Complications of pneumococcal bacteremia after 13-valent conjugate vaccine withdrawal

In the Region of Madrid, universal immunization with the 13-serotypes pneumococcal conjugate vaccine (PCV13) started in May 2010. In July 2012, public funding ceased. Vaccination coverage decreased from >95% to 82% in 2013 and to 67% in 2014. Our aim was to investigate the impact of PCV13 withdrawal from Madrid Region's universal immunization program on the incidence of complicated pneumococcal bacteremia. We performed a multi-center retrospective cohort study, from 2009 to 2014. Participants were children aged <14 years with Streptococcus pneumoniae bacteremia. Complications were defined as any condition requiring intensive care or surgery. Sequelae were conditions lasting ≥90 days. A total of 168 patients were recruited. One-fourth of both immunized and non-immunized patients had complications. Global complications increased after PCV13 withdrawal. A total of 28% of PCV13 serotypes presented complications. Complications due to PCV13 serotypes did not increase after July 2012. No-PCV13 serotypes increased progressively from 2009 on, and 23% presented complications. A significant risk of complications was found for patients with meningitis, empyema, C-reactive protein >100 mg/L, and serotype 1. A multivariate analysis indicated that complications were associated with meningitis and hospital admission after July 2012. Sequelae were significantly associated with children <2 years of age, meningitis and no-PCV13 serotypes. The incidence of complications due to PCV13 serotypes did not increase two years after PCV13 withdrawal. Nevertheless, all-serotypes complications increased. The likely cause was that no-PCV13 serotypes (associated with meningitis) are on the rise.

Dissection of the protective response elicited by the DOMV component of the 4CMenB vaccine

Neisseria meningitidis serogroup B is the major etiological agent of meningitis and life-threatening sepsis, against which two vaccines are licensed. The 4CMenB vaccine is composed of three major protein antigens (fHbp, NHBA and NadA) and detergent-extracted outer membrane vesicles (DOMV) from the NZ98/254 strain. DOMV are safe, immunogenic and able to raise bactericidal antibodies, mainly attributed to the immunodominant PorA protein. Nevertheless, DOMV offer a complex reservoir of potentially immunogenic proteins, whose relative contribution in protection is still poorly characterized. By testing antisera from vaccinated infants in serum bactericidal assay, we observed that the addition of DOMV in the vaccine formulation enhanced breadth of coverage compared to recombinant proteins alone against a panel of 11 meningococcal strains mismatched for the vaccine antigens. To unravel the DOMV components involved in such protection, 30 DOMV antigens were cloned and expressed in Escherichia coli as recombinant proteins and/or in vesicles to maintain their native conformation. Samples obtained were both included in tailor-made protein-microarrays to immunoprofile the antibody repertoire raised by DOMV-containing formulations and were individually used for mouse immunization studies to assess their ability to induce bactericidal antibodies. The protein-array immunosignature of mouse DOMV/4CMenB antisera unveiled a subset of 8 DOMV-reactive proteins potentially responsible for the additional protective responses. The antisera derived from mouse immunizations showed high levels of antibodies and recognized the corresponding antigen across different meningococcal strains. Among the protein-array reactive antigens, OpcA, NspA and PorB induced antibodies able to kill 10 of the 11 genetically diverse meningococcal strains and the specificity of the protective role of OpcA and PorB was also confirmed in 4CMenB infant vaccinee sera. In conclusion, we identified additional PorA-independent antigens within DOMV involved in broadening the coverage of 4CMenB, thus supporting the key role played by vesicles in this multivalent formulation.

Stewardship antibiotica neonatale: valutazione dell'esposizione antimicrobica nelle sospette early onset sepsis (EOS)

Background: Le early-onset sepsis (EOS) sono infezioni batteriche invasive definite dalla presenza di batteri nel sangue e/o nel liquor cefalorachidiano che esordiscono nelle prime 72 ore di vita e causano in epoca neonatale mortalità e morbilità importanti. Scopo: Determinare l’eccesso di trattamento antibiotico (Overtreatment index=OI) nei neonati di EG ≥34 settimane con sospetta sepsi ad esordio precoce. Metodi: Tutti i nati dal 1.01.2014 al 31.12.2018 di EG ≥34 settimane presso IRCCS Azienda Ospedaliero-Universitaria e l’Ospedale Maggiore di Bologna che hanno ricevuto terapia antibiotica endovenosa nelle prime 168 ore di vita nel sospetto di EOS. Sono stati identificati 2 gruppi: EOS provata (N=7) ed EOS sospetta (N=465). Risultati: L’incidenza di EOS è stata 0.22 su 1000 nati vivi, rispettivamente 0.12/1000 per Streptococcus agalactiae (GBS) e 0.06/1000 per Escherichia coli (E.coli). L’1.75% dei neonati ha ricevuto terapia antimicrobica empirica a largo spettro. L’OI è risultato 68. L’esposizione al trattamento antibiotico nella popolazione è stata di 85 giorni/1000 nati vivi. Tra i fattori di rischio materni, il tampone vagino-rettale (TVR) e l’urinocoltura positiva sono risultati associati al rischio di EOS provata (p=.017, p =.000). I valori di proteina C reattiva (PCR) al T0, T1 e T2 tra i due gruppi sono risultati significativi (p=.000). All’analisi multivariata è stata confermata la significatività delle variabili descritte. (TVR non noto OR=15.1, 95%CI 1.98-115.50, p =.009, urinocoltura positiva OR=30.1, 95%CI 3.6-252.1, p = .002, PCR T0 OR=1.6, 95% CI 1.29-2.07, p = .000.) Conclusioni: L’individuazione precoce di fattori di rischio e la valutazione degli indici di flogosi in neonati sintomatici può ridurre l’OI e la durata della terapia antibiotica in casi di sepsi non confermata. L’uso appropriato degli antibiotici in questa popolazione è particolarmente importante poichè riduce lo sviluppo di germi multiresistenti. Nelle Terapie Intensive Neonatali, i programmi di stewardship antimicrobica dovrebbero guidare la gestione delle sepsi.

Epidemiological studies on toxoplasma gondii infection in a one health perspective

The objective of the present Ph.D. thesis was to investigate with a One Health approach the epidemiological patterns of T. gondii infection in Italy, to better understand the transmission dynamics of the parasite, following different research lines. The results of a retrospective analysis in animals and human showed the widespread distribution of T. gondii in the study area, with specific antibodies found in various animal species and human populations, indicating its constant presence across diverse environments. The environment plays a significant role in T. gondii's epidemiology. Migratory aquatic birds, rodents, wolves, and wild boars were investigated as sentinels of their spread, highlighting the potential transmission across geographic areas and infection risks for wildlife in natural settings. The study also provided insights into seroprevalence in wolves. Dogs, subjected to serological investigations exhibited risk factors for T. gondii infection, such as cohabitation with cats, coprophagy behaviours, and continuous outdoor. Correlation between serological evidence of exposure to T. gondii and pathological anxiety in large-size dogs was observed, and the consumption of raw meat was associated with a higher risk of infection in these animals. Results of the investigations conducted in this thesis, demonstrate the dynamic nature of T. gondii infection in cattle, characterized by new infections and declining antibody levels over the production cycle. The study also describes a co-infection between T. gondii and Sarcocystis hominis in bovine eosinophilic myositis. In the final part of the Thesis, a comprehensive genotyping of T. gondii in Italy reveals the predominance of Type II strains, particularly in cases of ovine abortion and fatal toxoplasmosis among captive Lemur catta. This approach enhances our understanding of the parasite's genetic diversity and transmission patterns, vital for effective management of its impact on human and animal health in Italy.