contributors
- Foreword by Sydel Silverman and Michael A. Little
- Acknowledgements
- 1 Human biologists in the archives: demography, health, nutrition and genetics in historical populations
- 2 The use of archives in the study of microevolution: changing demography and epidemiology in Escazú, Costa Rica
- 3 Anthropometric data and population history
- 4 For everything there is a season: Chumash Indian births, marriages, and deaths at the Alta California missions
- 5 Children of the poor: infant mortality in the Erie County Almshouse during the mid nineteenth century
- 6 Worked to the bone: the biomechanical consequences of ‘labor therapy’ at a nineteenth century asylum
- 7 Monitored growth: anthropometrics and health history records at a private New England middle school, 1935–1960
- 8 Scarlet fever epidemics of the nineteenth century: a case of evolved pathogenic virulence?
- 9 The ecology of a health crisis: Gibraltar and the 1865 cholera epidemic
- 10 War and population composition in Åland, Finland
- 11 Infectious diseases in the historical archives: a modeling approach
- 12 Where were the women?
- 13 Malnutrition among northern peoples of Canada in the 1940s: an ecological and economic disaster
- 14 Archival research in physical anthropology
- Index
- References
8 - Scarlet fever epidemics of the nineteenth century: a case of evolved pathogenic virulence?
Published online by Cambridge University Press: 12 August 2009
Book contents
- Frontmatter
- Contents
- Contributors
- Foreword by Sydel Silverman and Michael A. Little
- Acknowledgements
- 1 Human biologists in the archives: demography, health, nutrition and genetics in historical populations
- 2 The use of archives in the study of microevolution: changing demography and epidemiology in Escazú, Costa Rica
- 3 Anthropometric data and population history
- 4 For everything there is a season: Chumash Indian births, marriages, and deaths at the Alta California missions
- 5 Children of the poor: infant mortality in the Erie County Almshouse during the mid nineteenth century
- 6 Worked to the bone: the biomechanical consequences of ‘labor therapy’ at a nineteenth century asylum
- 7 Monitored growth: anthropometrics and health history records at a private New England middle school, 1935–1960
- 8 Scarlet fever epidemics of the nineteenth century: a case of evolved pathogenic virulence?
- 9 The ecology of a health crisis: Gibraltar and the 1865 cholera epidemic
- 10 War and population composition in Åland, Finland
- 11 Infectious diseases in the historical archives: a modeling approach
- 12 Where were the women?
- 13 Malnutrition among northern peoples of Canada in the 1940s: an ecological and economic disaster
- 14 Archival research in physical anthropology
- Index
- References
Summary
Introduction
Between approximately 1820 and 1880 there was a world pandemic of scarlet fever and several severe epidemics occurred in Europe and North America. It was also during this time that most physicians and those attending the sick were becoming well attuned to the diagnosis of scarlet fever, or scarlatina. They could differentiate the disease from diphtheria by the presence of the characteristic rash, or ‘exanthem,’ that accompanied the sore throat, fever, inflammation of lymph nodes and abscessing of the throat and tonsils.
Streptococci bacteria were probably first isolated by the Viennese surgeon Theodor Billroth in 1874, but the association of hemolytic streptococci with scarlet fever was not demonstrated until 1884, and the specifics not outlined until 1924 by George and Gladys Dick (Dowling 1977). Once there is the onset of symptoms such as sore throat and fever the course of the infection can progress very quickly and children in the nineteenth century epidemics were known to succumb within as few as 48 hours in some cases. Streptococci may be contracted through human contact, airborne droplets, or ingestion. A common source of the bacteria in historical outbreaks was unpasteurized milk handled by infected dairy workers.
When an outbreak occurs, symptoms can vary widely within the population, or even within the same family – ranging from asymptomatic individual carriers to acute rheumatic fever and severe tissue infections. For common strains the highest risk is for young children.
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- Human Biologists in the ArchivesDemography, Health, Nutrition and Genetics in Historical Populations, pp. 159 - 177Publisher: Cambridge University PressPrint publication year: 2002
References
Bynum, W. F. (1994). Science and the Practice of Medicine in the Nineteenth Century. Cambridge: Cambridge University Press
Centers for Disease Control and Prevention (1999). Summary of Notifiable Diseases, United States, 1998. Morbidity and Mortality Weekly Report 47(53), 1–93
, , and (1992). Invasive streptococcus pyogenes infections in children. Canadian Journal of Public Health 83(3), 230–3Google ScholarPubMed
, , , , , and (1992). Clonal basis for resurgence of serious Streptococcus pyogenes disease in the 1980s. Lancet 339, 518–21CrossRefGoogle ScholarPubMed
, , and (1993). The serotypes of Streptococcus pyogenes present in Britain during 1980–1990 and their association with disease. Journal of Medical Microbiology 39(3), 165–78CrossRefGoogle ScholarPubMed
Dame, Lawrence, M. D. (no date). Biographical papers on the doctors of Franklin County Massachusetts. Pocumtuck Valley Memorial Association Library, Deerfield, MA
Dowling, H. F. (1977). Fighting Infection: Conquests of the Twentieth Century. Cambridge, MA: Harvard University Press
Dubos, R. (1980). Man Adapting. New Haven, CT: Yale University Press
, and (1996). The dynamics of scarlet fever epidemics in England and Wales in the 19th century. Epidemiology of Infectious Disease 117, 493–9CrossRefGoogle ScholarPubMed
(2000). Group A streptococci in the 1990's. Journal of Antimicrobial Chemotherapy 45(Suppl.), 3–12CrossRefGoogle Scholar
F. M. S. (no date). Records of the Franklin District Medical Society, 1851–1923. Transcripts of Dr. Lawrence Dame. Pocumtuck Valley Memorial Association Library, Deerfield, MA
, and (2000). Micronutrients and infection: interactions and implications with enteric and other infections and future priorities. Journal of Infectious Diseases 182 (Suppl. 1), S134–8CrossRefGoogle ScholarPubMed
, , , , and (1995). Epidemic streptococcal disease among Army trainees, July 1989 through June 1991. Journal of Infectious Disease 172(1), 124–31CrossRefGoogle ScholarPubMed
Hall, W. W. (1872). Health at Home, or Hall's Family Doctor. Hartford: S. M. Betts Company
Hardy, A. (1993). The Epidemic Streets: Infectious Disease and the Rise of Preventive Medicine, 1856–1900. Oxford: Clarendon
and (1992). Severe streptococcal infections in historical perspective. Clinical Infectious Disease 14(1), 298–307CrossRefGoogle ScholarPubMed
King, S. E. and Ulijaszek, S. J. (1999). Invisible insults during growth and development: contemporary theories and past populations. In Human Growth in the Past: Studies from Bones and Teeth, ed. R. D. Hoppa and C. M. Fitzgerald, pp. 161–82. Cambridge: Cambridge University Press
Luckin, B., (2000). Review of S. Scott and C. Duncan (eds) Human demography and disease. Medical History44(3), 426–48
McGowan, S. and Miller, M. (1996). Family & Landscape: Deerfield Homelots from 1671. Deerfield, MA: Pocumtuck Valley Memorial Association
McKeown, T. (1976). The Modern Rise of Population. New York: Academic Press
and (1967). Reasons for the decline of mortality in England and Wales during the 19th century. Population Studies 16, 94–122CrossRefGoogle Scholar
Mooney, G., (2000). Review of S. Scott and C. Duncan (eds) Human demography and disease. Cambridge, Cambridge University Press. Progress in Human Geography24(3), 515–16
, , , , , and (1993). Temporal variation in bacterial disease frequency: molecular population genetic analysis of scarlet fever epidemics in Ottawa and Eastern Germany. Journal of Infectious Diseases 167, 759–62CrossRefGoogle ScholarPubMed
(1995). Invasive streptococci. European Journal of Clinical Microbiological Infectious Disease 14 (Suppl.), S26–S32Google ScholarPubMed
(1992). Invasive group A streptococcus infections. Clinical Infectious Disease 14(1), 2–11CrossRefGoogle ScholarPubMed
, , , , , and (1989). Severe Group A streptococcal infections associated with a toxic-shock-like syndrome and scarlet fever toxin A. New England Journal of Medicine 321(1), 1–7CrossRefGoogle ScholarPubMed
(1988). Changing group A streptococci: the reappearance of streptococcal ‘toxic shock’. Archives of Internal Medicine 148, 1268–70CrossRefGoogle Scholar
Svanborg-Eden, C. and Levin, B. R. (1990). Infectious disease and natural selection in human populations: A critical examination. In Disease in Populations in Transition, ed. A. C. Swedlund and G. J. Armelagos, pp. 41–6. Westport, CT: Bergin and Garvey
Swedlund, A. C. (1990). Infant mortality in Massachusetts and the United States in the nineteenth century. In Disease in Populations in Transition, ed. A. C. Swedlund and G. J. Armelagos, pp. 161–82. Westport, CT: Bergin and Garvey
, and (1976). Population studies in the Connecticut Valley: Prospectus. Journal of Human Evolution 5, 75–93CrossRefGoogle Scholar
(1988). The importance of social intervention in Britain's mortality decline c. 1850–1914: a re-interpretation of the role of public health. Social History of Medicine 1, 1–37CrossRefGoogle Scholar
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