Sustained Low Efficiency Dialysis Versus Continuous Renal Replacement Therapy for Acute Kidney Injury in Critically Ill Cirrhotics

Overview

The current prospective pliot randomized controlled trial has been designed to demonstrate non-inferiority of sustained low efficiency dialysis (SLED) when compared to continuous renal replacement therapy in managing AKI in context of cirrhotics with septic shock who are hemodynamically unstable. The patients would be randomized 1:1 to either SLED or CRRT after screening for the inclusion and exclusion criteria.

Aim \& Objectives Primary objective To study the efficacy of sustained low efficiency dialysis versus continuous renal replacement therapy in cirrhotics with septic shock and severe AKI Secondary Objectives Effects on renal recovery rates in the two groups To assess the effects on 7-day and 28-day mortality Efficacy on Lactate Clearance Duration of mechanical ventilation and ICU stay Effect on systemic hemodynamics and reversal of shock Clearance of endotoxin and pro-inflammatory cytokines Effect on coagulation and endothelial function Improvement in SOFA scores at 48 hours and day 5 Methodology All included patients would be randomised to receive either continuous renal replacement therapy or sustained low efficiency dialysis (SLED) Patients with septic shock would be screened. Following this, patients meeting the inclusion and exclusion criteria will be screened and randomized to the two treatment groups. Standard criteria will be considered to define refractoriness to fluids and initiation of dialysis. Fluid management would be performed using the dynamic indices in patients on mechanical ventilation or using IVC diameter and passive-leg rasing in non-intubated patients. In all patients, baseline endotoxin activity assay and blood and urine sample will be stored for looking at the effect of therapy on cytokine profile (TNF alpha, IL-IB, IL6, IFN-gamma, MCP-1, IL-10 and ADAMTS and vWillebrand factor). Septic shock would be defined as a clinical construct of sepsis with persisting hypotension requiring vasopressors to maintain MAP\>=65 mm of Hg and having a serum lactate \>2 mmol/L despite adequate volume resuscitation. The blood flow rate, dialysis flow rate and need of ultrafiltration would be recorded for all enrolled patients. Subsequent sessions of therapy would be done as per requirement and recorded. The dose of vasopressor in norepinephrine equivalent would be recorded for all patients at enrolment as under Study Population: Patients with cirrhosis with septic shock and AKI requiring dialysis Indications for initiation of dialysis 1. Metabolic acidosis with ph\<7.2 or serum bicarbonate \<15 mEq/lt 2. Hyperkalemia with serum potassium \>5.5 Meq/L non-responsive to standard treatment 3. Oliguria with or without fluid overload (non-responsive to diuretics) with urine output of less than 0.5ml/kg/hr despite fluid resuscitation 4. Uremic complications (encephalopathy, pericarditis etc.) Study Design: * A randomized controlled study- Non-inferiority trial * The study will be conducted on patients admitted to Department of Hepatology from June 2020 to December 2020 at ILBS, New Delhi * Study group will comprise critically ill patients with cirrhosis with septic shock and AKI requiring dialysis Study Period: The study will be conducted on patients admitted to Department of Hepatology from May 2020 to December 2020 at ILBS, New Delhi Sample Size Calculation: The study will be designed as a pilot RCT with an aim to enrol 25 patients in each group. At completion a decision for termination versus continuation of the study would be taken. Intervention: CRRT versus SLED until renal recovery Renal recovery would be defined as increase in urine output to more than 400ml/day in patients with anuria, resolution of metabolic complications or spontaneous decline in urea and creatinine necessitating stopping dialytic support Monitoring and Assessment: Hourly till the patient is in the intensive care then every 7 days until day 28 Statistical analysis * All variables shall be expressed in mean (sd) or median (range) * Variables will be compared by Mann- Whitney U test * For Categorical variables we will use Chi-Square or Fisher's test * Survival analysis will be done using Cox-proportional regression analysis Actuarial probability of survival shall be calculated by Kaplan- Meier graph and compared by log- rank test. Adverse Effects: Worsening of hypotension, bleeding any cardiac side-effects, worsening lactate, hypothermia, bradycardia Stopping Rule: clinically relevant bleeding (i.e., transfusion requirements of at least 2 units of packed red cells), arrythmias (brady or tachyarryhthmias), poorly tolerated supraventricular arrhythmia related blood stream infections, development of electrolyte abnormalities hypokalemia, hypophosphatemia or hypomagnesemia refractory to medical management, renal recovery

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