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Clinical Trial Summary

Renal replacement therapy is a life-saving treatment for patients who have sudden and severe kidney failure. However, some of these patients blood pressure who receive this treatment could become unstable, thus resulting in more injuries to their kidneys and may limit the ability of kidney recovery. In order to mitigate the instability in blood pressure, the mitochondrial functions should be studied. Mitochondria are organelles within our bodies' cells that serve as the main source of energy for cell function. Kidney cells have many of these organelles and when they are damaged, it could contribute to kidney disease. At this time, it is not known whether boosting mitochondria health and function in humans could reduce the harm of instability in blood pressure. This research study is being done to try to explore the impact of HIRRT on mitochondria health and kidney recovery by assessing critically ill patients with AKI who are undergoing SLED treatment in ICU at The Ottawa Hospital.


Clinical Trial Description

BACKGROUND: Acute kidney injury (AKI) that requires renal replacement therapy (RRT) affects 2% of all hospitalized patients and 15% of those admitted to ICU. Non-recovery of kidney function and consequent long-term dialysis-dependence, has a profoundly negative impact on patients' health and quality of life. While RRT is life-saving treatment for severe AKI, hemodynamic instability related to RRT (HIRRT) occurs frequently during all forms of RRT used in ICU. For slow low-efficiency dialysis (SLED), the RRT modality used for hemodynamically unstable patients at The Ottawa Hospital, HIRRT occurs during up to 86% of treatments. HIRRT may cause repetetive ischemia-reperfusion injury (IRI) to patients' already injured kidneys and may limit kidney recovery. At the cellular level, after IRI, there is pronounced loss and dysfunction of mitochondria. Mitochondria are the organelles that serve as the primary source of energy to maintain cellular function. Their depletion and dysfunction results in the evolution of AKI to fibrosis and limits recovery of kidney function. The health of mitochondria depends greatly on a metabolite called nicotinamide adenine dinucleotide (NAD+). Animal studies and a recent phase 1 trial suggest that boosting NAD+ is a promising strategy to attenuate cardiac and kidney IRI. One potential NAD+ booster, nicotinamide riboside (NR), a NAD+ precursor, has an excellent safety profile after having undergone testing in multiple human trials for other indications. Our group's recent systematic review found that few studies have assessed interventions to mitigate HIRRT in critically ill patients and that none targeted or assessed mitochondrial function. Whether boosting mitochondrial function is a truly a promising strategy for mitigating the harms of HIRRT depends on several unknowns. It remains to be determined if baseline levels of NAD+ and NAD+-related biomarkers (NRBs) in patients starting RRT are diminished and if these levels are affected by HIRRT. Similarly, it is unknown if NAD+ and other NRB are removed from the blood by RRT itself. OBJECTIVES: Primary objective: Determine the levels of NAD+ and other NRBs before and after SLED treatments. Secondary objectives: Determine if changes in NAD+ and other NRBs relate to the occurrence of HIRRT. Determine if SLED removes NAD+ and other NRBs by measuring dialysate levels. EXPERIMENTAL PLAN: The investigators propose a prospective feasibility cohort study to measure and compare the levels of NAD+ and NRBs in AKI patients who are treated with SLED in ICU. The investigators conservatively estimate being able to recruit 60 patients over 2 years. Clinical data, as well as blood and urine samples will be obtained pre- and post-SLED for up to 3 consecutive treatments. Additional samples of dialysate will be tested to assess the extent to which NAD+ and NRBs are cleared by SLED. SIGNIFICANCE: Elucidating the role of NAD+ or NRB in the kidney recovery of AKI patients who require RRT in ICU could lead to studies examining NAD+ boosting compounds' potential to mitigate HIRRT and improve clinical outcomes such as kidney recovery to RRT-independence. This approach has fewer barriers than there would be for developing a new NAD+-boosting compound as NR is already sold as a food supplement. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05264285
Study type Observational
Source Ottawa Hospital Research Institute
Contact Jennifer Kong, MPH
Phone 613-738-8400
Email jkong@toh.ca
Status Recruiting
Phase
Start date December 6, 2021
Completion date September 30, 2024

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