Conservative vs. Liberal Approach to Fluid Therapy of Septic Shock in Intensive Care

Sepsis Clinical Trial

— CLASSIC  

Official title:

Conservative vs. Liberal Approach to Fluid Therapy of Septic Shock in Intensive Care (CLASSIC) - a Randomised Clinical Trial

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT02079402
• Other study ID #: RH-ITA-005
• Secondary ID: 2014-000902-37
• Status: Completed
• Phase: Phase 4
• First received: February 28, 2014
• Last updated: December 8, 2015
• Start date: September 2014
• Est. completion date: November 2015

Study information

• Verified date: December 2015
• Source: Scandinavian Critical Care Trials Group
• Contact: n/a
• Is FDA regulated: No
• Health authority: Denmark: Danish Health and Medicines Authority
• Study type: Interventional

Clinical Trial Summary

The purpose of this trial is to o assess feasibility of a protocol comparing conservative (trigger guided) vs. liberal (target guided) approach to fluid resuscitation in patients with septic shock after initial fluid resuscitation.

Description:

Fluid resuscitation is a key intervention in treatment of sepsis, but exact indications for fluid and amount of fluid administered is not established. Current guidelines for fluid therapy beyond 6 hours are vague and ungraded and most observational studies suggest harm with increasing positive fluid balance.

Objective To assess feasibility of a protocol comparing a conservative (trigger guided) vs. liberal (target guided) approach to fluid resuscitation in patients with septic shock after initial fluid resuscitation.

Design Multicentre, parallel group, centrally randomised, open label trial with adequate generation of allocation sequence, and adequate allocation concealment.

Sample size 150 included patients we will be needed to show a 1.7 L difference in fluid volumes between the groups based on the mean volume of resuscitation fluid given within first 5 days observed in the 6S trial of 5.3 L (SD 3.7 L) with a maximal type 1 and 2 error of 5% and 20% (power=80%), respectively.

Funding The trial is publicly funded by the Danish Council for Strategic Research

Statistical Analysis Plan for the Classic Trial

Outcome measures The outcome measure "Amount of resuscitation fluid given during ICU stay" has been changed from a secondary outcome measure to a co-primary outcome measure, which differs from the Classic Trial protocol. The Classic Trial intervention period is entire ICU stay and we consider it appropriate to have an outcome measure addressing this as co-primary outcome measure. This change has been approved by the Danish Ethical Committee and the Danish Health and Medicines Authorities (Applied for June 19 2015).Multiplicity issues will be addressed (see Analyses section).

Analyses

All statistical tests will be 2-tailed. Multiplicity adjustment. Dealing with multiplicity, the parallel gate keeping method with truncation parameter lambda = 0 will be used to adjust the observed (raw) P values for primary and secondary outcomes (Dmitrienko A, Tamhane AC, Bretz F. Multiple testing problems in pharmaceutical statistics. Chapman & Hall/CRC biostatistics series (2010)).

By this approach the null hypotheses are divided into two families: F1 including null hypotheses related to the two co-primary outcomes and F2 including null hypotheses related to the secondary outcomes. The raw P values are then adjusted. If at least one of the adjusted P values in family 1 is less than the chosen level of significance the hypotheses in family 2 are also tested. If not the hypotheses in family 2 are all accepted without test. However, in all events all raw P values as well as the adjusted ones will be presented.

Lambda may be varied between 0 and 1. If the effect sizes of the primary outcomes (corresponding to the null hypotheses of F1) are uniformly high a lambda near 1 will help improve the overall power. On the other hand if the effect sizes are expected to vary across the endpoints, the overall power is likely to be maximized when lambda is small (Dmitrienko A, Tamhane AC, Bretz F. Multiple testing problems in pharmaceutical statistics. Chapman & Hall/CRC biostatistics series (2010)).

We expect a degree of correlation between the two co-primary outcome measures somewhat in between full correlation and no correlation, so a conventional adjustment of the significance level (0.05/2=0.025) may result in a too conservative adjustment. Thus, we have chosen to adjust the level of significance by a factor in between a full Bonferroni adjustment and no adjustment at all, that is 0.05/1.5=0.033. In the above procedure the raw P values and not the significance level are adjusted and usually α (the significance level) is chosen to be 0.05. In family 1 the smaller raw P value is adjusted by multiplying it with

2. Therefore, we implement the above adjustment solving 2*0.0.033 ≤ level of significance => level of significance = 0.066 to secure that a raw P value ≤0.033 for a co-primary outcome will imply that the corresponding null hypothesis will be rejected.

Revised power calculation

The multiplicity adjustments for the co-primary outcome measures infer changes in the power calculations. The revised power calculations are based on 150 included patients with α=0.033 and β=0.80:

Outcome measure 1.1: Power to show a 1.8 L (opposed to 1.7 L with α=0.05) difference in fluid volumes between the groups based on the mean volume of resuscitation fluid given within first 5 days observed in the 6S trial of 5.3 L (SD 3.7 L) Outcome measure 1.2: Power to show a 4.1 L (opposed to 3.7 L with α=0.05) difference based on mean of 8.0 L (SD 8.1 L) total resuscitation fluid volume during ICU stay days in the 6S trial.

We regard the revised power to be sufficient to address the research question; thus, the sample size will not be changed.

1. Analysis of outcome measures

Two analyses will be done for the co-primary outcome measures (1,2):

1. an analysis adjusted by the stratification variable (site) - primary analysis

2. an analysis adjusted by the stratification variable and baseline covariates ((a) surgery during current hospitalisation but prior to randomisation Y/N, (b) Age, (c) more than 5 L of fluid (crystalloids, colloids and blood products combined) given in the 24 hours prior to randomisation Y/N, (d) highest dose of noradrenalin in the 24 hours prior to randomization, (e) estimated weight at randomisation For exploratory outcome (10) we will perform both an unadjusted analysis (for log rank test) and an analysis adjusted by the stratification variable site.

The remaining outcome measures will only be analysed adjusted by the stratification variable (site).

Co-primary outcomes (1,2), secondary outcomes (3-6) and exploratory outcome (15) will be analysed using the general linear model.

The exploratory outcomes (9) and (13) will be analysed using logistic regression.

The exploratory outcome (10) will be analysed using Kaplan Meier survival plots and the log rank test. Adjusted analysis will be done using Cox regression model stratified by site.

Secondary outcome (7) will not be compared between intervention groups , because major protocol violations can only occur in the conservative (Trigger-guided) group.

Secondary outcomes (8), and exploratory outcomes (11), (12) and (14) will be analysed using the Poisson distribution with link = log and offset or the negative binomial distribution with link=log and offset as appropriate. As a sensitivity analysis the two groups will also be compared using a non-parametric test (van Elteren test adjusted for site) and major differences in the results obtained by the two approaches will be discussed.

2. Sensitivity analyses

The primary outcomes will be analyzed using each of the two per-protocol populations.

Populations Intention-to-treat population: All randomised patients except those who withdraw their consent for the use of data.

Per-protocol population:

All randomised patients except patients having one or more protocol violations defined as:

1. One or more resuscitation fluid boluses given without fulfilment of one or more of the Classic-criteria in the Conservative (Trigger-guided) group.

OR

2. Use of colloids (either Albumin or synthetic colloids) for resuscitation OR

3. Monitoring revealed that one or more in- or exclusion criteria were violated OR

4. Stopped/withdrawn patients

Subgroups:

1. Patients with more than 5 L of fluid (crystalloids, colloids and blood products combined) given in the 24 hours prior to randomisation

The results of the subgroup analysis will be presented if P of test of interaction between subgroup indicator and intervention group indicator for primary outcome is < 0.05. The P-value of the test of interaction will be presented regardless.

Missing Data

Missing primary outcome data:

We do not expect missing data on the co-primary outcome measures (1,2). Only complete case analysis will be made.

Missing secondary outcome data We do not expect missing data on the secondary outcome measures 7 and 8. Only complete case analysis will be made.

Missing data on secondary outcomes 3-6: Since the predictors (centre indicator and intervention indicator) will not be missing only the outcome may be missing. In this case a complete case analysis will be unbiased since the cases with outcome missing carry no information. However, auxiliary variables (i.e. variables not included in the analytical model such as e.g. other outcomes) may be correlated with the outcome and their inclusion in the analysis will improve the efficiency. This possibility is best dealt with using a structural equation model for the regression analysis with direct maximum likelihood estimation and inclusion of the auxiliary variables (the SAS proc calis for continuous dependent variable may be used). However, the data may still be missing not at random. Therefore, a sensitivity analysis estimating the range of potential bias that may be caused by data missing not at random is done where the missing values in one group are replaced by the minimum value in the whole material and the missing values in the other group are replaced by the maximum value in the whole material and vice versa. The corresponding P values will be estimated. The standard error of each of the two estimates of the regression coefficient will be replaced by the corresponding standard error from the complete case analysis (or the direct ML analysis if auxiliary variables are used) if it is smaller than the former

Missing baseline data

Fluids given prior to randomisation Yes/no Some patients may have missing data on fluids given prior to randomisation. In this case it is a regression of each of the co-primary outcomes on centre, and the above mentioned baseline covariates of which only fluids given prior to randomization Yes/no has missing values. As long as the probability of missing data on the predictor is independent of the outcome a complete case analysis will give unbiased results even if the probability depends on the missing predictor values (i.e., data are NMAR) (Allison PD Missing data Sage publications (2001)). Therefore, if the mean values of the outcome do not differ significantly (P < 0.10) between those patients with missing values and those without missing values a complete case analysis will be done. If not multiple imputation of the missing baseline variable will be done using monotone logistic regression.

Recruitment information / eligibility

• Status: Completed
• Enrollment: 153
• Est. completion date: November 2015
• Est. primary completion date: November 2015
• Accepts healthy volunteers: No
• Gender: Both
• Age group: 18 Years and older

Eligibility

Inclusion Criteria:

• Adult intensive care patients (age = 18 years) with sepsis defined as 2 of 4 SIRS criteria fulfilled within 24 hours and suspected or confirmed site of infection or positive blood culture.

• Suspected or confirmed circulatory impairment (hypotension/hypoperfusion/hypovolemia) for no more than 12 hours including the hours preceding ICU admission.

• At least 30 ml/kg ideal body weight (IBW) fluid (colloids, crystalloids or blood products) given in the last 6 hours.

• Shock defined as ongoing infusion of norepinephrine (any dose) to maintain blood pressure.

Exclusion Criteria:

• Use of any form of renal replacement therapy (RRT).

• RRT deemed imminent by the ICU doctor, i.e. RRT will be initiated within 6 hours.

• Severe hyperkalemia (p-K > 6 mM).

• Plasma creatinine > 350 µmol/l.

• Invasively ventilated with FiO2 > 0.80 and PEEP > 10 cmH2O

• Life-threatening bleeding.

• Kidney or liver transplant during current admission.

• Burns > 10% body surface area (BSA).

• Previously enrolled in the CLASSIC trial and has finished the 90 day observation period.

• Patients for whom it has been decided not to give full life support including mechanical ventilation and RRT.

• Consent not obtainable.

Study Design

Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment

Related Conditions & MeSH terms

• Sepsis
• Septic Shock
• Shock
• Shock, Septic

Intervention

Drug:
• Isotonic crystalloids

Locations

Country	Name	City	State
Denmark	Dept. of Anaesthesia and Intensive Care, Aalborg University Hospital, Denmark.	Aalborg
Denmark	Copenhagen University Hospital, Rigshospitalet	Copenhagen
Denmark	Dept. of Intensive Care, Herlev Hospital, Herlev, Denmark	Herlev
Denmark	Dept. of Intensive Care, Herning Hospital, Herning, Denmark	Herning
Denmark	Dept. of Intensive Care, Nordsjællands Hospital - Hillerød, Denmark.	Hillerød
Denmark	Dept. of Intensive Care, Holbæk Hospital, Holbæk, Denmark	Holbæk
Denmark	Dept. og Intensive Care, Holstebro Hospital, Denmark	Holstebro
Denmark	Dept. of Intensive Care, Randers Hospital, Denmark.	Randers
Finland	Dept. of Intensive Care Medicine, Helsinki University Hospital, Helsinki, Finland.	Helsinki

Sponsors (1)

Lead Sponsor	Collaborator
Anders Perner

Countries where clinical trial is conducted

Denmark,  Finland, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Other	All cause mortality		90 days after randomisation	No
Other	All-cause mortality	Time to death with censoring on the date at 90 days after the last patient had been randomized	Total observation time (90 days from randomisation of last patient)	No
Other	Days alive without use of mechanical ventilation	(rate: 1-(days with event/days alive(1-90))	in the 90 days from randomisation	No
Other	Days alive without use of renal replacement therapy	(rate: 1-(days with event/days alive (1-90))	in the 90 days from randomisation	No
Other	Worsening of acute kidney injury according to KDIGO criteria	Worsening of acute kidney injury according to KDIGO criteria in the 90 days after randomisation as compared to baseline value, Y/N	in the 90 days from randomisation	No
Other	Ischaemic events	Yes/No	Followed up until ICU discharge; an expected average of one week	No
Other	Delta-creatinine	defined as highest p-creatinine during ICU stay minus most recent p-creatinine prior to randomisation	Followed up until ICU discharge; an expected average of one week	No
Primary	Resuscitation volume		5 days after randomisation	No
Primary	Resuscitation volume		Followed up until ICU discharge; an expected average of one week	No
Secondary	Fluid balance		5 days after randomisation	No
Secondary	Fluid balance		Followed up until ICU discharge; an expected average of one week	No
Secondary	Total fluid input		5 days after randomisation	No
Secondary	Total fluid input		Followed up until ICU discharge; an expected average of one week	No
Secondary	Number of patients with protocol violations	Major protocol violation defined as: One or more resuscitation fluid boluses given without fulfilment of one or more of the Classic-criteria in the conservative (Trigger-guided) group.	Followed up until ICU discharge; an expected average of one week	No
Secondary	Accumulated serious adverse reactions (SARs)	(SARs/length of ICU stay).	Followed up until ICU discharge; an expected average of one week	No