Effect of Protein Dosage on Persistent Acute Renal Failure in Critically Ill Patients.

Background:

Acute kidney injury (AKI) is a frequent complication in critically ill patients and is associated with prolonged hospital stay, need for renal replacement therapy (RRT), and higher mortality. Patients with AKI often develop protein-calorie malnutrition due to increased catabolism, inflammation, and nutrient losses. This is further aggravated when RRT is required, as dialysis contributes to nitrogen and amino acid losses. Clinical guidelines recommend providing an adequate protein intake to support recovery; however, the optimal protein dose remains uncertain.

Recent trials, such as the EFFORT Protein study, suggest that higher protein intake may benefit some critically ill patients, especially those with malnutrition or frailty. However, the same study also indicated potential harm in patients with severe illness or AKI, showing that excessive protein intake (>2.2 g/kg/day) could worsen kidney outcomes and increase mortality.

Given the uncertainty regarding the actual effect of increased protein intake in patients with AKI-and the possibility that it may be harmful in those with persistent AKI-this study uses a Target Trial Emulation approach to evaluate whether protein intake on the fifth day of ICU admission exceeding 1.2 g/kg/day leads to prolonged duration of AKI in critically ill patients.

Objective:

This study aims to evaluate whether a higher protein intake (>1.2 g/kg/day) compared with standard or lower intake (≤1.2 g/kg/day) affects the duration of AKI and clinical outcomes in critically ill patients.

Study Design:

This is a retrospective, multicenter study using a target trial emulation design. Patient data will be collected from electronic health records of five tertiary hospitals in Argentina. Eligible patients will be identified on the fifth day of their ICU admission, referred to as Time Zero (T0). Classification into treatment groups will depend on protein intake at T0:

• Group 1: Standard protein intake (≤1.2 g/kg/day)
• Group 2: High protein intake (>1.2 g/kg/day) No interventions will be administered as part of the study; data will be analyzed retrospectively.

Population:

Inclusion criteria: age ≥18 years, ICU admission, exclusive enteral or parenteral nutrition, and presence of AKI or worsening chronic kidney disease as defined by KDIGO criteria (rise in serum creatinine >0.3 mg/dL within 48 hours, or 1.5-fold increase within 7 days).

Exclusion criteria: advanced chronic kidney disease (creatinine clearance <30 ml/min/1.73 m²) or dialysis at admission, prior kidney transplant, severe liver disease (Child-Pugh >7), AKI requiring RRT at baseline (T0), or body mass index >30.

Primary Outcome: Time to recovery of kidney function within 30 days, defined as return of serum creatinine to ≤1.5 times baseline or ≤30% above baseline, with death considered as a competing event.

Secondary Outcomes:

• Change in blood urea levels at day 14.
• Daily change in urea trajectory during the first 14 days.
• Days free of AKI and days free of RRT within 30 days.
• Mortality at day 30.
• ICU length of stay within 30 days.
• Reasons for initiation of RRT.

Sample Size: Based on prior literature, we estimated that 172 patients per group are required for non-inferiority testing with 80% power, α = 0.05, and a non-inferiority margin of 2 days of AKI. Adjustments for potential confounders indicate that at least 105 patients per group will be necessary.

Statistical Analysis:

• Primary analysis will be conducted on an intention-to-treat basis.
• Propensity score weighting with inverse probability of treatment weighting (IPTW) will be used to adjust for baseline differences between groups.
• For time-to-event outcomes (e.g., AKI recovery, ICU discharge, mortality), competing risks will be addressed using Fine-Gray regression.
• Continuous outcomes (e.g., urea levels) will be compared using t-tests or Mann-Whitney tests, depending on distribution. Longitudinal changes in urea will be analyzed using mixed-effects models with restricted cubic splines.
• Proportions (e.g., mortality) will be compared using logistic regression models adjusted with propensity score weighting.

Ethical Considerations:

This study involves a retrospective review of de-identified patient data. It poses minimal risk, as no interventions are introduced beyond standard care. Confidentiality will be strictly maintained in accordance with national and local regulations, including Argentina's Personal Data Protection Law (Law 25,326). Informed consent will be waived in accordance with CIOMS guidelines, as the study is retrospective, presents minimal risk, and has significant social and scientific value.

Significance:

This study will provide new evidence on the safety and effectiveness of protein dosing in critically ill patients with AKI. The results may inform future guidelines on nutritional therapy in the ICU and optimize outcomes for patients at high risk of kidney complications.