We have previously demonstrated that a high-dose, prolonged-infusion meropenem regimen (2 g every 8 h [q8h]; 3-hour infusion) can achieve 40% free drug concentration above the MIC against Pseudomonas aeruginosa with MICs of <16 g/ml. The objective of this experiment was to compare the efficacy of this high-dose, prolonged-infusion regimen against carbapenemase-producing Klebsiella pneumoniae isolates with the efficacy against P. aeruginosa isolates having similar meropenem MICs. An in vitro pharmacodynamic model was used to simulate human serum concentrations. Eleven genotypically confirmed K. pneumoniae carbapenemase (KPC)-producing isolates and six clinical P. aeruginosa isolates were tested for 24 h, and time-kill curves were constructed. High-performance liquid chromatography (HPLC) was used to verify meropenem concentrations in each experiment. Meropenem achieved a rapid >3 log CFU reduction against all KPC isolates within 6 h, followed by regrowth in all but two isolates. The targeted %fT>MIC (percent time that free drug concentrations remain above the MIC) exposure was achieved against both of these KPC isolates (100% fT>MIC versus MIC ؍ 2 g/ml, 75% fT>MIC versus MIC ؍ 8 g/ml). Against KPC isolates with MICs of 8 and 16 g/ml that did regrow, actual meropenem exposures were significantly lower than targeted due to rapid in vitro hydrolysis, whereby targeted %fT>MIC was reduced with each subsequent dosing. In contrast, a >3 log CFU reduction was maintained over 24 h for all Pseudomonas isolates with meropenem MICs of 8 and 16 g/ml. Although KPC and P. aeruginosa isolates may share similar meropenem MICs, the differing resistance mechanisms produce discordant responses to a high-dose, prolonged infusion of meropenem. Thus, predicting the efficacy of an antimicrobial regimen based on MIC may not be a valid assumption for KPC-producing organisms.
Background and Objective: We have developed an expert computer system for the control of oral anticoagulation therapy, accessible by the patients via their own computer. To investigate if the weekly measurement and dosing of international normalized ratio (INR) at home using the online Internet-based system was superior to conventional treatment, we performed a randomized, controlled trial. Patients and Methods: All 669 patients in our anticoagulation clinic were asked to participate in the trial, providing that they had Internet access and could use the CoaguChek XS system. A total of 140 patients were included and randomized to (A) once weekly measurement and report online, (B) twice weekly measurement and report online, and (C) continued conventional treatment with INR measurement in the lab every 4 weeks and dose adjustment by letter. Results: Group A had 79.7% (95% CI 79.0-80.3) of time in therapeutic range (TTR), group B 80.2% (95% CI 79.4-80.9) of TTR, and group C 72.7% (95% CI 71.9-73.4) TTR. Groups A and B perform statistically significantly better than the conventional group C, with a difference of TTR of 7% points (p < 2.2 · 10 À16 ), whereas
Objectives We hypothesized that the amount of antigen produced in the body during a COVID-19 infection might differ between patients, and that maximum concentrations would predict the degree of both inflammation and outcome for patients. Methods Eighty-four hospitalized and SARS-CoV-2 PCR swab-positive patients, were followed with blood sampling every day until discharge or death. A total of 444 serial EDTA plasma samples were analyzed for a range of biomarkers: SARS-CoV-2 nuclear antigen and RNA concentration, complement activation as well as several inflammatory markers, and KL-6 as a lung marker. The patients were divided into outcome groups depending on need of respiratory support and death/survival. Results Circulating SARS-CoV-2 nuclear antigen levels were above the detection limit in blood in 65 out of 84 COVID-19 PCR swab-positive patients on day one of hospitalization, as was viral RNA in plasma in 30 out of 84. In all patients, complete antigen clearance was observed within 24 days. There were definite statistically significant differences between the groups depending on their biomarkers, showing that the concentrations of virus RNA and antigen were correlated to the inflammatory biomarker levels, respiratory treatment and death. Conclusions Viral antigen is cleared in parallel with the virus RNA levels. The levels of antigens and SARS-CoV-2 RNA in the blood correlates with the level of IL-6, inflammation, respiratory failure and death. We propose that the antigens levels together with RNA in blood can be used to predict the severity of disease, outcome, and the clearance of the virus from the body.
Long-term storage of biological samples from patients has become increasingly important in studies of disease control and treatment. The first nationwide Danish diabetes project, ie, The Danish Center for Strategic Research in Type II Diabetes (DD2), aims to improve treatment and the long-term outcome of patients with newly diagnosed type 2 diabetes (T2D). The DD2 project includes establishment of a biobank with samples from 50,000 patients with newly diagnosed T2D. This paper describes how blood and urine samples from 10,000 patients per year are collected, handled, and stored. The biobank includes whole blood, DNA, and plasma and urine samples, all frozen at −80°C. Sampling tubes have been standardized and are sent to hospital outpatient clinics and general practitioners where samples are taken, handled, aliquoted, and returned by mail overnight in standardized cryostorage tubes. When received at the biobank, samples are frozen without further treatment. From each patient, 24 cryostorage tubes are stored. Each tube is labeled with a barcode that links the data to other information available in a clinical databank registry. When patients are enrolled in DD2, a questionnaire is filled out and a quality monitoring system ensures that patients, samples, and questionnaires can be linked together at all times. The biobank is located at Vejle Hospital and the Danish National Biobank at Statens Serum Institut. As of the end of March 2012, samples from 1186 patients have been stored, and currently samples from 8–10 patients arrive per day. We have established the first national biobank in Denmark where blood, DNA, and plasma and urine samples from patients with newly diagnosed T2D are systematically collected and stored. This biobank enables sophisticated analysis of genetic variation and response to treatment, as well as disease marker studies that better classify disease status, progression, and complications.
In a clinically relevant cohort of patients, miRNAs in plasma identified in the present and previous studies were inadequate biomarkers for the diagnosis of CD.
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