Srinivas Acharya Nanduri1, Jennifer Onukwube1, Mirasol Apostol2, Nisha Alden3, Susan Petit4, Monica Farley5,6, Lee H Harrison7, Kathy Como-Sabetti8, Chad Smelser9, Kari Burzlaff10, Paul Cieslak11, William Schaffner12, Chris A Van Beneden1. 1. 1242 Respiratory Diseases Branch, National Center for Immunizations and Respiratory Diseases, Centers for Disease Control and Prevention, Atlanta, GA, USA. 2. 43885 California Emerging Infections Program, Oakland, CA, USA. 3. 2915 Colorado Department of Public Health and Environment, Denver, CO, USA. 4. 3758 Connecticut Department of Public Health, Hartford, CT, USA. 5. 1371 Emory University School of Medicine, Atlanta, GA, USA. 6. Atlanta VA Medical Center, Atlanta, GA, USA. 7. 25802 Johns Hopkins Bloomberg School of Public Health, Baltimore, MD, USA. 8. Minnesota Department of Health, St Paul, MN, USA. 9. 1107 New Mexico Department of Health, Santa Fe, NM, USA. 10. 1094 New York State Department of Health, Albany, NY, USA. 11. 159301 Oregon Health Authority Public Health Division, Portland, OR, USA. 12. 12327 Vanderbilt University School of Medicine, Nashville, TN, USA.
Abstract
OBJECTIVES: Routine surveillance for streptococcal toxic shock syndrome (STSS), a severe manifestation of invasive group A Streptococcus (GAS) infections, likely underestimates its true incidence. The objective of our study was to evaluate routine identification of STSS in a national surveillance system for invasive GAS infections. METHODS: Active Bacterial Core surveillance (ABCs) conducts active population-based surveillance for invasive GAS disease in selected US counties in 10 states. We categorized invasive GAS cases with a diagnosis of STSS made by a physician as STSS-physician and cases that met the Council of State and Territorial Epidemiologists (CSTE) clinical criteria for STSS based on data in the medical record as STSS-CSTE. We evaluated agreement between the 2 methods for identifying STSS and compared the estimated national incidence of STSS when applying proportions of STSS-CSTE and STSS-physician among invasive GAS cases from this study with national invasive GAS estimates for 2017. RESULTS: During 2014-2017, of 7572 invasive GAS cases in ABCs, we identified 1094 (14.4%) as STSS-CSTE and 203 (2.7%) as STSS-physician, a 5.3-fold difference. Of 1094 STSS-CSTE cases, we identified only 132 (12.1%) as STSS-physician cases. Agreement between the 2 methods for identifying STSS was low (κ = 0.17; 95% CI, 0.14-0.19). Using ABCs data, we estimated 591 cases of STSS-physician and 3618 cases of STSS-CSTE occurred nationally in 2017. CONCLUSIONS: We found a large difference in estimates of incidence of STSS when applying different surveillance methods and definitions. These results should help with better use of currently available surveillance data to estimate the incidence of STSS and to evaluate disease prevention efforts, in addition to guiding future surveillance efforts for STSS.
OBJECTIVES: Routine surveillance for streptococcal toxic shock syndrome (STSS), a severe manifestation of invasive group A Streptococcus (GAS) infections, likely underestimates its true incidence. The objective of our study was to evaluate routine identification of STSS in a national surveillance system for invasive GAS infections. METHODS: Active Bacterial Core surveillance (ABCs) conducts active population-based surveillance for invasive GAS disease in selected US counties in 10 states. We categorized invasive GAS cases with a diagnosis of STSS made by a physician as STSS-physician and cases that met the Council of State and Territorial Epidemiologists (CSTE) clinical criteria for STSS based on data in the medical record as STSS-CSTE. We evaluated agreement between the 2 methods for identifying STSS and compared the estimated national incidence of STSS when applying proportions of STSS-CSTE and STSS-physician among invasive GAS cases from this study with national invasive GAS estimates for 2017. RESULTS: During 2014-2017, of 7572 invasive GAS cases in ABCs, we identified 1094 (14.4%) as STSS-CSTE and 203 (2.7%) as STSS-physician, a 5.3-fold difference. Of 1094 STSS-CSTE cases, we identified only 132 (12.1%) as STSS-physician cases. Agreement between the 2 methods for identifying STSS was low (κ = 0.17; 95% CI, 0.14-0.19). Using ABCs data, we estimated 591 cases of STSS-physician and 3618 cases of STSS-CSTE occurred nationally in 2017. CONCLUSIONS: We found a large difference in estimates of incidence of STSS when applying different surveillance methods and definitions. These results should help with better use of currently available surveillance data to estimate the incidence of STSS and to evaluate disease prevention efforts, in addition to guiding future surveillance efforts for STSS.
Entities:
Keywords:
group A Streptococcus; septic shock; streptococcal toxic shock syndrome; surveillance
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