ABSTRACT
Objective:To study the clinical features and drug resistance profile of neonatal sepsis caused by different species of Klebsiella.Methods:From January 2009 to December 2018, cryopreserved Klebsiella strains from blood culture of neonatal sepsis cases in NICU of our hospital were reactivated. Molecular identification and antimicrobial susceptibility tests were performed. Clinical features, laboratory tests, drug resistance profile and prognosis of these patients were analyzed retrospectively.Results:A total of 29 strains of Klebsiella were reactivated. Molecular identification assigned 22 cases (75.9%) into Klebsiella pneumoniae (Kpn) group and 7 cases (24.1%) into Klebsiella quasipneumoniae (Kqu) group. Gestational age and birth weight of Kpn group were higher than Kqu group [(33.1±3.2) weeks vs. (30.6±0.9) weeks, (1 847±677) g vs. (1 416±121) g] ( P<0.05). Abdominal distension was more common in Kqu group than Kpn group [42.9% (3/7) vs. 4.5% (1/22), P<0.05]. No significant differences existed in the laboratory tests including white blood cell count, platelet count, hypersensitive C-reactive protein and procalcitonin between the two groups ( P>0.05). Kpn was 100.0% sensitive to Cefazolin-Tazobactam and Amikacinto and less sensitive to Imipenem and Cefperazone-Sulbactam, Meropenem and Ertapenem. Kqu was generally more sensitive than Kpn and the sensitivity of Kqu to Imipenem was 100.0%. No significant differences existed of the prognosis between the two groups ( P>0.05). Conclusions:Kpn is the main pathogen of neonatal Klebsiella sepsis. Kqu sepsis is more common in neonates with smaller gestational age and lower birth weight. Abdominal distention is common presenting symptom in Kpn sepsis and sensitive antibiotics should be used early.
ABSTRACT
BACKGROUND Gram-negative and Gram-positive bacteria produce beta-lactamase as factors to overcome beta-lactam antibiotics, causing their hydrolysis and impaired antimicrobial action. Class A beta-lactamase contains the chromosomal sulfhydryl reagent variable (SHV, point mutation variants of SHV-1), LEN (Klebsiella pneumoniae strain LEN-1), and other K. pneumoniae beta-lactamase (OKP) found mostly in Klebsiella's phylogroups. The SHV known as extended-spectrum β-lactamase can inactivate most beta-lactam antibiotics. Class A also includes the worrisome plasmid-encoded Klebsiella pneumoniae carbapenemase (KPC-2), a carbapenemase that can inactivate most beta-lactam antibiotics, carbapenems, and some beta-lactamase inhibitors. OBJECTIVES So far, there is no 3D crystal structure for OKP-B, so our goal was to perform structural characterisation and molecular docking studies of this new enzyme. METHODS We applied a homology modelling method to build the OKP-B-6 structure, which was compared with SHV-1 and KPC-2 according to their electrostatic potentials at the active site. Using the DockThor-VS, we performed molecular docking of the SHV-1 inhibitors commercially available as sulbactam, tazobactam, and avibactam against the constructed model of OKP-B-6. FINDINGS From the point of view of enzyme inhibition, our results indicate that OKP-B-6 should be an extended-spectrum beta-lactamase (ESBL) susceptible to the same drugs as SHV-1. MAIN CONCLUSIONS This conclusion advantageously impacts the clinical control of the bacterial pathogens encoding OKP-B in their genome by using any effective, broad-spectrum, and multitarget inhibitor against SHV-containing bacteria.
ABSTRACT
O perfil de resistência, que algumas das espécies do complexo Klebsiella pneumoniae podem expressar, representa uma grande ameaça à saúde humana, particularmente quando resistentes aos carbapenêmicos, que são amplamente utilizados no tratamento de infecções graves em pacientes hospitalizados. O principal mecanismo de resistência aos carbapenêmicos é a produção de carbapenemases, particularmente dos tipos KPC e NDM. Um dos compostos desenvolvidos para o tratamento de infecções causadas por cepas produtoras de KPC é a combinação ceftazidimaavibactam (CAZ-AVI), mas que não tem atividade inibitória sobre metalo-betalactamases, a exemplo das NDMs. Os objetivos deste trabalho foram determinar a frequência das espécies do complexo K. pneumoniae e da coprodução de KPC, avaliar a clonalidade dos isolados, a sensibilidade ao aztreonam-avibactam (ATM-AVI), o desempenho do disco de meropenem (MEM) com inibidores para detecção de coprodução de NDM e KPC e desenvolver um teste de triagem para prever a sensibilidade ao ATM-AVI. Um total de 113 isolados do complexo K. pneumoniae produtoras de NDM ou coprodutoras de NDM e KPC, provenientes da coleção de bactérias do Grupo Fleury, coletadas períodos pré e pós início do uso de CAZ-AVI no Brasil, foram utilizadas neste estudo. A identificação da espécie e a presença dos genes blaNDM e blaKPC foi confirmada por PCR multiplex. A clonalidade dos isolados foi avaliada por eletroforese em campos pulsados (PFGE) após clivagem com XbaI. A produção de carbapenemases foi confirmada utilizando-se o teste Blue Carba. O desempenho dos discos de meropenem e CAZ-AVI contendo um ou mais inibidores de carbapenemases foi comparado com o teste molecular. A pré-difusão combinada foi realizada pré-incubando-se o ágar não inoculado com disco de CAZ-AVI, e a seguir aplicando-se o inóculo bacteriano e um disco de ATM após remover o disco de CAZ-AVI. Após incubação, os halos foram aferidos e correlacionados com a concentração inibitória mínima para ATM-AVI. As CIMs para ATM e ATM-AVI foram determinadas segundo o EUCAST. A identificação das espécies por PCR evidenciou as seguintes frequências: K. pneumoniae 75,2% (n=85); K. quasipneumoniae 16,8% (n=19), e K. variicola 8% (n=9). Uma fração de 12,4% (n=14) dos isolados apresentaram os genes blaNDM e blaKPC e 87,6% (n=99) apenas blaNDM. A análise dos perfis de PFGE de K. pneumoniae evidenciou a presença de cinco grupos clonais predominantes. Isolados do principal grupo clonal Ap (n=15) foram detectados nas cidades de São Paulo e Porto Alegre durante todo o período analisado. O grupo clonal Lp foi detectado nas cidades de São Paulo e Recife em 2019. Os dois principais grupos clonais no período pré-CAZ-AVI continham maior número de isolados do que aqueles no período de uso do CAZ-AVI. Os perfis de PFGE de K. quasipneumoniae evidenciaram quatro grupos clonais predominantes, e presentes apenas no estado de São Paulo, com persistência do grupo clonal Aq desde 2017. Quanto à K. variicola, foram observados dois grupos clonais predominantes Av e Bv, o primeiro presente apenas em São Paulo desde 2018 e o segundo em Porto Alegre apenas em 2019. Calculando-se a diferença entre os diâmetros de halo do disco MEM contendo EDTA e ácido fenilborônico (AFB) e o maior dos halos obtidos para MEM com EDTA ou AFB, observou-se que todos os isolados com coexpressão de KPC e NDM apresentaram diferença ≥ 5 mm. Uma fração de 42,3% dos isolados positivos apenas para blaNDM apresentaram sensibilidade para ATM (CIM ≤ 4 mg/L). Todos os isolados testados apresentaram CIM para ATM-AVI ≤ 1/4 mg/L, sendo a CIM90 0,125/4 mg/l. No teste de pré-difusão combinada, o menor diâmetro de halo obtido foi de 23 mm. A espécie predominante na amostragem foi K. pneumoniae. A disseminação clonal, observada neste estudo, contrasta com a diversidade clonal descrita em outros locais do mundo para produtores de NDM, exceto Grécia e China. Considerando os pontos de corte atuais para ATM, é provável que haja resposta clínica adequada no uso de ATM-AVI no tratamento de infecções causadas por isolados produtores de NDM e coprodutores de KPC e NDM. Utilizando-se o valor de corte de ≤ 5 mm para a diferença entre halos de inibição, de MEM com AFB e EDTA e o segundo maior halo com inibidor, a sensibilidade foi de 100% e a especificidade foi de 96,1,0%. O método de pré-difusão com CAZ-AVI e ATM é um método simples e o diâmetro ≥ 23 mm tem excelente correlação com a CIM para ATM-AVI ≤ 1/4 mg/L
The resistance profile, which some species of the Klebsiella pneumoniae complex may express, represent a great threat to human health, particularly when resistant to carbapenems, which are widely used in the treatment of severe infections in hospitalized patients. The main mechanism of resistance to carbapenems is the production of carbapenemases, particularly KPCs and NDMs. One of the compounds developed for the treatment of infections caused by KPC-producing strains is the combination ceftazidime-avibactam (CAZ-AVI), but which has no inhibitory activity on metallobetalactamases, as is the case for NDMs. The objectives of this work were to determine the frequency of K. pneumoniae complex species and KPC co-production, evaluate the clonality of isolates, the susceptibility to aztreonam-avibactam (ATM-AVI), the performance of meropenem (MEM) disks with inhibitors for detecting NDM co-production and KPC and develop a screening test to predict sensitivity to ATM-AVI. A total of 113 NDM-producing or NDM and KPC co-producing K. pneumoniae complexes, from the Fleury Group's bacteria collection, collected in the pre- and post-starting periods of CAZ-AVI use in Brazil, were used in this study. Species identification and the presence of the blaNDM and blaKPC genes were confirmed by multiplex PCR. The clonality of the isolates was evaluated by pulsed field electrophoresis (PFGE) after cleavage with XbaI. Carbapenemase production was confirmed using the Blue Carba test. The performance of MEM and CAZ-AVI disks containing one or more carbapenemase inhibitors was compared with the molecular test. Combined pre-diffusion was performed by preincubating the uninoculated agar with a CAZ-AVI disk, and then applying the bacterial inoculum and na ATM disk after removal of the CAZ-AVI disk. After incubation, halos were measured and correlated with the minimum inhibitory concentration (MIC) for ATM-AVI. ATM and ATM-AVI MICs were determined according to EUCAST. The identification of species by PCR evidenced the following frequencies: K. pneumoniae 75.2% (n=85); K. quasipneumoniae 16.8% (n=19), and K. variicola 8% (n=9). A fraction of 12.4% (n=14) of the isolates had the blaNDM and blaKPC genes and 87.6% (n=99) had only blaNDM. The analysis of the PFGE profiles of K. pneumoniae evidenced the presence of five predominant clonal groups. Isolates from the main clonal group Ap (n=16) were detected in the cities of São Paulo and Porto Alegre throughout the analyzed period. The clonal group Lp was detected in the cities of São Paulo and Recife 2019. The PFGE profiles of K. quasipneumoniae showed four predominant clonal groups, present only in the state of São Paulo, with persistence of the clonal group Aq since 2017. As for K. variicola, two predominant clonal groups Av and Bv were observed, the first present only in São Paulo since 2018 and the second in Porto Alegre only in 2019. Calculating the difference between the inhibition zone diameters of the MEM disk containing EDTA and phenylboronic acid (AFB) and the largest of the inhibition zone diameters obtained for MEM with EDTA or AFB, it was observed that all isolates with co-expression of KPC and NDM showed a difference 5 ≥mm. A fraction of 42.3% of isolates positive only for blaNDM showed sensitivity to ATM (MIC ≤ 4 mg/L). All tested isolates presented MIC for ATM-AVI ≤ 1/4 mg/L, being the MIC90 0.125/4 mg/l. In the combined pre-diffusion test, the smallest inhibition zone diameter obtained was 23 mm. The predominant species in the sample was K. pneumoniae, but a significant fraction of the other species in the complex was also observed in the sample. The clonal spread observed in this study contrasts with the clonal diversity described elsewhere in the world for NDM-producing isolates, except Greece and China. Considering the current cut-off points for ATM, it is likely that there is an adequate clinical response in the use of ATM-AVI in infections caused by NDM-producing and KPC-NDM co-producing isolates in Brazil. Using the cutoff value of 5 mm for the difference between inhibition zones, of MEM with AFB and EDTA and the second largest zone of MEM with inhibitor, the sensitivity was 100% and the specificity was 96.1%. The pre-diffusion method with CAZ-AVI and ATM is a simple method and the diameter ≥ 23 mm has excellent correlation with the MIC for ATM-AVI ≤ 1/4 mg/L