Urinary Parameters to Predict Weaning of Renal Replacement Therapy in the Critically Ill

Not Applicable

Not yet recruiting

• Conditions: Acute Kidney Injury
• Interventions: Procedure: Single strategy; Procedure: Combined strategy

• Registration Number: NCT06214390
• Lead Sponsor: University Hospital, Montpellier

Brief Summary

Data on the optimal period for RRT weaning in critically ill patient are scarce. The current practice for RRT weaning is based on urine output, the threshold of which is debatable. Two recent observational studies have shown that an increase in urinary creatinine or urea concentrations is a better predictive marker of RRT weaning than urine output.

An unjustified delay in RRT weaning leads to numerous complications such as catheter-related infections, delay of the patient's functional recovery, severe ionic disorder, bleeding, and induced hemodynamic instability. It also induces an increase workload for careers and in cost without any additional benefit for the patient. Conversely, too early weaning inevitably limits the prevention on fluid accumulation that is independently associated with an increased risk of mortality and inevitably leads to resumption of RRT requiring reinsertion of dialysis catheter resulting in potential complications.

A multicentre randomized controlled trial will be then necessary and only able to identify the optimal RRT weaning strategy.

The main objective is to compare two RRT weaning strategies on RRT duration in critically ill patients with acute kidney injury: a strategy based on combined criteria (urine output + urinary parameters) as compared to a single strategy based only on urine output.

The study protocol will be an open-label, two parallel group, multicenter, randomized, controlled clinical trial, in which enrolled ICU adult patients will have RRT weaning based either on urine output alone (single strategy) or on urine output and urinary parameters (combined strategy).

When the urine output is greater than 500ml/24h, the enrollment must be performed within 24hours in 2 groups:.

" Single strategy ": In the single strategy, RRT weaning will be achieved when urine output exceeds 500ml/24h without diuretics or 2000ml/24h with diuretics use.

" Combined strategy": In the combined strategy, when urine output exceeds 500ml/day with or without diuretic use, RRT will be stopped during 48h to assess urinary indices (urinary creatinine and urea). Soon as urinary indices are higher than thresholds values (urinary creatinine \> 5.2mmol/day and urinary urea \> 1.35mmol/kg/day, RRT will be weaned. If they are lower, a RRT session will be perform after which the weaning process will be resume.

The primary endpoint is the number of RRT-free days at D30 with at least 7 consecutive days alive and without RRT.

Detailed Description

RRT is an invasive high-cost treatment with potentially severe complications. However, there is a major dearth of data on RRT weaning in the ICU. The weaning strategy using only urine output is based on scarce and debatable data. The two observational studies concluded independently that the urinary concentration of creatinine or urea would be able to predict RRT weaning. These new data propose a novel combined strategy based on urine output and urinary parameters which are more specific to renal recovery and potentially better suited to determine the optimal period of RRT weaning.

This trial aims to determine the best RRT weaning strategy and so indirectly to determine the optimal duration of RRT in the ICU. Our trial methodology is able to determine clearly if one of the two weaning strategies is more effective and will lead to more health benefits and fewer risks for ICU patients.It is an open-label, two parallel group, multicenter, randomized, controlled clinical trial, in which enrolled ICU adult patients will have RRT weaning based either on urine output alone (single strategy) or on urine output and urinary parameters (combined strategy).

Critically ill patients aged 18 and over, admitted to the ICU, receiving or having received invasive mechanical ventilation and/or catecholamine infusion at least 48h, with acute kidney injury, at KDIGO 3 stage associated with oliguria at least \< 200ml/ 24h before RRT initiation, treated with intermittent or continuous renal replacement therapy and resumption of urine output \> 300ml/24h with or without diuretic use; will be included in the study.

Enrolled patients will be randomized into two groups, the single strategy or the combined strategy. When the urine output is greater than 500ml/24h, the enrollment must be performed within 24hours:

"Single strategy": RRT weaning will be achieved when urine output exceeds 500ml/24h without diuretics or 2000ml/24h with diuretics use.

"Combined strategy": When urine output exceeds 500ml/day with or without diuretic use, RRT will be stopped during 48h to assess urinary indices (urinary creatinine and urea). Soon as urinary indices are higher than thresholds values (urinary creatinine \> 5.2mmol/day and urinary urea \> 1.35mmol/kg/day), RRT will be weaned. If they are lower, a RRT session will be perform after which the weaning process will be resume.

After the RRT weaning, RRT will be resumed both groups if there is at least one of the following criteria:

* oliguria (urine outpout \<300ml/24h with or without diuretic use) or anuria \>72h;

* serum urea concentration \>40mmol/L,

* serum potassium concentration of more than 5.5mmol/L despite medical treatment

* pH \<7.15 in a context of pure metabolic acidosis (PaCO2 \<35 mmHg) or in a context of mixed acidosis with PaCO2 ≥50mmHg without possibility of increasing alveolar ventilation and despite medical treatment;

* Acute pulmonary edema due to fluid overload responsible for severe hypoxemia requiring oxygen flow rate \>5 l/min to maintain a SpO2 ≥ 95% or requiring an FiO2 \>50% in patients on high-flow cannula oxygen therapy or invasive or non-invasive mechanical ventilation and despite diuretic therapy (equivalent to furosemide dose of 1mg/kg at least).

If several weaning are performed because RRT is resumed many times during the ICU stay, the patient will keep the assigned weaning strategy at randomization to D30.

The days elapsed between two RRT sessions are not considered as RRT-weaned days if they are less than 7 consecutive days, and are not taken into account.

The primary endpoint is the number of RRT-free days at D30 with at least 7 consecutive days alive and without RRT.

To highlight a minimal clinically difference of 2 RRT-weaned days between groups for a two-sided type I error at 5% and a statistical power greater than 90% \[55\], we have estimated that 600 patients (300 by group) will be necessary, with 1) variability (standard-deviation and interquartile range) of RRT-free days ranged between (median \[interquartile range\]) 17 \[2-26\] vs. 19 \[5-29\] , and 12 \[1; 25\] vs. 16 \[2; 28\] and 2) 30-day mortality around 35 to 45%.

The choice of the difference of 2 RRT-weaned days was determined according to clinical relevance corresponding to a reduction of at least one RRT session.

To compare two RRT weaning strategies on its duration in patients: a strategy based on combined criteria (urine output + urinary parameters) as compared to a single strategy based only on urine output, the primary analysis will be performed by Student t-test or the nonparametric Mann-Whitney if the assumptions of the t-test are not met. The homoscedasticity will be analyzed using Fisher-Snedecor test. Results will be expressed as effect-size and 95% confidence interval.

Study Timeline

• Study First Submitted: 2023-12-21
• Status Verified: 2024-01
• Study Start: 2024-01
• Study First Submitted QC: 2024-01-09
• Last Update Submitted: 2024-01-09
• Study First Posted: 2024-01-19
• Last Update Posted: 2024-01-19
• Primary Completion: 2025-09
• Study Completion: 2025-12

Recruitment & Eligibility

• Status: NOT_YET_RECRUITING
• Sex: All
• Target Recruitment: 600

Inclusion Criteria

• Adults (18 years of age or older)
• Admitted to the ICU
• Receiving or having received invasive mechanical ventilation and/or catecholamine infusion (epinephrine or norepinephrine or dobutamine) at least 48h
• With acute kidney injury, at KDIGO 3 (See Appendix 1) stage and associated with oliguria at least < 200ml/ 24h before RRT initiation
• Treated with intermittent or continuous renal replacement therapy
• Resumption of urine output > 300ml/24h with or without diuretic use

Exclusion Criteria

• Preexisting Chronic kidney disease with estimated glomerular filtration rate (eGFR) < 30ml/min
• AKI caused by vascular occlusion, glomerulonephritis, vasculitis, post-renal obstruction, thrombotic microangiopathy, tumor lysis syndrome
• RRT for another cause than AKI (eg: drug intoxication,...)
• Decision to forgo life-sustaining treatment including RRT
• Cirrhosis with Child-Pugh score of C or hepatorenal syndrome
• Kidney transplantation
• Patient already enrolled in the study
• Participation in another clinical trial assessing the impact or duration of RRT
• Pregnancy in progress or planned during the study period or breastfeeding women
• Patients protected by law (Art. L1121-6 and L1121-8 of the Code de la Santé Publique) : Adult protected by law or patient under guardianship or curatorship
• Subjects not covered by public health insurance
• Absence of written informed consent from the patient or his or her proxy (if present) before inclusion or when possible when the patient has been included in an emergency setting

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Single strategy	Single strategy	A single strategy based only on urine output
Combined strategy	Combined strategy	A strategy based on combined criteria (urine output + urinary parameters)

Primary Outcome Measures

Name	Time	Method
Number of RRT-free days at D30 with at least 7 consecutive days alive and without RRT	Day30	Days without RRT

Secondary Outcome Measures

Name	Time	Method
Rate of documented gastric ulcers in ICU	Day30	Number per patient
Number of RRT resumption between inclusion and Day30	between inclusion and Day30	Number of RRT
Rate of dialysis catheter-related colonization in ICU	Day30	Number per patient and number per catherter-days
Incidence of hypokalemia with and without clinical complications in ICU	Day30	Defined as a serum potassium concentration \< 3.5 mmol/L
Incidence of hypophosphatemia with and without clinical complications in ICU	Day30	Defined as a serum phosphate concentration \< 0.6 mmol/L
Incidence of hyponatremia with and without clinical complications in ICU	Day30	Defined as a serum sodium concentration \< 135 mmol/L
Rate of bleeding and etiologies in ICU	Day30	Number per patient
Number of days with mechanical ventilation and high-flow nasal cannula oxygen therapy in ICU	Day30	Days
Number of RRT weaned days at Day90	Day90	Days without RRT
Renal recovery at Day30	Day30	Number of patient with a serum creatinine lower than 125% of the baseline serum creatinine
Serum Creatinine and urea at ICU discharge	Day of ICU discharge	Serum creatinine and urea values
Number of days in ICU and hospital within Day90	within Day90	Days
Rate of ICU, hospital and Day90 mortality	Day90	Number of died patients
Costs related to RRT and ICU stay within Day90	within Day90	Euros
Number of RRT sessions in ICU and at Day90	in ICU and at Day90	Days without RRT
Renal recovery at Day90	Day90	Number of patient with a serum creatinine lower than 125% of the baseline serum creatinine
Serum Creatinine and urea at Day90	Day90	Serum creatinine and urea values
Rate of dialysis catheter-related infection in ICU	Day30	Number per patient and number per catherter-days
Rate of nosocomial infections in ICU	Day30	Number per patient
Number of days with vasopressors treatment in ICU	Day30	Days
Nadir of serum bicarbonate in ICU	Day30	Serum bicarbonate value
Incidence of hyperphosphatemia with and without clinical complications in ICU	Day30	Defined as a serum phosphate concentration \> 1.5 mmol/L
Incidence of hypernatremia with and without clinical complications in ICU	Day30	Defined as a serum sodium concentration \> 145 mmol/L
Rate of cardio-vascular events in ICU	Day30	Defined as : rhythm disorders (ventricular tachycardia, ventricular fibrillation, episode of atrial fibrillation requiring medical treatment or external electric counter shock), cardiac failure, ischemic events, cardiac arrest, arterial hypotension and hypertension requiring treatment
Rate of severe hypoxemia related to fluid overload	Day30	Defined as pulmonary edema requiring oxygen therapy to maintain an SpO2 of more than 95% in ICU
Incidence of hyperkalemia with and without clinical complications in ICU	Day30	Defined as a serum potassium concentration \> 5 mmol/L

Trial Locations

Locations (2)

Clermont-Ferrand Hospital University; 🇫🇷 Clermont-Ferrand, France

Montpellier University Hospital; 🇫🇷 Montpellier, France