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Objective To analyze the seasonal characteristics of scarlet fever in Songjiang District from 2012 to 2021, and to provide references for the prevention and control of scarlet fevers. Methods The incidence data of scarlet fever in Songjiang District from 2012 to 2021 were collected through the China Disease Prevention and Control Information System. The seasonal characteristics and peak of scarlet fever incidence were analyzed using concentration and circular distribution methods. Results The average annual reported incidence rate of scarlet fever in Songjiang District from 2012 to 2021 was 20.15/100 000. The M value of the concentration analysis was 0.18. The results of the circular distribution method showed that the peak day of scarlet fever from March to August was May 12, and the epidemic peak period was from April 3 to June 20. From September to February of the next year, the peak day of scarlet fever was December 21, and the epidemic peak period was from December 2 to January 9 of the next year. The differences were all statistically significant (P values were all less than 0.05). Conclusion The peaks of scarlet fever in Songjiang District mainly occur in May and December. It is suggested that the monitoring methods and prevention strategies should be adjusted in time according to Seasonal characteristics of scarlet fever.
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OBJECTIVE@#To investigate the incidence trend and spatial clustering characteristics of scarlet fever in China from 2016 to 2020 to provide evidence for development of regional disease prevention and control strategies.@*METHODS@#The incidence data of scarlet fever in 31 provinces and municipalities in mainland China from 2016 to 2020 were obtained from the Chinese Health Statistics Yearbook and the Public Health Science Data Center led by the Chinese Center for Disease Control and Prevention.The three-dimensional spatial trend map of scarlet fever incidence in China was drawn using ArcGIS to determine the regional trend of scarlet fever incidence.GeoDa spatial autocorrelation analysis was used to explore the spatial aggregation of scarlet fever in China in recent years.@*RESULTS@#From 2016 to 2020, a total of 310 816 cases of scarlet fever were reported in 31 provinces, municipalities directly under the central government and autonomous regions, with an average annual incidence of 4.48/100 000.The reported incidence decreased from 4.32/100 000 in 2016 to 1.18/100 000 in 2020(Z=103.47, P < 0.001).The incidence of scarlet fever in China showed an obvious regional clustering from 2016 to 2019(Moran's I>0, P < 0.05), but was randomly distributed in 2020(Moran's I>0, P=0.16).The incidence of scarlet fever showed a U-shaped distribution in eastern and western regions of China, and increased gradually from the southern to northern regions.Inner Mongolia Autonomous Region and Hebei and Gansu provinces had the High-high (H-H) clusters of scarlet fever in China.@*CONCLUSION@#Scarlet fever still has a high incidence in China with an obvious spatial clustering.For the northern regions of China with H-H clusters of scarlet fever, the allocation of health resources and public health education dynamics should be strengthened, and local scarlet fever prevention and control policies should be made to contain the hotspots of scarlet fever.
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Humans , Incidence , Scarlet Fever/epidemiology , China/epidemiology , Spatial Analysis , Cluster Analysis , Spatio-Temporal AnalysisABSTRACT
At the end of 2022, the World Health Organization reported an increase in group A Streptococcus (GAS) infections, such as scarlet fever, in multiple countries. The outbreak primarily affected children under 10 years old, and the number of deaths was higher than anticipated, causing international concern. This paper reviews the current state of the GAS disease outbreak, its causes, and response measures. The authors aim to draw attention from clinical workers in China and increase their awareness and vigilance regarding this epidemic. Healthcare workers should be aware of the potential epidemiological changes in infectious diseases that may arise after the optimization of control measures for coronavirus disease 2019 to ensure children's health.
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Child , Humans , Streptococcus pyogenes , COVID-19/epidemiology , Streptococcal Infections/epidemiology , Scarlet Fever/epidemiology , Epidemics , Disease OutbreaksABSTRACT
Objective:To analyze the changes in the epidemiological characteristics of scarlet fever cases in Shanghai City before and after the outbreak of coronavirus disease 2019 (COVID-19), and to provide a reference for scientific prevention and control of scarlet fever.Methods:The information of scarlet fever reported cases in Shanghai City from January 2016 to June 2021 in the information system of Chinese Disease Prevention and Control was collected, and the differences in time trend, regional distribution, age and gender distribution of cases before and after the outbreak of COVID-19 in Shanghai City were analyzed by descriptive epidemiologic method.Results:The incidence rate of scarlet fever reported in 2016-2019 was (0.22-4.02)/100 000 in each month, with a median of 1.13/100 000. During January 2020 (the outbreak began in Shanghai City) and June 2021, the incidence rate of scarlet fever was (0.01-1.64)/100 000, with a median of 0.14/100 000, which was 12.39% of that before the outbreak of COVID-19. During February and June 2020, the monthly reported incidence rate of scarlet fever was (0.18-0.58)/100 000, showing an upward trend compared with the same period in 2020 ((0.01-0.05)/100 000). From 2016 to 2019, the annual reported incidence rate of each district was (0.55-65.48)/100 000, with a median of 9.57/100 000; while in 2020, the annual reported incidence rate of each district was (0.29-9.85)/100 000, with a median of 2.18/100 000, which was 22.78% of that before the outbreak of COVID-19. The incidence of scarlet fever dropped significantly. The incidence rate in Minhang District was still the highest. The cases were mainly four to eight years old, and there was no substantial difference of the proportions before and after COVID-19 pandemic, with the incidence rate of six years old group the highest. The proportion of male was more than female in reported case, while the male ratio in reported cases was not significantly different before and after COVID-19 pandemic.Conclusions:The incidence rate of scarlet fever in Shanghai City has dropped sharply after COVID-19 pandemic. The main epidemiological characteristics of the regional and population distribution of cases remain unchanged.
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Objective:To identify the epidemic types of Group A Streptococcus (GAS)causing scarlet fever, to compare the gene structure and variability of GAS with different emm types, and to elucidate the epidemiological pattern of scarlet fever pathogens in Shenzhen. Methods:Pharyngeal swab samples were collected and analyzed retrospectively from children diagnosed with scarlet fever in Shenzhen Children′s Hospital from January 1, 2016 to May 31, 2018.The GAS strains were preserved for emm genotyping analysis.The strains of representative emm types were selected for whole-genome sequencing.The genomic polymorphism of GAS strains was described by comparative genomic analysis.Moreover, a phylogenetic tree was constructed based on the whole genome core-gene single nucleotide polymorphisms(SNPs) to clarify the evolutionary relationship between strains.Data between groups were compared by Rank sum test. Results:Among 176 GAS isolates that caused scarlet fever in children, 8 emm types were detected.The most common genotype was emm12.0 and its subtype(108/176 strains, 61.4%), followed by emm1.0 and its subtype(53/176 strains, 30.1%). These two genotypes accounted for 91.5% of all isolates collected.Comparative genome analysis was made taking GCA-900984775 as a reference sequence, and the results showed that the genomes of GAS strains had high levels of SNP and insertion or deletion (InDel) polymorphisms.There were more SNPs in emm12.0 strains[183(163, 213)] than those in emm1.0 strains[63 (54, 75)], and the difference was statistically significant ( P<0.05). As for InDel, more insertions and deletions [4(3, 6), 8(6, 10)] were observed in emm12.0 strains than those [1(0, 2), 5(3, 7)] in emm1.0 strains.According to the phylogenetic tree built by taking MGAS5005 as the reference sequence based on the whole genome core-gene SNPs, 18 strains and reference strains formed two clades. Conclusions:The emm12.0 and emm1.0 types are the most common GAS strains leading to scarlet fever in children.There are differences in the genome composition of different GAS strains.The emm12.0 strains have higher genetic diversity.
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Scarlet fever is a respiratory disease caused by Group A Streptococcus (GAS). It commonly attacks school children and has no available vaccine currently.The human history, especially European Industrial Revolution and Victorian Era, has witnessed large scale scarlet fever epidemics.Before antibiotics were invented, scarlet fever was once a highly transmissible disease with high mortality about 30%-50%.With the wide use of antibiotics after World War Ⅱ, the incidence and mortality of scarlet fever decrease significantly.Invasive streptococcal infections resurge in Europe and America in 1980s.In the past ten years, the incidence of scarlet fever kept increasing in several countries around the world.In this article, the latest research progress of scarlet fever epidemiology and pathogenesis was reviewed.Meanwhile, potential mechanisms and risk factors for the recently increasing incidence of scarlet fever in various regions were discussed.
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Resumen El síndrome de piel escaldada estafilocócica, la escarlatina estafilocócica y el impétigo ampollar son patologías que tienen en común el mecanismo de lesión de la piel por toxinas exfoliativas producidas por estafilococos, su presentación y manifestaciones clínicas son difíciles de diferenciar de otras patologías sistémicas como la enfermedad de Kawasaki, el síndrome de Steven Johnson y diferentes farmacodermias. En los últimos años se ha podido explicar el mecanismo molecular de lesión cutánea, lo que ayudo de manera importante a interpretar y poder realizar un adecuado diagnóstico diferencial entre estas patologías. Los pediatras necesitan múltiples herramientas para llegar a un diagnóstico certero de las noxas que producen lesiones en piel y manifestaciones sistémicas. Una buena anamnesis y el conocimiento de un abanico de diagnósticos diferenciales son importantes para el tratamiento médico.
Abstract Staphylococcal scalded skin syndrome, staphylococcal scarlet fever and bullous impetigo are pathologies that have in common the mechanism of skin injury by exfoliative toxins produced by staphylococci, their presentation and clinical manifestations are difficult to differentiate from other systemic pathologies such as Kawasaki disease, the syndrome of Steven Johnson and drug induced skin diseases. In recent years, it has been possible to explain the molecular mechanism of skin injury, which has helped in an important way to interpret and be able to make an adequate differential diagnosis between these pathologies. Pediatricians need multiple tools to reach an accurate diagnosis of the disease that produce skin lesions and systemic manifestations. A good history and knowledge of a range of differential diagnoses are important for medical management.
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ObjectiveTo analyze the epidemiological characteristics of scarlet fever in Putuo District, Shanghai from 2015 to 2020, and provide a basis for formulating effective prevention and control measures. MethodsThe data of scarlet fever cases from January 1, 2015 to December 31, 2020 in Putuo District, Shanghai were obtained from the Infectious Disease Reporting Information Management System of the Chinese center for disease control and prevention (CDC). Descriptive epidemiological method was used to analyze the epidemiological characteristics of scarlet fever cases in Putuo District, Shanghai by time, population, and region. ResultsA total of 586 scarlet fever cases were reported in Putuo District from 2015 to 2020, with an average annual reported incidence of 7.39 per 105, an average age of onset of 6.2±1.8 years, and a male/female ratio of 1.6∶1. The incidence of scarlet fever has declined significantly in 2020, which was 5.44 per 105 lower than the average reported incidence in 2015‒2020. The incidence peak was from April to June and November to January of the following year, which was characterized by high incidence in spring and winter. The age distribution of cases was concentrated at the age of 4‒9 years, mainly children in kindergarten and primary school students. Areas with high reported incidence rates were Wanli Street, Changzheng Town, Taopu Town and Changfeng New Village Street. ConclusionThe peak incidence of scarlet fever in Putuo District is from April to June and November to January of the following year, with children in kindergartens and students in primary school as the key populations. We should strengthen epidemic monitoring and guidance of prevention and control for in kindergartens and schools before the high incidence season of scarlet fever, so as to effectively prevent the epidemic of the disease.
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ABSTRACT Hepatitis would be related to non-hepatotropic virus. A 6-year-old boy was presented with acute hepatitis finding. He had specific rashes for scarlet fever. His liver was enlarged and liver enzyme was elevated. Other reasons of acute viral hepatitis were excluded. Liver enzymes were normalized after appropriate antibotherapy. We aimed to remind unusual presentation of scarlet fever and uncommon reasons of acute hepatitis.
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Objective To analyze the epidemiological characteristics and spatiotemporal clustering of scarlet fever in Jinan, from 2014-2019, and to provide a basis for scarlet fever prevention and control. Methods The case data of scarlet fever in Jinan during 2013-2019 were extracted from the Chinese National Notifiable Infectious Disease Reporting System. Descriptive epidemiology and spatiotemporal rearrangement scanning methods were used to analyze the epidemiological characteristics and spatiotemporal distribution of scarlet fever. The RR values of scarlet fever in different towns (streets) were calculated, and the contour map of RR value was drawn. Results A total of 9 715 cases of scarlet fever were reported in Jinan from 2014 to 2019. During this period, the number of cases and the incidence rate showed a gradual increase, with two seasonal peaks in the winter and spring each year. Spatiotemporal clustering analysis detected a total of eight spatiotemporal aggregation areas, and the strongest one was in Licheng and Lixia Districts, from March 2017 to December 2019 (RR=3.45, LLR=577.88, P<0.001). The relative risk maps in each year from 2014 to 2019 were similar, and the areas with the highest risk were located in the central area of Jinan. Conclusion From 2014 to 2019, scarlet fever is highly prevalent in the central area of Jinan, with obvious spatial and temporal clustering. There are clustering areas in the central, southwest and eastern areas of Jinan, and there was a tendency for the disease to spread to Zhangqiu in the east and Pingyin in the southwest.
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Objective To provide reference for formulating scarlet fever prevention and control strategies by analyzing the epidemiological characteristics and predicting the incidence trend of scarlet fever. Methods Spearman correlation analysis, clustering analysis, seasonal index model and seasonal ARIMA model were used for analysis and prediction. Results The average annual incidence of scarlet fever in 2010-2018 was 1.37/100 000, and there was a positive correlation between annual incidence and year (rs=0.817,P=0.007). April-June and November-December were high incidence months. The clustering analysis was significant(F=4795.30,P<0.001), showing that the high-incidence areas are Shennongjia, Yichang, Enshi, Wuhan. Reported cases were concentrated in 1-14 years old, mainly for students, child care children and scattered children. The incidence rate of males was higher than that of females. The optimal model is ARIMA(0,1,1)(0,1,0)12. The prediction showed that the monthly incidence characteristics of 2019 were consistent with previous years, and the annual incidence rate was 10.22/100 000(95% CI:2.33/100 000-30.43/100 000), which was higher than the incidence of 2018. Conclusions The incidence of scarlet fever in Hubei Province is generally on the rise from 2010 to 2018. The incidence is bimodal. Students are the main disease group. The incidence rate of males is higher. The incidence is mainly concentrated in the mountainous areas of southwest and capital cities. The ARIMA model has a good applicability in the prediction of scarlet fever. The incidence level will continue to rise in 2019, and it is necessary to strengthen monitoring and control measures with reference to epidemiological characteristics.
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Objective To analyze the characteristics of antibiotic resistance in group A Streptococ-cus ( GAS) strains isolated from children with scarlet fever in Tianjin in order to provide reference for clinical drug administration. -ethods GAS strains were collected from 2011 to 2016. A total of 276 isolates were analyzed by antibiotic susceptibility test and emm typing. Results All of the isolates were susceptible to penicillin, cefazolin and vancomycin, while 98. 2% were susceptible to both chloramphenicol and levofloxa-cin. The resistance rates to azithromycin, erythromycin, clarithromycin, clindamycin and tetracycline were 97. 8%, 97. 1%, 94. 2%, 94. 2% and 79. 3%. The concomitant resistance to erythromycin, azithromycin, clarithromycin, clindamycin and tetracycline was 73. 2%. The resistance rates of GAS strains isolated from different years to tetracycline, clindamycin, clarithromycin, erythromycin and azithromycin were significantly different. A statistically significant difference was found between the percentages of emm12 and emm1 strains resistant to tetracycline (84. 0% vs 59. 5%, χ2=13. 820, P=0. 000). Conclusions The isolated GAS strains are sensitive toβ-lactams and highly resistant to macrolide antibiotics, clindamycin and tetracycline. Penicillin remains the preferred treatment for GAS infection and cephalosporins may be used as a substitute if the patient is allergic to penicillin.
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OBJECTIVES: Outbreaks of scarlet fever in Mexico in 1999, Hong Kong and mainland China in 2011, and England in 2014-2016 have received global attention, and the number of notified cases in Korean children, including in Jeju Province, has also increased since 2010. To identify relevant hypotheses regarding this emerging outbreak, an age-period-cohort (APC) analysis of scarlet fever incidence was conducted among children in Jeju Province, Korea. METHODS: This study analyzed data from the nationwide insurance claims database administered by the Korean National Health Insurance Service. The inclusion criteria were children aged ≤14 years residing in Jeju Province, Korea who received any form of healthcare for scarlet fever from 2002 to 2016. The age and year variables were categorized into 5 groups, respectively. After calculating the crude incidence rate (CIR) for age and calendar year groups, the intrinsic estimator (IE) method was applied to conduct the APC analysis. RESULTS: In total, 2345 cases were identified from 2002 to 2016. Scarlet fever was most common in the 0-2 age group, and boys presented more cases than girls. Since the CIR decreased with age between 2002 and 2016, the age and period effect decreased in all observed years. The IE coefficients suggesting a cohort effect shifted from negative to positive in 2009. CONCLUSIONS: The results suggest that the recent outbreak of scarlet fever among children in Jeju Province might be explained through the cohort effect. As children born after 2009 showed a higher risk of scarlet fever, further descriptive epidemiological studies are needed.
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Child , Female , Humans , China , Cohort Effect , Delivery of Health Care , Disease Outbreaks , England , Epidemiologic Studies , Exotoxins , Hong Kong , Incidence , Insurance , Korea , Methods , Mexico , National Health Programs , Scarlet Fever , Streptococcus pyogenesABSTRACT
INTRODUCCIÓN: La escarlatina es una enfermedad común en Pediatría, causada por Estreptococo beta hemolítico grupo A (SBHGA), la cual generalmente se presenta después de un episodio de faringitis, y con excelente pronóstico general. La hepatitis secundaria a escarlatina es una complicación, descrita muy rara vez en niños. Nuestro objetivo fue reportar la ocurrencia de hepatitis secundaria a escarlati na en un paciente pediátrico. CASO CLÍNICO: Varón de 12 años cursando escarlatina, quien se presentó con una historia de 4 días de ictericia, coluria y disminución del apetito. Los exámenes de laboratorio revelaron elevación de las transaminasas y de los niveles de bilirrubina total y directa, y estudios vira les negativos para Hepatitis A, B y C, Virus de Epstein Barr, Parvovirus B19, Citomegalovirus, Virus Herpes 6 y Herpes simplex 1 y 2. Ecografía abdominal fue normal. DISCUSIÓN: La hepatitis es una complicación inhabitual de la escarlatina, cuya patogénesis aún no está clara. La producción de citoquinas a través del daño celular mediado por la exotoxina pirógena estreptocócica, se ha propuesto como un posible mecanismo de hepatotoxicidad en infecciones por SBHGA. CONCLUSIÓN: La hepati tis asociada a escarlatina continúa siendo una entidad rara, pero de curso benigno, con recuperación plena en semanas a meses.
INTRODUCTION: Scarlet fever is a common illness in pediatrics caused by group A beta-hemolytic streptococcus (GABHS), which usually occurs after an episode of pharyngitis, and has an overall excellent prognosis. Hepatitis secondary to scarlet fever is a rare complication described in adults and even less frequently in children. Our objective was to describe a case of hepatitis secondary to scarlet fever in a pediatric patient. CLINICAL CASE: A 12-year-old male with scarlet fever presented with a 4-day history of jaundice, dark urine, and decreased appetite. Laboratory tests revealed elevated liver enzy mes and total and direct bilirubin levels, and negative studies for hepatitis A, B and C, Epstein Barr virus, parvovirus B19, adenovirus, cytomegalovirus, human herpes virus-6, and herpes simplex virus 1 and 2. Abdominal ultrasound examination was normal. DISCUSSION: The pathogenesis of scarlet fever associated hepatitis remains unclear. Streptococcal pyrogenic exotoxin mediated cellular injury via cytokine production has been proposed as a possible mechanism of hepatotoxicity in GABHS infections. CONCLUSION: Hepatitis secondary to scarlet fever remains a rare but benign entity, with complete recovery expected over weeks to months.
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Humans , Male , Child , Scarlet Fever/diagnosis , Hepatitis/microbiology , Scarlet Fever/complications , Hepatitis/diagnosisABSTRACT
BACKGROUND: Scarlet fever is caused by a group A streptococcal (GAS) infection. On April 3, 2017, an outbreak among children in a kindergarten was reported to the local health department. An epidemiologic investigation was conducted to identify the possible transmission route of this outbreak and to recommend appropriate control measures. MATERIALS AND METHODS: A retrospective cohort study was conducted using questionnaires including age, sex, the classroom attended at a kindergarten, and date and type of symptoms developed. A case-patient is defined as a child having sore throat, fever, skin rash, or strawberry tongue with or without laboratory confirmation of GAS infection between March 28 and April 28, 2017. RESULTS: The index case-patients developed symptoms on March 28, 2017, and this outbreak persisted over a period of 16 days. The outbreak affected 21 out of 158 children (13.3%) in the kindergarten, with the mean age of 4.2 (range 3–5) years; 12 (57.1%) of them were boys. The common symptoms reported were fever (71.4%), sore throat (71.4%), reddened tonsil (57.1%), and skin rash (52.4%). The epidemiologic analysis showed that children attending one of the classrooms in the kindergarten were 14.12 times affected than the other classrooms (relative risk, 14.12; 95% confidence interval, 4.99–33.93; P 24 hours after starting appropriate antibiotic treatment, and all the children in the kindergarten were instructed to keep strict personal hygiene practices. CONCLUSION: Our results suggest that the outbreak likely affected from the index case-patients who attended to one of the classrooms in the kindergarten. This highlights the importance of immediate notification of outbreak to prevent large number of patients.
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Child , Humans , Cohort Studies , Exanthema , Fever , Fragaria , Hygiene , Korea , Palatine Tonsil , Pharyngitis , Retrospective Studies , Scarlet Fever , TongueABSTRACT
BACKGROUND: Scarlet fever is caused by a group A streptococcal (GAS) infection. On April 3, 2017, an outbreak among children in a kindergarten was reported to the local health department. An epidemiologic investigation was conducted to identify the possible transmission route of this outbreak and to recommend appropriate control measures. MATERIALS AND METHODS: A retrospective cohort study was conducted using questionnaires including age, sex, the classroom attended at a kindergarten, and date and type of symptoms developed. A case-patient is defined as a child having sore throat, fever, skin rash, or strawberry tongue with or without laboratory confirmation of GAS infection between March 28 and April 28, 2017. RESULTS: The index case-patients developed symptoms on March 28, 2017, and this outbreak persisted over a period of 16 days. The outbreak affected 21 out of 158 children (13.3%) in the kindergarten, with the mean age of 4.2 (range 3–5) years; 12 (57.1%) of them were boys. The common symptoms reported were fever (71.4%), sore throat (71.4%), reddened tonsil (57.1%), and skin rash (52.4%). The epidemiologic analysis showed that children attending one of the classrooms in the kindergarten were 14.12 times affected than the other classrooms (relative risk, 14.12; 95% confidence interval, 4.99–33.93; P 24 hours after starting appropriate antibiotic treatment, and all the children in the kindergarten were instructed to keep strict personal hygiene practices. CONCLUSION: Our results suggest that the outbreak likely affected from the index case-patients who attended to one of the classrooms in the kindergarten. This highlights the importance of immediate notification of outbreak to prevent large number of patients.
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Child , Humans , Cohort Studies , Exanthema , Fever , Fragaria , Hygiene , Korea , Palatine Tonsil , Pharyngitis , Retrospective Studies , Scarlet Fever , TongueABSTRACT
Objective@#To investigate the etiological characteristics of Streptococcus pyogenes that caused scarlet fever from 2012 to 2016 in Tianjin.@*Methods@#The subjects were children diagnosed clinically as scarlet fever in Tianjin scarlet fever monitoring hospital from 2012 to 2016. The exclusion criteria were children with scarlet fever who were unable to cooperate with sampling. A total of 575 cases of children's swabs were collected. Biochemical methods were used to isolate and identify the bacteria of pharynx swab, and the PCR method was used to detect the emm genotyping and superantigen speA and speC, and the resistance of the strains to 10 antibiotics was measured by K-B paper method. We compared the carrying status of superantigen genes by different types of GAS and the resistance of all GAS to different antibiotics.@*Results@#There were 5 emm types (emm1/11/12/22/89). The dominant types were emm12 (52.9%, 100 strains) and emm1 (44.4%, 84 strains). The carrying rates of speA and speC genes were 21.7% (41 strains) and 76.7% (145 strains), respectively. The speA gene carrying rate of emm1 type GAS was 33.3% (28 strains), which were higher than that of emm12 (12% (12 strains)) (χ2=12.21, P<0.001). The speA and speC gene simultaneous carrying rate of emm1 type GAS was 27.4% (23 strains), which was higher than that of emm12 type (12% (12 strains)) (χ2=7.01, P=0.008). The percentages of the strains that were resistant to Azithromycin, Erythromycin, Clarithromycin, Clindamycin, Tetracyclin, Levofloxacin and Chloramphenicol were 96.8% (183 strains), 96.3% (182 strains), 92.1% (174 strains), 92.1% (174 strains), 73.0%(138 strains), 2.1% (4 strains) and 1.6% (3 strains), respectively. All isolates were susceptible to Penicillin, Cefazolin and Vancomycin, and there were statistical significance (χ2=953.28, P<0.001).@*Conclusion@#The dominant emm types causing scarlet fever are emm12 and emm1. The frequencies of speA and speC in emm1 and emm12 are different. S.pyrogenes in Tianjin were susceptible to penicillin, cefazolin and vancomycin, but highly resistant to the clindamycin, clarithromycin, erythromycin and azithromycin.
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Objective To analyze the characteristics of super-antigen (SAg) of group A Streptococcus pyogenes (GAS),isolated from patients with scarlet fever or pharyngeal infections in Beijing between 2015-2017.Methods Throat swab specimens from patients with scarlet fever or pharyngeal infections were collected and tested for GAS.Eleven currently known SAg genes including SpeA,speC,speG,speH,speI,speJ,speK,speL,speM,smeZ and ssa were tested by real-time PCR while M protein genes (emm genes) were amplified and sequenced by PCR.Results A total of 377 GAS were isolated from 6 801 throat swab specimens,with the positive rate as 5.5%.There were obvious changes noticed among speC,speG,speH and speK in three years.A total of 45 SAg genes profiles were observed,according to the SAgs inclusion.There were significant differences appeared in the frequencies among two of the highest SAg genes profiles between emml and emml2 strains (x2=38.196,P<0.001;x 2=72.310,P<0.001).There also appeared significant differences in the frequencies of speA,speH,speI and speJ between emm 1 and emm 12 strains (x2 =146.154,P< 0.001;x2=52.31,P<0.001;x2=58.43,P<0.001;x2=144.70,P<0.001).Conclusions Obvious changes were noticed among SAg genes including speC,speG,speH and speK from patients with scarlet fever or pharyngeal infections in Beijing between 2015-2017.SAg genes including speA,speH,speI and speJ appeared to be associated with the emm 1 and emm 12 strains.More kinds of SAg genes profiles were isolated form GAS but with no significant differences seen in the main SAg genes profiles,during the epidemic period.
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Objective To analyze the characteristics of super-antigen (SAg) of group A Streptococcus pyogenes (GAS),isolated from patients with scarlet fever or pharyngeal infections in Beijing between 2015-2017.Methods Throat swab specimens from patients with scarlet fever or pharyngeal infections were collected and tested for GAS.Eleven currently known SAg genes including SpeA,speC,speG,speH,speI,speJ,speK,speL,speM,smeZ and ssa were tested by real-time PCR while M protein genes (emm genes) were amplified and sequenced by PCR.Results A total of 377 GAS were isolated from 6 801 throat swab specimens,with the positive rate as 5.5%.There were obvious changes noticed among speC,speG,speH and speK in three years.A total of 45 SAg genes profiles were observed,according to the SAgs inclusion.There were significant differences appeared in the frequencies among two of the highest SAg genes profiles between emml and emml2 strains (x2=38.196,P<0.001;x 2=72.310,P<0.001).There also appeared significant differences in the frequencies of speA,speH,speI and speJ between emm 1 and emm 12 strains (x2 =146.154,P< 0.001;x2=52.31,P<0.001;x2=58.43,P<0.001;x2=144.70,P<0.001).Conclusions Obvious changes were noticed among SAg genes including speC,speG,speH and speK from patients with scarlet fever or pharyngeal infections in Beijing between 2015-2017.SAg genes including speA,speH,speI and speJ appeared to be associated with the emm 1 and emm 12 strains.More kinds of SAg genes profiles were isolated form GAS but with no significant differences seen in the main SAg genes profiles,during the epidemic period.
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Objective To reveal the genetic distribution of group A streptococcus progeny(GAS)isolated from children with re-spiratory tract infection in Beijing in 2015.Methods The throat swabs were collected from children with clinical diagnosis of scarlet fever and pharyngeal infection during May to July,2015.16 pediatric outpatient departments or pediatric emergency department of hospitals located in 16 districts of Beijing were enrolled in this study.PCR amplification and gene sequencing were employed.The encoding mature M protein gene(emm)distribution in different condition was compared and analyzed.Results A total of 247 GAS were isolated,including 73(29.6%,73/247)isolates from cases with scarlet fever and 174(70.4%,174/247)isolates from cases with pharyngeal infection.Among all isolates,six genotypes of emm were identified,including emm12(53.4%,132/247),emm1(44. 1%,109/247)and others(emm22,emm75,emm131 and emm241,2.5%,6/247).The significant difference of emm distribution with age was observed in this study:emm1 isolates were dominant in children aged 6-12,whereas emm12 isolates were dominant in chil-dren aged 1-5(P<0.05).While the emm distribution showed no significant difference in groups with different location,gender,and disease pattern(P>0.05).Conclusion Emm1 and emm12 were the circulating genotype of GAS in Beijing children,2015.Moreo-ver,the difference of distribution between emm1 and emm12 was proved in this study.