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NCT07467889
This study aims to investigate the changes in blood levels of micronutrients and carnitine in critically ill patients with Acute Kidney Injury (AKI) who are undergoing Continuous Renal Replacement Therapy (CRRT). While CRRT is a life-saving intervention for managing metabolic disturbances and fluid overload in patients with Stage 2-3 AKI, it may also lead to the inadvertent removal of essential micronutrients (vitamins, trace elements, and amino acids) through the extracorporeal circuit. The research will prospectively compare 100 adult patients across two groups: those receiving CRRT and those managed without CRRT. Researchers will analyze blood samples and effluent fluid to determine the clearance rates and total losses of various substances, including carnitine, selenium, zinc, and various amino acids. By comparing levels at the first hour and 24th hour of intensive care admission, the study seeks to determine if CRRT significantly contributes to micronutrient deficiencies in this vulnerable population.
NCT07447791
Acute kidney injury is a potentially life threatening condition which affects 1 in 2 patients in the Intensive Care Unit (ICU). Patients often need dialysis treatment, also called renal replacement therapy. Renal replacement therapy is a treatment that removes toxins and excess fluid from the blood stream. It consists of having a small plastic catheter in a vein in the neck or in the groin through which blood flows through a dialysis machine and is cleansed and excess water is removed. The cleansed blood is then returned to the patient via the same catheter. One of the major areas of uncertainty for doctors in the ICU is "What is the right intensity of renal replacement therapy for patients with acute kidney injury?" A higher intensity indeed removes more toxins but also removes other substances in the blood, including vitamins, nutrients and important medications. The current usual dose is around 25 ml/kg/hr but clinical practice in the UK is very variable and some patients routinely receive higher doses and some get lower doses. Data from large databases worldwide have suggested that a lower dose is safe and effective and may potentially allow the kidneys to recover faster but confirmation is lacking. In this study, the investigators investigate whether renal replacement therapy at a lower intensity is as effective and safe as currently used doses. Participants will be randomised to receiving renal replacement therapy at usual or lower intensity. There will be no change to any other aspects of treatment. The results will inform the investigators whether the study protocol is feasible and how best to design a future larger research study.
NCT05275218
There is no specific therapy for acute kidney injury. It is presumed that supportive measures improve the care and outcome of patients with acute kidney injury. To investigate whether an implementation of a supportive extended care "bundle" in high-risk patients for persistent acute kidney injury (AKI) can reduce the occurrence of persistent surgical AKI. In order to investigate whether the extended KDIGO bundle can prevent persistent AKI in patients with high chemokine ligand 14 (CCL14) as well as in patients with low CCL14, patients will be randomized with stratification by the CCL-value.
NCT02095275
B-type natriuretic peptide (BNP) is rapidly released by the ventricles of the heart in response to myocardial stretch. This cardiac neurohormone is mostly elevated in patients with fluid overload or myocardium dysfunction. BNP is a very useful and important marker. It can predict mortality and cardiac events in patients in the ICU setting. In stable hemodialysis patients with normal LV function on echocardiography, high BNP levels are likely the result of blood volume expansion and require reduction in postdialysis dry weight. In the past, there were many methods to evaluate fluid status. Some are not reliable such as central venous pressure or physical examination. Some are invasive and expensive such as Swan Ganz、PiCCO catheter or bioimpedance device. Nevertheless, About the relationship between BNP and fluid status, a study found a significant relation between bioimpedance-derived body composition (BC) (fluid distribution) parameters and BNP concentrations. This relationship was independent of the cardiac history of the patient and suggests that the natriuretic peptide levels are to some degree modifiable by changing a patient's fluid distribution. In this study, the investigators want to observe that if the level of BNP can predict the occurrence of acute kidney injury and the need of renal replacement therapy. Besides, the investigators also want to see if BNP can be a useful and convenient marker to guide adjustment of optimal fluid status and then to improve outcome.