Invasive Group A Streptococcal Infections in Europe After the COVID-19 Pandemic.

BACKGROUND: The incidence of airborne respiratory infections fell as a result of the protective measures taken during the COVID-19 pandemic and rose again when these were stopped. In 2022, there was a notable rise in invasive group A streptococcal (iGAS) infections in many countries, including Germany. This rise was also reflected in the data of the university otorhinolaryngology department in Ulm, Germany. METHODS: This review is based on publications retrieved by a selective literature search on the rise of iGAS infections in Europe, with particular attention to the timing of disease onset, clinical presentation, pathogenic strains, and potential causes and risk factors. RESULTS: The rise in infections after the pandemic was especially marked among children up to age 10 and in older adults; in Germany, it affected all age groups equally. Rising prevalence figures were seen in Germany and elsewhere as early as the fall of 2022, outside the usual season, and peaked mainly in the first and second quarters of 2023. The increased incidence of iGAS-associated pneumonia was paralleled by that of viral airway infections and led to greater use of intensive-care measures for children. The main bacterial strain identified was emm1; a new variant (M1DK) played a role in Denmark, and an emm4 variant (M4NL22) became increasingly important in the Netherlands. In Germany, initial evidence suggested the predominance of M1UK. Increased antibiotic resistance was not found. CONCLUSION: The reduced confrontation of the immune system with pathogens during the pandemic, along with the increased incidence of viral airway infections immediately after it, apparently accounted for the exceptionally high post-pandemic rise in iGAS infections and the increase in invasive pulmonary diseases in Europe. Consistent vaccination programs against coincident respiratory viruses could reduce the burden of iGAS infections. The further extension of multinational surveillance programs with obligatory participation could aid in the detection of factors affecting the course of disease and the spread of new bacterial strains.

First case of fatal Rhizomucor miehei endocarditis in an immunocompromised patient.

Rhizomucor miehei is a cause of bovine mycotic abortion and mastitis and has rarely been described in human disease. Here, we report the first isolation of R. miehei from native mitral valve tissue in a fatal case of endocarditis that substantiates its pathogenic potential. Apart from morphological criteria, molecular methods were a cornerstone for definite diagnosis.

Heterogeneity of Streptococcus anginosus ß-hemolysis in relation to CRISPR/Cas.

Streptococcus anginosus is a commensal of the oral mucosa that can cause severe invasive infections. A considerable proportion of Streptococcus anginosus strains are ß-hemolytic due to the presence of an SLS-like gene cluster. However, the majority of strains do not display ß-hemolysis. To investigate ß-hemolysin heterogeneity in S. anginosus, we determined the presence of sag genes and correlated it with the presence of CRISPR/Cas genes in a collection of ß-hemolytic and non-ß-hemolytic strains. All of the ß-hemolytic strains carried the sag gene cluster. In contrast to other streptococci, clinical S. anginosus strains that do not display ß-hemolysis do not harbor sag genes. Phylogenetic analysis of the ß-hemolytic strains revealed that they belong to two previously defined clusters within S. anginosus. Correlation with CRISPR/Cas genes showed a significant difference for the presence of CRISPR/Cas in ß-hemolytic versus non-ß-hemolytic isolates. The presence of the CRISPR/Cas type IIA or type IIC locus is associated with the absence of sag genes; in 65% of the non-ß-hemolytic strains a CRISPR/Cas locus was found, while only 24% of ß-hemolytic strains carry CRISPR/Cas genes. Further analysis of the spacer content of the CRISPR systems revealed the presence of multiple self-targeting sequences directed against S. anginosus genes. These results support the hypothesis that horizontal gene transfer is involved in the acquisition of ß-hemolysin genes and that CRISPR/Cas may limit DNA uptake in S. anginosus.

Multicentre investigation of carbapenemase-producing Escherichia coli and Klebsiella pneumoniae in German hospitals.

Aim of this study was to determine the incidence and molecular epidemiology of carbapenemase-producing Escherichia coli and Klebsiella pneumoniae in Germany. E. coli and K. pneumoniae isolates from clinical samples which were non-susceptible to carbapenems were collected in laboratories serving 20 hospitals throughout Germany from November 2013 to April 2014. The isolates were tested for the presence of carbapenemases by PCR and phenotypic methods and typed by multilocus sequence typing. Risk factors including a previous hospitalization abroad were analysed. Carbapenemases were detected in 24 isolates from 22 patients out of 464,514 admissions. Carbapenemases included OXA-48 (n=14), KPC-2 (n=8) and NDM-1 (n=2). Except for two K. pneumoniae isolates with ST101, all OXA-48 producing strains belonged to different clones. In contrast, half of KPC-2 producing K. pneumoniae were of ST258 and both NDM-1 producing strains were of ST11. Compared to carbapenem-susceptible controls, patients with carbapenemase-producing strains differed by a significantly higher proportion of males, a higher proportion of isolates from wound samples and a more frequent previous stay abroad in univariate analysis. This multicentre study demonstrated an incidence of carbapenemase-producing E. coli and K. pneumoniae from clinical samples in Germany of 0.047 cases per 1000 admissions. OXA-48 was more frequent than KPC-2 and NDM-1 and showed a multiclonal background.

Chromosomally and Extrachromosomally Mediated High-Level Gentamicin Resistance in Streptococcus agalactiae.

Streptococcus agalactiae (group B Streptococcus [GBS]) is a leading cause of sepsis in neonates. The rate of invasive GBS disease in nonpregnant adults also continues to climb. Aminoglycosides alone have little or no effect on GBS, but synergistic killing with penicillin has been shown in vitro. High-level gentamicin resistance (HLGR) in GBS isolates, however, leads to the loss of a synergistic effect. We therefore performed a multicenter study to determine the frequency of HLGR GBS isolates and to elucidate the molecular mechanisms leading to gentamicin resistance. From eight centers in four countries, 1,128 invasive and colonizing GBS isolates were pooled and investigated for the presence of HLGR. We identified two strains that displayed HLGR (BSU1203 and BSU452), both of which carried the aacA-aphD gene, typically conferring HLGR. However, only one strain (BSU1203) also carried the previously described chromosomal gentamicin resistance transposon designated Tn3706. For the other strain (BSU452), plasmid purification and subsequent DNA sequencing resulted in the detection of plasmid pIP501 carrying a remnant of a Tn3 family transposon. Its ability to confer HLGR was proven by transfer into an Enterococcus faecalis isolate. Conversely, loss of HLGR was documented after curing both GBS BSU452 and the transformed E. faecalis strain from the plasmid. This is the first report showing plasmid-mediated HLGR in GBS. Thus, in our clinical GBS isolates, HLGR is mediated both chromosomally and extrachromosomally.