Early Vasopressors in Sepsis

NHS Greater Glasgow and Clyde25 sites in 1 country1,006 target enrollmentOctober 11, 2022

ConditionsSepsis

InterventionsNorepinephrine Balanced Crystalloid

DrugsNorepinephrine

Overview

Phase: Phase 3
Intervention: Norepinephrine
Conditions: Sepsis
Sponsor: NHS Greater Glasgow and Clyde
Enrollment: 1006
Locations: 25
Primary Endpoint: The primary objective is to determine whether early PVI (within 12 hours of admission) targeted to MAP of ≥65 mmHg improves clinical effectiveness in hospitalised adult patients with septic shock compared with usual care, in the first 48 hours.
Status: Recruiting
Last Updated: 2 months ago

Overview Investigators Eligibility Criteria Arms & Interventions Outcomes Sites Similar Trials

Overview

Brief Summary

Sepsis is a life-threatening reaction to an infection. It happens when the immune system overreacts to an infection and starts to damage the body's tissues and organs.

The aim of this research study is to compare the two different ways to treat sepsis, in the early phase of treatment immediately after the participants arrive in hospital. The standard approach is to give a salt solution fluid through a drip in the participants arm to start with, then adding in a medication that increases the blood flow to the participants vital organs (a vasopressor mediation called norepinephrine) if required. The alternative approach is to start the vasopressor medication immediately, and then add in extra salt solution fluid via a drip if required. Vasopressors work by increasing the blood pressure which allows a better blood flow to the internal organs. The investigators plan to see which approach is better and to see if they have a role in improving a patient's recovery time, reducing complications, the length of time they stay in hospital and longer term poor health.

Based on research that has already been done, the investigators believe treating patients with vasopressors when they arrive in the Emergency Department, may have potential advantages over the standard fluids used today. However, the evidence is not clear and that is why this research is being done.

Detailed Description

Sepsis results from overwhelming reactions to microbial infections where the immune system initiates dysregulated responses that lead to remote organ dysfunction, shock and ultimately death. Sepsis remains a significant global issue - as well as direct mortality, survivors suffer long term reductions in patient centred outcomes, with reduced quality of life and functional status. Patients with hypotension and organ hypoperfusion as a result of sepsis have poorer outcomes by dysregulated inflammation, endothelial dysfunction, immune suppression, and organ dysfunction. Current guidelines highlight the importance of early fluid resuscitation, but the association of early fluid therapy with improved outcomes is unclear. In the resuscitation phase, current practice is to give intravenous (IV) fluid and intermittent vasopressor boluses if required, before, for some patients, continuous vasopressor infusion via a central venous line in Intensive Care (ICU). An alternative, early continuous peripheral vasopressor infusion (PVI) is not routine practice in the UK. Current practice in the UK is guided by NICE Sepsis guidance and the international Surviving Sepsis Campaign (SSC) consensus recommendations. Both specify intravenous fluid administration as a central tenet of early resuscitation of patients with septic shock, with intravenous vasopressor administration recommended after intravenous fluid resuscitation. NICE recommend boluses of 500ml of crystalloid and "refer to critical care for review of management including need for central venous access and initiation of vasopressors". SSC recommend 30ml/kg crystalloid in first hour, followed by vasopressors to maintain MAP\>65. The current NICE fluid resuscitation guideline, November 2020, continues to emphasise 500ml boluses of crystalloid as usual care. A recent international survey of 100 critical care and EM physicians regarding intravenous fluid resuscitation practice, confirmed that an initial bolus of 1000ml of crystalloid, followed by 500ml boluses of crystalloid remained the most common management strategy for the initial treatment of septic shock. This persisted despite the lack of benefit demonstrated in three landmark trials of protocolised sepsis management. In recent years, there has been increasing acceptance of peripheral administration of norepinephrine, based on evidence of safety and efficacy. The Intensive Care Society published guidance on peripheral vasopressor infusion in November 2020. We have recently conducted a survey amongst ED and ICU clinicians in the UK regarding attitudes and current practice related to the use of intravenous peripheral vasopressors. Eighty two respondents provided the following answers 1. Experience of use of any intravenous vasopressor in ED was high (81%); 2. Exclusive PVI made up 23% of all vasopressor use in ED; 3. Norepinephrine (norepinephrine) was the most common vasopressor (54%); 4. Barriers to PVI were local protocols and an appropriate level of care in the destination ward for a patient on vasopressor infusion.

Registry

clinicaltrials.gov

Start Date

October 11, 2022

End Date

October 1, 2027

Last Updated

2 months ago

Study Type

Interventional

Study Design

Parallel

Sex

All

Investigators

Sponsor

NHS Greater Glasgow and Clyde

Responsible Party

Sponsor

Eligibility Criteria

Inclusion Criteria

•Age \>18 years
•Clinically suspected or proven infection resulting in principal reason for acute illness
•SBP \< 90 mmHg or MAP of \< 65 mmHg (within an hour of eligibility assessment)
•Measured serum lactate of \> 2 mmol/L. The serum lactate should be measured 2 hours prior to determination of eligibility, where possible. Longer timeframes may be used and justified within the medical notes if, in the opinion of the investigator, the clinical status of the patient has not significantly improved in the time interval between lactate measurement and eligibility assessment. Lactate measurements more than 4 hours prior to eligibility assessment should not normally be used.
•Hospital presentation within last 12 hours

Exclusion Criteria

•\>1500ml of intravenous fluid prior to screening
•Clinically judged to require immediate surgery (within one hour of eligibility assessment)
•Immediate (\< 1 hour) requirement for central venous access
•Chronic renal replacement therapy
•Known allergy/adverse reaction to norepinephrine
•Palliation / end of life care (explicit decision by patient/family/carer in conjunction with clinical team that active treatment beyond symptomatic relief is not appropriate)
•Previous recruitment in the trial
•Patients with permanent incapacity
•Pregnancy. All women of childbearing potential (WoCBP) must have a negative urine or serum pregnancy test result completed as part of screening requirements.
•WoCBP are defined as fertile, following menarche and until becoming post-menopausal unless permanently sterile. Permanent sterilisation methods include hysterectomy, bilateral salpingectomy and bilateral oophorectomy. A postmenopausal state is defined as no menses for 12 months without an alternative medical cause.

Arms & Interventions

Intervention Arm

Participants will receive peripheral vasopressor infusion of norepinephrine (16 micrograms/ml) during the initial 48 hour study period. All other care will be as per local protocol.

Intervention: Norepinephrine

Standard care

Participants allocated to the control arm will receive standard care as defined by the UK NICE guidelines and the Surviving Sepsis Campaign guidelines during the 48 hour study period post randomisation. All other care will be as per local protocol.

Intervention: Balanced Crystalloid

Outcomes

Primary Outcomes

The primary objective is to determine whether early PVI (within 12 hours of admission) targeted to MAP of ≥65 mmHg improves clinical effectiveness in hospitalised adult patients with septic shock compared with usual care, in the first 48 hours.

Time Frame: 90 days post randomisation

The primary objective is measured by the Primary outcome of 'Days Alive and Out of Hospital at 90 Days'.

Secondary Outcomes

Accumulated Total Volume of IV fluid(6,12, 24, 48 and 72 hours post randomisation)
Lactate clearance from baseline(6, 12, 24, 48 & 72 hours post randomisation)
Total Dose of Norepinephrine(6, 12, 24, 48 and 72 hours post randomisation)
Proportion of patients who receive vasopressors(6, 12, 24 and 48 hours after recruitment to the control arm)
Proportion of patients who require central venous access(24 and 48 hours post randomisation)
Proportion of patients developing acute kidney injury(During the first 72 hours post randomisation)
Proportion of patients receiving parenteral corticosteroid(24, 48 & 72 hours post randomisation)
All-cause mortality during index hospital admission and at 30 and 90 days(index admission and at 30 & 90 days post randomisation)
Proportion of participants needing renal replacement therapy during index hospital admission(index admission)
Proportion of participants needing non-invasive ventilation during index hospital admission(index admission)
Proportion of participants needing advanced respiratory support (ICNARC definition)(index admission)
Total dose of other vasopressor(6, 12, 24, 48, 72 hours post randomisation)
Length of hospital stay for index admission(up to hospital discharge)
Readmission, post initial hospital discharge, in first 30 days and 90 days post randomisation(30 & 90 days post randomisation)
Proportion of participants admitted to and length of stay in critical care (level 2 or 3) during index hospital admission(During Index Hospital Admission)
Discharge Diagnosis(At initial Index Hospital Discharge & at any subsequent hospital discharges following any re-admissions (post Initial Index Hospital Discharge) 90 days post randomisation.)
HRQoL(Baseline, 30 & 90 Days Post randomisation)