Since the global outbreak in 2022, the mpox epidemic has evolved from an African endemic to a public health emergency of international concern. The 2024 mpox outbreak in the Democratic Republic of the Congo caused by the Clade Ⅰb lineage is yet another wake-up call, with markedly higher prevalence and fatality rates observed among children under 15 years of age, thereby presenting new challenges for the children. Therefore, it is necessary to strengthen prevention and control, block mother-to-child transmission routes, and establish innovative models with active community participation to reduce the risk of mpox transmission. In the future, it is urgent to analyze molecular mechanisms underlying the mother-to-child transmission of the virus, develop targeted antiviral drugs, establish a pediatric critical disease scoring system, and incorporate mpox vaccines into the World Health Organization′s expanded programme on immunization.

Since the global outbreak in 2022, the mpox epidemic has evolved from an African endemic to a public health emergency of international concern. The 2024 mpox outbreak in the Democratic Republic of the Congo caused by the Clade Ⅰb lineage is yet another wake-up call, with markedly higher prevalence and fatality rates observed among children under 15 years of age, thereby presenting new challenges for the children. Therefore, it is necessary to strengthen prevention and control, block mother-to-child transmission routes, and establish innovative models with active community participation to reduce the risk of mpox transmission. In the future, it is urgent to analyze molecular mechanisms underlying the mother-to-child transmission of the virus, develop targeted antiviral drugs, establish a pediatric critical disease scoring system, and incorporate mpox vaccines into the World Health Organization′s expanded programme on immunization.

Objective:To investigate the correlation of the emm genotypes and virulence genes with the isolation sites of Group A Streptococcus (GAS). Methods:It was a retrospective study.The specimens were collected from children with impetigo in Beijing Children′s Hospital, Capital Medical University from 2006 to 2008 for GAS isolation and identification.A total of 24 GAS strains were isolated from 16 children with impetigo, among which 7 pairs of strains were isolated from the throat and skin of 7 children, and 1 pair of strains was isolated from the vulva and skin of one child, and the remaining 8 GAS strains were isolated from the skin pus samples of 8 children.Polymerase chain reaction was applied to detect the emm genotypes and 13 virulence genes ( speA, speB, speC, speF, speG, speH, speI, speJ, speK, speL, speM, smeZ and ssa). The correlation of the emm genotypes and virulence genes with the isolation sites of GAS strains was analyzed. Results:In this study, four emm genotypes were detected, including emm1.0 (15/24), emm12.0 (4/24), emm22.0 (2/24) and emm160.0 (1/24), and one subtype emm12.19 (2/24) was detected as well.The carrying rates of 13 virulence genes speA, speB, speC, speF, speG, speH, speI, speJ, speK, speL, speM, smeZ and ssa were 58.3%, 100%, 91.7%, 100%, 50.0%, 12.5%, 54.2%, 66.7%, 16.7%, 25.0%, 12.5%, 100% and 91.7%, respectively.All strains carried 5 to 11 virulence genes and they all carried speB, speF and smeZ.There were significant differences in the carrying rate of speA and speJ among the strains with different emm genotypes (all P<0.05). There was no significant difference in the distribution of virulence genes between skin isolates and pharyngeal isolates, including the 5 pairs of strains carrying the emm1.0 genotype (all P>0.05). Conclusions:The distribution of virulence gene of GAS in children with impetigo is significantly correlated with the emm genotype, rather than the isolation site.

Since 2022, there has been an increasing trend in the incidence of scarlet fever and deaths due to Group A Streptococcus (GAS) in the UK and some European countries, with the paediatric population particularly affected, a phenomenon that has attracted widespread international attention.The author believes that GAS has not received sufficient attention and that there are significant national differences in early surveillance, treatment strategies, management and control.Here, author present professional insights on the unresolved scientific issues related to GAS infections, with a view to attracting the attention of domestic colleagues and jointly promoting GAS-related research, prevention and control.

Group A Streptococcus(GAS), also known as Streptococcus pyogenes, is one of the top 10 infectious disease pathogens responsible for childhood deaths worldwide.The most common infectious disease is GAS pharyngitis, which is highly prevalent in school age and can lead to complications.Rheumatic fever, a complication of GAS pharyngitis, and its sequelae, rheumatic heart disease, remain a public health challenge in developing and low-income countries and require urgent attention.The purpose of this review is to summarize the domestic and international guidelines and related literature on GAS pharyngitis for the reference of domestic clinicians, in the hope that more attention will be paid to the diagnosis and treatment of GAS pharyngitis, and the diagnosis and treatment of GAS pharyngitis will be improved.

Group A Streptococcus (GAS) are important human pathogens.In recent years, the M1 UK strain has attracted widespread attention in the United Kingdom and other countries because it has been associated with a surge in scarlet fever and an increase in invasive GAS infections.Author conducted a whole-genome sequencing study of 42 GAS strains from 2016 to 2018 in Shenzhen, and found that a GAS strain isolated from a child with scarlet fever in Shenzhen area in 2018 was homologous to M1 UK, which is the first strain of M1 UK confirmed in the mainland of China.For this reason, hereby publish it with a view to attracting the attention of our domestic counterparts and safeguarding public health safety.

Group A Streptococcus (GAS) is a very important pathogenic organism, especially for children.Chinese experts′consensus statement on diagnosis, treatment, and prevention of Group A Streptococcus infection related diseases in children was developed in November 2022 by pediatric experts in the fields of respiration, infection, immunology, testing, cardiovascular, kidney, critical care and prevention in China, aiming to further standardize the prevention and treatment of diseases associated with GAS infections and to promote and maintain the health of children.Its main contents are now explained, including disease burden, prevention, diagnosis, antimicrobial resistance and therapy.

Objective:To explore the epidemiological characteristics of Streptococcus pyogenes, namely β-hemolytic Group A Streptococcus (GAS) in children in Shenzhen. Methods:Multilocus sequence typing (MLST) data on the epidemic clonal population of GAS infection in children in Shenzhen Children′s Hospital from January 2016 to December 2018 were retrospectively analyzed.In the present study, 32 GAS strains belonging to 7 different emm types were from 32 children′s with impetigo, cellulitis, scarlet fever, sepsis, pneumonia, obstructive sleep apnea hypopnea syndrome, bronchitis, allergy with rhinitis, buttock abscess, allergic purpura or pharyngeal tonsillitis, which were isolated from 23 throat swabs, 5 sputum samples, 3 pus and 1 blood.Using polymerase chain reaction technology, 7 pairs of allelic housekeeping genes ( gki, gtr, murI, mutS, recP, xpt and yqiL) of 32 GAS isolates were analyzed, and the target gene products were subjected to sequencing.Then the obtained gene sequences of each allele were submitted to the MLST database to obtain the allele profile.Finally, the allele profiles were introduced in the MLST database again to confirm the sequence typing (ST). Results:The GAS clone groups of emm 1.00 and its subtypes, emm 4.00, emm 12.00 and its subtypes, emm 22.00, emm 28.00, emm 75.00, and emm 89.00 belonged to the sequence typing ST28, ST39, ST36, ST46, ST52, ST49, and ST921, respectively. Conclusions:From 2016 to 2018, the MLST clone populations of GAS isolates causing infections in children in Shenzhen are classified as ST28, ST39, ST36, ST46, ST52, ST49 and ST921.

Group A Streptococcus (GAS) is a very important pathogen, especially for children.On a global scale, GAS is an important cause of morbidity and mortality.But the burden of disease caused by GAS is still unknown in China and also has not obtained enough attention.For this purpose, the expert consensus is comprehensively described in diagnosis, treatment and prevention of GAS diseases in children, covering related aspects of pneumology, infectiology, immunology, microbiology, cardiology, nephrology, critical care medicine and preventive medicine.Accordingly, the consensus document was intended to improve management strategies of GAS disease in Chinese children.

As a pathogen of public health significance, group A Streptococcus (GAS) infects 18.1 million people and leads to 500 000 deaths all over the world every year.GAS is often transmitted through respiratory droplets and contact with damaged skin.Children, the elderly and immunocompromised people are highly susceptible to GAS infection.Schools, kindergartens, hospitals, nursing homes and other densely populated areas are high-risk areas for GAS transmission.Prevention and control measures should highlight the improvement of living conditions and hand hygiene.Adherence to infection prevention and control measures should be emphasized in high-risk environments.In this paper, the risk factors, prevention and control strategies of GAS infection and transmission were summarized, so as to provide basis for the prevention and control of GAS.