Development and characterization of a fecal-induced peritonitis model of murine sepsis: results from a multi-laboratory study and iterative modification of experimental conditions.

Background: Preclinical sepsis models have been criticized for their inability to recapitulate human sepsis and suffer from methodological shortcomings that limit external validity and reproducibility. The National Preclinical Sepsis Platform (NPSP) is a consortium of basic science researchers, veterinarians, and stakeholders in Canada undertaking standardized multi-laboratory sepsis research to increase the efficacy and efficiency of bench-to-bedside translation. In this study, we aimed to develop and characterize a 72-h fecal-induced peritonitis (FIP) model of murine sepsis conducted in two independent laboratories.

INVESTIGATION OF THE PATHOLOGICAL EFFECTS OF HISTONES, DNA, AND NUCLEOSOMES IN A MURINE MODEL OF SEPSIS.

Background: In sepsis, neutrophil extracellular traps (NETs) are an important interface between innate immunity and coagulation. The major structural component of neutrophil extracellular traps is nucleosomes (DNA-histone complexes). In vitro, DNA and histones exert procoagulant/cytotoxic effects whereas nucleosomes are not harmful.

THE EFFECTS OF DNASE I AND LOW-MOLECULAR-WEIGHT HEPARIN IN A MURINE MODEL OF POLYMICROBIAL ABDOMINAL SEPSIS.

Introduction: Cell-free DNA (CFDNA) has emerged as a prognostic biomarker in patients with sepsis. Circulating CFDNA is hypothesized to be associated with histones in the form of nucleosomes. In vitro, DNA activates coagulation and inhibits fibrinolysis, whereas histones activate platelets and are cytotoxic to endothelial cells.

National Preclinical Sepsis Platform: developing a framework for accelerating innovation in Canadian sepsis research.

Despite decades of preclinical research, no experimentally derived therapies for sepsis have been successfully adopted into routine clinical practice. Factors that contribute to this crisis of translation include poor representation by preclinical models of the complex human condition of sepsis, bias in preclinical studies, as well as limitations of single-laboratory methodology. To overcome some of these shortcomings, multicentre preclinical studies-defined as a research experiment conducted in two or more research laboratories with a common protocol and analysis-are expected to maximize transparency, improve reproducibility, and enhance generalizability.

Does cell-free DNA promote coagulation and inhibit fibrinolysis in patients with unprovoked venous thromboembolism?

Introduction: Cell-free DNA (CFDNA) is the major structural component of neutrophil extracellular traps (NETs). CFDNA contributes to the prothrombotic potential of NETs by promoting thrombin generation and inhibiting fibrinolysis. Patients with venous thromboembolism (VTE) have elevated circulating nucleosomes (i.

Purification of silica-free DNA and characterization of its role in coagulation.

Background: Although extracellular DNA has been reported to activate coagulation, its direct effects and consequent interpretations have recently been questioned because of silica and polyphosphate (polyP) contaminations when DNA is isolated using common silica-based kits.

Objectives: To identify and characterize alternative methods of isolating DNA that is free of silica with functionally undetectable levels of polyP.

Methods: DNA was isolated from the whole blood or buffy coat using three different DNA isolation kits: (a) the silica-based QIAGEN QIAMP DNA Blood mini kit (silica-DNA), (b) the non-silica-based QIAGEN PAXgene Blood DNA kit (PAX-DNA), and (c) the non-silica-based QuickGene DNA whole blood kit large (DBL-DNA).