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result(s) for
"Scarlet fever"
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Emergence of dominant toxigenic M1T1 Streptococcus pyogenes clone during increased scarlet fever activity in England: a population-based molecular epidemiological study
2019
Since 2014, England has seen increased scarlet fever activity unprecedented in modern times. In 2016, England's scarlet fever seasonal rise coincided with an unexpected elevation in invasive Streptococcus pyogenes infections. We describe the molecular epidemiological investigation of these events.
We analysed changes in S pyogenes emm genotypes, and notifications of scarlet fever and invasive disease in 2014–16 using regional (northwest London) and national (England and Wales) data. Genomes of 135 non-invasive and 552 invasive emm1 isolates from 2009–16 were analysed and compared with 2800 global emm1 sequences. Transcript and protein expression of streptococcal pyrogenic exotoxin A (SpeA; also known as scarlet fever or erythrogenic toxin A) in sequenced, non-invasive emm1 isolates was quantified by real-time PCR and western blot analyses.
Coincident with national increases in scarlet fever and invasive disease notifications, emm1 S pyogenes upper respiratory tract isolates increased significantly in northwest London in the March to May period, from five (5%) of 96 isolates in 2014, to 28 (19%) of 147 isolates in 2015 (p=0·0021 vs 2014 values), to 47 (33%) of 144 in 2016 (p=0·0080 vs 2015 values). Similarly, invasive emm1 isolates collected nationally in the same period increased from 183 (31%) of 587 in 2015 to 267 (42%) of 637 in 2016 (p<0·0001). Sequences of emm1 isolates from 2009–16 showed emergence of a new emm1 lineage (designated M1UK)—with overlap of pharyngitis, scarlet fever, and invasive M1UK strains—which could be genotypically distinguished from pandemic emm1 isolates (M1global) by 27 single-nucleotide polymorphisms. Median SpeA protein concentration in supernatant was nine-times higher among M1UK isolates (190·2 ng/mL [IQR 168·9–200·4]; n=10) than M1global isolates (20·9 ng/mL [0·0–27·3]; n=10; p<0·0001). M1UK expanded nationally to represent 252 (84%) of all 299 emm1 genomes in 2016. Phylogenetic analysis of published datasets identified single M1UK isolates in Denmark and the USA.
A dominant new emm1 S pyogenes lineage characterised by increased SpeA production has emerged during increased S pyogenes activity in England. The expanded reservoir of M1UK and recognised invasive potential of emm1 S pyogenes provide plausible explanation for the increased incidence of invasive disease, and rationale for global surveillance.
UK Medical Research Council, UK National Institute for Health Research, Wellcome Trust, Rosetrees Trust, Stoneygate Trust.
Journal Article
Infectious diseases in children and adolescents in China: analysis of national surveillance data from 2008 to 2017
by
Miller, Jessica E
,
Wang, Liping
,
Song, Yi
in
Acquired immune deficiency syndrome
,
Adolescence
,
Adolescent
2020
AbstractObjectivesTo outline which infectious diseases in the pre-covid-19 era persist in children and adolescents in China and to describe recent trends and variations by age, sex, season, and province.DesignNational surveillance studies, 2008-17.Setting31 provinces in mainland China.Participants4 959 790 Chinese students aged 6 to 22 years with a diagnosis of any of 44 notifiable infectious diseases. The diseases were categorised into seven groups: quarantinable; vaccine preventable; gastrointestinal and enteroviral; vectorborne; zoonotic; bacterial; and sexually transmitted and bloodborne.Main outcome measuresDiagnosis of, and deaths from, 44 notifiable infectious diseases.ResultsFrom 2008 to 2017, 44 notifiable infectious diseases were diagnosed in 4 959 790 participants (3 045 905 males, 1 913 885 females) and there were 2532 deaths (1663 males, 869 females). The leading causes of death among infectious diseases shifted from rabies and tuberculosis to HIV/AIDS, particularly in males. Mortality from infectious diseases decreased steadily from 0.21 per 100 000 population in 2008 to 0.07 per 100 000 in 2017. Quarantinable conditions with high mortality have effectively disappeared. The incidence of notifiable infectious diseases in children and adolescents decreased from 280 per 100 000 in 2008 to 162 per 100 000 in 2015, but rose again to 242 per 100 000 in 2017, largely related to mumps and seasonal influenza. Excluding mumps and influenza, the incidence of vaccine preventable diseases fell from 96 per 100 000 in 2008 to 7 per 100 000 in 2017. The incidence of gastrointestinal and enterovirus diseases remained constant, but typhoid, paratyphoid, and dysentery continued to decline. Vectorborne diseases all declined, with a particularly noticeable reduction in malaria. Zoonotic infections remained at low incidence, but there were still unpredictable outbreaks, such as pandemic A/H1N1 2009 influenza. Tuberculosis remained the most common bacterial infection, although cases of scarlet fever doubled between 2008 and 2017. Sexually transmitted diseases and bloodborne infections increased significantly, particularly from 2011 to 2017, among which HIV/AIDS increased fivefold, particularly in males. Difference was noticeable between regions, with children and adolescents in western China continuing to carry a disproportionate burden from infectious diseases.ConclusionsChina’s success in infectious disease control in the pre-covid-19 era was notable, with deaths due to infectious diseases in children and adolescents aged 6-22 years becoming rare. Many challenges remain around reducing regional inequalities, scaling-up of vaccination, prevention of further escalation of HIV/AIDS, renewed efforts for persisting diseases, and undertaking early and effective response to highly transmissible seasonal and unpredictable diseases such as that caused by the novel SARS-CoV-2 virus.
Journal Article
Resurgence of scarlet fever in England, 2014–16: a population-based surveillance study
2018
After decades of decreasing scarlet fever incidence, a dramatic increase was seen in England beginning in 2014. Investigations were launched to assess clinical and epidemiological patterns and identify potential causes.
In this population-based surveillance study, we analysed statutory scarlet fever notifications held by Public Health England from 1911 to 2016 in England and Wales to identify periods of sudden escalation of scarlet fever. Characteristics of cases and outbreaks in England including frequency of complications and hospital admissions were assessed and compared with the pre-upsurge period. Isolates from throat swabs were obtained and were emm typed.
Data were retrieved for our analysis between Jan 1, 1911, and Dec 31, 2016. Population rates of scarlet fever increased by a factor of three between 2013 and 2014 from 8·2 to 27·2 per 100 000 (rate ratio [RR] 3·34, 95% CI 3·23–3·45; p<0·0001); further increases were observed in 2015 (30·6 per 100 000) and in 2016 (33·2 per 100 000), which reached the highest number of cases (19 206) and rate of scarlet fever notifcation since 1967. The median age of cases in 2014 was 4 years (IQR 3–7) with an incidence of 186 per 100 000 children under age 10 years. All parts of England saw an increase in incidence, with 620 outbreaks reported in 2016. Hospital admissions for scarlet fever increased by 97% between 2013 and 2016; one in 40 cases were admitted for management of the condition or potential complications. Analysis of strains (n=303) identified a diversity of emm types with emm3 (43%), emm12 (15%), emm1 (11%), and emm4 (9%) being the most common. Longitudinal analysis identified 4-yearly periodicity in population incidence of scarlet fever but of consistently lower magnitude than the current escalation.
England is experiencing an unprecedented rise in scarlet fever with the highest incidence for nearly 50 years. Reasons for this escalation are unclear and identifying these remains a public health priority.
None.
Journal Article
Adult scarlet fever: Case report and epidemiology
by
Prieto, Nina
,
Tantawy, Mai
,
Li, Siu Fai
in
Adult
,
Adults
,
Anti-Bacterial Agents - therapeutic use
2026
A 30-year-old woman presented to the ED with a generalized rash, fever, and tachycardia. A detailed review of systems and physical examination revealed symptoms and signs of streptococcal pharyngitis. PCR testing confirmed the diagnosis of streptococcal infection and scarlet fever. Scarlet fever is generally a disease of children, but episodic outbreaks are associated with the disease in adults, sometimes with significant complications. It is important for Emergency Medicine clinicians to be aware of this childhood illness presenting in adults.
Journal Article
Genome-wide association and HLA region fine-mapping studies identify susceptibility loci for multiple common infections
by
Hromatka, Bethann S.
,
Noble, Suzanne M.
,
Tung, Joyce Y.
in
631/208/205
,
631/208/248/144
,
631/250/255
2017
Infectious diseases have a profound impact on our health and many studies suggest that host genetics play a major role in the pathogenesis of most of them. We perform 23 genome-wide association studies for common infections and infection-associated procedures, including chickenpox, shingles, cold sores, mononucleosis, mumps, hepatitis B, plantar warts, positive tuberculosis test results, strep throat, scarlet fever, pneumonia, bacterial meningitis, yeast infections, urinary tract infections, tonsillectomy, childhood ear infections, myringotomy, measles, hepatitis A, rheumatic fever, common colds, rubella and chronic sinus infection, in over 200,000 individuals of European ancestry. We detect 59 genome-wide significant (
P
< 5 × 10
−8
) associations in genes with key roles in immunity and embryonic development. We apply fine-mapping analysis to dissect associations in the human leukocyte antigen region, which suggests important roles of specific amino acid polymorphisms in the antigen-binding clefts. Our findings provide an important step toward dissecting the host genetic architecture of response to common infections.
Susceptibility to infectious diseases is, among others, influenced by the genetic landscape of the host. Here, Tian and colleagues perform genome-wide association studies for 23 common infections and find 59 risk loci for 17 of these, both within the HLA region and non-HLA loci.
Journal Article
Scarlet Fever in Iran During the Qajar Period (1796 to 1925 AD); A Brief Historical Review
by
Mansourbakht, Ghobad
,
Haghighi, Mehrdad
,
Golshani, Seyyed Alireza
in
History of Medicine in Iran
2025
Scarlet fever, known in Persian as \"Tab-e Sorkh,\" is a bacterial infection caused by Streptococcus pyogenes. During the Qajar era (1796–1925), it was often deadly and reached pandemic levels in the 19th century. Both traditional Iranian and European medicine described its symptoms, but few comparative studies exist. By analyzing historical Persian texts, European medical reports, and modern literature, this study compares how the disease was understood and treated. Symptoms like rash and fever were widely recognized, and mortality was high before antibiotics. Traditional treatments followed humoral theory, including herbal remedies and bloodletting. Outbreaks peaked in cold months, mostly affecting children aged 5–15 years — a pattern seen in both medical systems. From the 1820s to 1880s, scarlet fever caused global outbreaks, especially in Iran. This research shows how combining historical perspectives can deepen our understanding of infectious diseases and their treatment across time.
Journal Article
Emergence of scarlet fever Streptococcus pyogenes emm12 clones in Hong Kong is associated with toxin acquisition and multidrug resistance
2015
Mark Walker and colleagues report the whole-genome sequencing of 132 group A
Streptococcus
(GAS) isolates of a sequence type that has been associated with scarlet fever. The isolates were obtained from 58 clinical cases of scarlet fever and 83 cases without scarlet fever during the course of a recent epidemic in Hong Kong.
A scarlet fever outbreak began in mainland China and Hong Kong in 2011 (refs.
1
–
6
). Macrolide- and tetracycline-resistant
Streptococcus pyogenes emm
12 isolates represent the majority of clinical cases. Recently, we identified two mobile genetic elements that were closely associated with
emm
12 outbreak isolates: the integrative and conjugative element ICE-
emm
12, encoding genes for tetracycline and macrolide resistance, and prophage ΦHKU.vir, encoding the superantigens SSA and SpeC, as well as the DNase Spd1 (ref.
4
). Here we sequenced the genomes of 141
emm
12 isolates, including 132 isolated in Hong Kong between 2005 and 2011. We found that the introduction of several ICE-
emm
12 variants, ΦHKU.vir and a new prophage, ΦHKU.ssa, occurred in three distinct
emm
12 lineages late in the twentieth century. Acquisition of
ssa
and transposable elements encoding multidrug resistance genes triggered the expansion of scarlet fever–associated
emm
12 lineages in Hong Kong. The occurrence of multidrug-resistant
ssa
-harboring scarlet fever strains should prompt heightened surveillance within China and abroad for the dissemination of these mobile genetic elements.
Journal Article
Maternal mastitis and streptococcal toxic shock syndrome risk from breastfeeding children with scarlet fever: case report and literature review
by
Wiebringhaus, Philipp
,
Tio, Joke
,
Opitz, Carl
in
Adult
,
Anti-Bacterial Agents - therapeutic use
,
Antibiotics
2025
Lactational mastitis is a common condition during breastfeeding, which, in rare cases, can progress to life-threatening necrotising mastitis, particularly in cases where Streptococcus pyogenes is involved. The development of streptococcal toxic shock syndrome (STSS) is associated with a fatality rate of approximately 50%. In this Grand Round, we present the case of a healthy mother, aged 35 years, breastfeeding a child diagnosed with scarlet fever. The mother subsequently developed lactational mastitis, with a high load of S pyogenes, culminating in skin necrosis and STSS. This case, along with six more case reports identified in a thorough literature search, underscores the severity of lactational S pyogenes mastitis. In all cases, the only identifiable risk factor for invasive S pyogenes disease was close contact to individuals exhibiting symptoms of scarlet fever. During breastfeeding, the direct contact of the nipple to the child's pharynx, containing S pyogenes in the case of scarlet fever, presents a probable route of transmission, especially when considering the pathogenicity of the bacterium. Although breastfeeding is generally encouraged, the current literature lacks sufficient guidance regarding breastfeeding practices in children with scarlet fever. This Grand Round proposes a simple strategy to minimise maternal risks, offering valuable insights into clinical management and prevention.
Journal Article
Resurgence of scarlet fever in China: a 13-year population-based surveillance study
2018
A re-emergence of scarlet fever has been noted in Hong Kong, South Korea, and England, UK, since 2008. China also had a sudden increase in the incidence of the disease in 2011. In this study, we aimed to assess the epidemiological changes before and after the upsurge. We also aimed to explore the reasons for the upsurge in disease in 2011, the epidemiological factors that contributed to it, and assess how these could be managed to prevent future epidemics.
In this observational study, we extracted the epidemiological data for all cases of scarlet fever between 2004 and 2016 in China from the Chinese Public Health Science Data Center, the official website of National Health Commission of the People's Republic of China, and the National Notifiable Infectious Disease Surveillance System. These data had been collected from 31 provinces and regions in China and included geographical, seasonal, and patient demographic information. We used descriptive statistical methods and joinpoint regression to examine the spatiotemporal patterns and annual percentage change in incidence of the upsurge of disease across China.
Between Jan 1, 2004, and Dec 31, 2016, 502 723 cases of scarlet fever, with ten fatalities, were reported in China, resulting in an annualised average incidence of 2·8807 per 100 000 people. The annual average incidence increased from 1·457 per 100 000 people in 2004 to 4·7638 per 100 000 people in 2011 (incidence rate ratio [IRR] 3·27, 95% CI 3·22–3·32; p<0·0001), peaking in 2015 (5·0092 per 100 000 people). The annual incidence after the 2011 upsurge of scarlet fever, between 2011 and 2016, was twice the average annual incidence reported between 2004 and 2010 (4·0125 vs 1·9105 per 100 000 people; IRR 2·07, 95% CI 2·06–2·09; p<0·0001). Most cases were distributed in the north, northeast, and northwest of the country. Semi-annual patterns were observed in May–June and November–December. The median age at onset of disease was 6 years, with the annual highest incidence observed in children aged 6 years (49·4675 per 100 000 people). The incidence among boys and men was 1·54 greater than that among girls and women before the upsurge, and 1·51 times greater after the upsurge (p<0·0001 for both). The median time from disease onset to reporting of the disease was shorter after the upsurge in disease than before (3 days vs 4 days; p=0·001).
To our knowledge, this is the largest epidemiological study of scarlet fever worldwide. The patterns of infection across the country were similar before and after the 2011 upsurge, but the incidence of disease was substantially higher after 2011. Prevention and control strategies being implemented in response to this threat include improving disease surveillance and emergency response systems. In particular, the school absenteeism and symptom monitoring and early-warning system will contribute to the early diagnosis and report of the scarlet fever. This approach will help combat scarlet fever and other childhood infectious diseases in China.
National Key R&D Plan of China Science and key epidemiological disciplines of Zhejiang Provincial Health of China.
Journal Article
Genome analysis following a national increase in Scarlet Fever in England 2014
by
Johnson, Alan P.
,
Daniel, Roger
,
Laranjeira, Marisa
in
Analysis
,
Animal Genetics and Genomics
,
Antibiotics
2017
Background
During a substantial elevation in scarlet fever (SF) notifications in 2014 a national genomic study was undertaken of
Streptococcus pyogenes
(Group A Streptococci, GAS) isolates from patients with SF with comparison to isolates from patients with invasive disease (iGAS) to test the hypotheses that the increase in SF was due to either the introduction of one or more new/emerging strains in the population in England or the transmission of a known genetic element through the population of GAS by horizontal gene transfer (HGT) resulting in infections with an increased likelihood of causing SF. Isolates were collected to provide geographical representation, for approximately 5% SF isolates from each region from 1
st
April 2014 to 18
th
June 2014. Contemporaneous iGAS isolates for which genomic data were available were included for comparison. Data were analysed in order to determine
emm
gene sequence type, phylogenetic lineage and genomic clade representation, the presence of known prophage elements and the presence of genes known to confer pathogenicity and resistance to antibiotics.
Results
555 isolates were analysed, 303 from patients with SF and 252 from patients with iGAS. Isolates from patients with SF were of multiple distinct
emm
sequence types and phylogenetic lineages. Prior to data normalisation,
emm
3 was the predominant type (accounting for 42.9% of SF isolates, 130/303 95%CI 37.5–48.5; 14.7% higher than the percentage of
emm
3 isolates found in the iGAS isolates). Post-normalisation
emm
types, 4 and 12, were found to be over-represented in patients with SF versus iGAS (
p
< 0.001). A single gene,
ssa,
was over-represented in isolates from patients with SF. No single phage was found to be over represented in SF vs iGAS. However, a “meta-ssa” phage defined by the presence of :315.2, SPsP6, MGAS10750.3 or HK360ssa, was found to be over represented. The HKU360.vir phage was not detected yet the HKU360.ssa phage was present in 43/63
emm
12 isolates but not found to be over-represented in isolates from patients with SF.
Conclusions
There is no evidence that the increased number of SF cases was a strain-specific or known mobile element specific phenomenon, as the increase in SF cases was associated with multiple lineages of GAS.
Journal Article