Vasculopathic Injury and Plasma as Endothelial Rescue in Septic Shock Trial. VIPER-Sepsis (EudraCT no. 2016-000707-81)

Phase 4TerminatedNCT02875236

Rigshospitalet, Denmark5 enrolled

Overview

Efficacy and safety of octaplasLG® administration vs. crystalloids (standard) in patients with septic shock - a randomized, controlled, open-label investigator-initiated pilot trial.

Recently a great interest in the role of the endothelium in the pathophysiology of sepsis has been introduced. The endothelium is coated by a "thick" endothelial glycocalyx protecting it from becoming activated and prevents capillary leakage. The glycocalyx binds approximately 1-1.5 litres of the plasma portion of the circulating blood and regulates the dynamic exchange between the intra -and extravascular space, therefore, functioning both as a barrier and as a mechano transducer. Damage to the glycocalyx is caused by major trauma, major surgery, or ischemia and reperfusion injury, and resulting in vascular leakage. Damage to the endothelium is further augmented by resuscitation of crystalloids and colloids as well as related to bleeding. Thawed fresh frozen plasma may cause a further "inflammatory hit" towards the glycocalyx and endothelium. The degradation of the glycocalyx increases endothelial permeability with edema formation entitled 'the endothelial leakage syndrome', and resulting in the development of hypotension, pulmonary complications, abdominal compartment syndrome, multi-organ failure and death. The current strategy for maintaining the intravascular volume in patients with acute critical illness focuses on the administration of crystalloids, such as Ringer-Acetate, and natural colloids. Crystalloids, especially, are known to extravasate and cause edema, which is associated with hypoperfusion and compromised vital organ function by the increased tissue pressure that limits oxygen delivery, and ultimately leading to the complications described above. Until recently, synthetic colloids were the preferred choice of fluids for these patients, but a Scandinavian study in patients with severe sepsis and septic shock (6S trial) demonstrated an increased mortality in patients receiving synthetic colloids, thereby, establishing the adverse effect of such a strategy. Consequently, new resuscitation fluids are needed, preferably not only to support the intravascular volume, but also to support and restore the endothelial integrity.

Study Type

INTERVENTIONAL

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

NONE

Enrollment

Conditions

Septic Shock

Interventions

OctaplasLG®DRUG

OctaplasLG is an donor plasma product pooled from approximately 1000 single donor units. It possesses unique features when compared to standard fresh frozen plasma, such as having standardized concentrations of natural pro- and anti-coagulation factors, a standardized volume as well as being pathogen free. The manufacturing method of OctaplasLG removes immune complexes and cells in several steps of microfiltration in addition to viral, bacterial and prion pathogen inactivation by immune neutralization. OctaplasLG should reduce the "inflammatory hit" on the endothelium, including the glycocalyx, by having standardized levels of coagulation proteins, which can give more sustainable support to the endothelial regeneration as compared to standard fresh frozen plasma.

Ringer-acetatDRUG

Crystalloid used as standard of care.

Eligibility

Sex: ALLMin age: 18 Years

Medical Language ↔ Plain English

Inclusion Criteria: * Adult intensive care patients AND * Septic shock requiring infusion of vasopressor/inotropic agents to maintain blood pressure as defined in international guidelines AND * Consent obtainable from patient or by proxy (independent physicians and/or next of kin) Exclusion Criteria: * Documented refusal of blood transfusion OR * Treatment with GPIIb/IIIa inhibitors \< 24h from screening OR * Withdrawal from active therapy OR * Previously within 30 days included in a randomised trial, if known at the time of enrolment OR * Known Immunoglobulin A deficiency with documented antibodies against Immunoglobulin A OR * Known hypersensitivity to OctaplasLG: the active substance, any of the excipients (Sodium citrate dihydrate, Sodium dihydrogenphosphate dihydrate or Glycine) or residues from the manufacturing process (Tri (N-Butyl) Phosphate (TNBP) and Octoxynol (Triton X-100)) OR * Known severe deficiencies of protein S OR * Pregnancy (non-pregnancy confirmed by patient being postmenopausal or having a negative urine-hCG) OR * Severe cirrhotic hepatic failure with expected need for treatment with terlipressin

Locations (1)

Intensive Care Unit Bispebjerg Hospital

Copenhagen, Denmark

Outcomes

Primary Outcomes

Microvascular perfusion

Change in microvascular perfusion as evaluated by sidestream darkfield (SDF; MicroVision Medical, Amsterdam, The Netherlands) imaging technique.

Time frame: 6 hours after inclusion

Endothelial activation and damage

Change in biomarkers indicative of endothelial activation and damage (soluble E-selectin, syndecan-1, thrombomodulin, soluble VE-cadherin, nucleosomes)

Time frame: 6 hours after inclusion

Secondary Outcomes

Mortality

Difference in mortality between patients receiving active treatment (OctaplasLG®) and standard of care (crystalloids)

Time frame: From 6 hours until 90 days

Length of stay in Intensive Care Unit

Length of stay in the Intensive Care Unit

Time frame: through study completion, an average of 1 month

Vasopressors

Days on vasopressors

Time frame: through study completion, an average of 1 month

Ventilator

Days on ventilator

Time frame: through study completion, an average of 1 month

Bleeding

Bleeding requiring \> 2 RBC / day

Time frame: 1 week

SAR

Severe adverse reactions, defined as symptomatic thromboembolism

Time frame: 30 days

Data from ClinicalTrials.gov

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