BACKGROUND: Acute rheumatic fever is a major cause of heart disease in Aboriginal Australians. The epidemiology differs from that observed in regions with temperate climates; streptococcal pharyngitis is reportedly rare, and pyoderma is highly prevalent. A link between pyoderma and acute rheumatic fever has been proposed but is yet to be proven. Group C beta-hemolytic streptococci and group G beta-hemolytic streptococci have also been also implicated in the pathogenesis. METHODS: Monthly, prospective surveillance of selected households was conducted in 3 remote Aboriginal communities. People were questioned about sore throat and pyoderma; swab specimens were obtained from all throats and any pyoderma lesions. Household population density was determined. RESULTS: From data collected during 531 household visits, the childhood incidence of sore throat was calculated to be 8 cases per 100 person-years, with no cases of symptomatic group A beta-hemolytic streptococci pharyngitis. The median point prevalence for throat carriage was 3.7% for group A beta-hemolytic streptococci, 0.7% for group C beta-hemolytic streptococci, and 5.1% for group G beta-hemolytic streptococci. Group A beta-hemolytic streptococci were recovered from the throats of 19.5% of children at some time during the study. There was no seasonal trend or correlation with overcrowding. Almost 40% of children had pyoderma at least once, and the prevalence was greatest during the dry season. In community 1, the prevalence of pyoderma correlated with household crowding. Group C and G beta-hemolytic streptococci were rarely recovered from pyoderma lesions. CONCLUSIONS: These data are consistent with the hypothesis that recurrent skin infections immunize against throat colonization and infection. High rates of acute rheumatic fever were not driven by symptomatic group A beta-hemolytic streptococci throat infection. Group G and C beta-hemolytic streptococci were found in the throat but rarely in pyoderma lesions.
BACKGROUND:Acute rheumatic fever is a major cause of heart disease in Aboriginal Australians. The epidemiology differs from that observed in regions with temperate climates; streptococcal pharyngitis is reportedly rare, and pyoderma is highly prevalent. A link between pyoderma and acute rheumatic fever has been proposed but is yet to be proven. Group C beta-hemolytic streptococci and group G beta-hemolytic streptococci have also been also implicated in the pathogenesis. METHODS: Monthly, prospective surveillance of selected households was conducted in 3 remote Aboriginal communities. People were questioned about sore throat and pyoderma; swab specimens were obtained from all throats and any pyoderma lesions. Household population density was determined. RESULTS: From data collected during 531 household visits, the childhood incidence of sore throat was calculated to be 8 cases per 100 person-years, with no cases of symptomatic group A beta-hemolytic streptococci pharyngitis. The median point prevalence for throat carriage was 3.7% for group A beta-hemolytic streptococci, 0.7% for group C beta-hemolytic streptococci, and 5.1% for group G beta-hemolytic streptococci. Group A beta-hemolytic streptococci were recovered from the throats of 19.5% of children at some time during the study. There was no seasonal trend or correlation with overcrowding. Almost 40% of children had pyoderma at least once, and the prevalence was greatest during the dry season. In community 1, the prevalence of pyoderma correlated with household crowding. Group C and G beta-hemolytic streptococci were rarely recovered from pyoderma lesions. CONCLUSIONS: These data are consistent with the hypothesis that recurrent skin infections immunize against throat colonization and infection. High rates of acute rheumatic fever were not driven by symptomatic group A beta-hemolytic streptococci throat infection. Group G and C beta-hemolytic streptococci were found in the throat but rarely in pyoderma lesions.
Authors: Davina Gorton; Suchandan Sikder; Natasha L Williams; Lisa Chilton; Catherine M Rush; Brenda L Govan; Madeleine W Cunningham; Natkunam Ketheesan Journal: Autoimmunity Date: 2016-08-25 Impact factor: 2.815
Authors: Taryn B T Athey; Sarah Teatero; Lee E Sieswerda; Jonathan B Gubbay; Alex Marchand-Austin; Aimin Li; Jessica Wasserscheid; Ken Dewar; Allison McGeer; David Williams; Nahuel Fittipaldi Journal: J Clin Microbiol Date: 2015-10-21 Impact factor: 5.948
Authors: P C Valery; M Wenitong; V Clements; M Sheel; D McMillan; J Stirling; K S Sriprakash; M Batzloff; R Vohra; J S McCarthy Journal: Epidemiol Infect Date: 2007-10-24 Impact factor: 2.451
Authors: Andrew C Steer; Adam W J Jenney; Joseph Kado; Michael R Batzloff; Sophie La Vincente; Lepani Waqatakirewa; E Kim Mulholland; Jonathan R Carapetis Journal: PLoS Negl Trop Dis Date: 2009-06-23
Authors: Ross M Andrews; Therese Kearns; Christine Connors; Colin Parker; Kylie Carville; Bart J Currie; Jonathan R Carapetis Journal: PLoS Negl Trop Dis Date: 2009-11-24