Aim: Population pharmacokinetics (PK) models may be effective to improve antibiotic exposure with individualized dosing. The aim of the study is to assess cefazolin exposure using a population PK model in critically ill children. Methods: We conducted a single center observational study including children under 18 years old who had cefazolin plasma monitoring before and after the model implementation. First concentration at steady state of each cefazolin course was analyzed. Optimal exposure was defined by concentrations values ranged from free concentration over 4 times the MIC for 100% of the dosing interval to total trough or plateau concentration under 100 mg/L. Results: Fifty-eight patients were included, of whom 39 and 19 children received conventional dosing or model-informed dosing, respectively. Median [range] age was 2.3 [0.1-17] years old and median weight was 14.2 [2.9-72] kg. There were more continuous infusions (CI) in the model group than in the conventional group (n=19/19 (100%) vs n=23/39 (59%)). Compared to conventional dosing, model-informed dosing provided more optimal exposure (n=17/39 (44%) vs n= 15/19 (79%), p=0.01) and less underexposure (n= 18/39 (46%) vs n= 2/19 (10%), p=0.008), without increasing overexposure (n= 4/39 (10%) vs n= 2/19 (11%), p=1). Moreover, the time to reach a 50% decrease of C Reactive Protein levels was significantly shorter in the model group than the conventional group (3 [0.5-13] vs 4 [1-34]; p=0.045. Conclusions: Use of individualized cefazolin model-informed dosing improves critically ill children’s exposure. Further studies are needed to assess the clinical benefit of cefazolin PK model application.

Several cases of herpes zoster (HZ) following mRNA COVID-19 vaccination (BNT162b2 and mRNA-1273) have been reported, and first epidemiological evidences suggest an increased risk. We used the worldwide pharmacovigilance database VigiBase to describe HZ cases following mRNA COVID-19 vaccination. We performed disproportionality analyses (case/non-case statistical approach) to assess the relative risk of HZ reporting in mRNA COVID-19 vaccine recipients compared to influenza vaccine recipients and according to patient age. Until 30th June 2021, of 716,928 reports about mRNA COVID-19 vaccines, we found 7,728 HZ cases. When compared to influenza vaccines, mRNA COVID-19 vaccines were associated with a significantly higher reporting of HZ (reporting odds-ratio 1.9, 95%CI [1.8-2.1]). Furthermore, we found a reduced risk of reporting HZ among under 40 year-old persons compared to older persons (reporting odds-ratio 0.39, 95%CI [0.36-0.41]). For the first time, we could assess at a global level the risk of HZ after mRNA COVID-19 vaccination.