The Effects of Intensive Insulin on Somatic and Visceral Protein Turnover in Acute Kidney Injury...
Acute Renal FailureWe propose to determine the acute metabolic effects of intensive insulin therapy when administered to AKI patients with a particular focus on its effects on protein metabolism. We hypothesize that the degree of insulin resistance correlates with protein catabolism in critically ill patients with AKI, and that intensive insulin therapy will result in substantial reductions in both whole-body and skeletal muscle protein breakdown thereby improving overall protein balance. We also hypothesize that this therapy will have favorable effects on the inflammatory and oxidative stress profile of patients with AKI. The metabolic response to these interventions will be assessed through stable isotope infusion techniques, allowing for the most precise assessment of protein and energy homeostasis.
Preoperative RRI and Long-term Risk for CKD
Acute Kidney InjuryAcute Kidney Disease3 moreRenal resistive index (RRI) is calculated from ultrasonographic Doppler measurements of flow velocities in intraparenchymal renal arteries. Normal values are around 0.60, and 0.70 is considered the upper normal threshold in adults. Both preoperative and postoperative elevation of RRI has shown promise in early detection of AKI after cardiac surgery. Further, elevated RRI before coronary angiography is associated with an increased risk of cardiovascular complications up to 1 year after the procedure. The role of preoperative RRI in predicting long-term renal and cardiovascular complications after elective surgery is however not known. The aim of this study is to assess the role of preoperative RRI to predict the risk of persistent renal dysfunction as well as renal- and cardiovascular complications up to 5 years after surgery.
RDRI and NGAL in Acute Kidney Injury in Abdominal Surgery
Acute Kidney InjuryAcute kidney injury (AKI), which can occur after major surgeries, leads to increased morbidity and mortality if not detected and managed promptly. In clinical practice, serum creatinine and urine output values of patients are monitored to detect AKI, but these parameters can cause delays in diagnosis. Additionally, studies have been conducted on biomarkers such as Neutrophil Gelatinase-Associated Lipocalin (NGAL) and cystatin C in recent years, but definitive results have not been achieved. Renal Doppler Resistive Index (RDRI) is a non-invasive index believed to reflect renal vascular perfusion. RDRI measurement is a repeatable, inexpensive, and easy-to-apply technique. RDRI has been found to be associated with AKI in conditions such as renal dysfunction, hypertension, and post-traumatic hemorrhagic shock. Furthermore, due to the impact on renal perfusion in patients undergoing major surgery, RDRI, which reflects renal vascular resistance, can serve as an indicator of kidney perfusion. The aim of this study is to test the hypothesis, 'Does measuring postoperative RDRI in major abdominal surgery cases yield higher sensitivity and specificity values in detecting acute kidney injury compared to NGAL?'
Serum Cysteine Rich Protein 61 and Cystatin C for Early Detection of Acute Kidney Injury in Patients...
Acute Kidney InjuryAcute Kidney Injury (AKI) is defined as an absolute increase in serum creatinine ≥0.3 mg/dl (≥26.4 μmol/l), a percentage increase in serum creatinine ≥50% (1.5-fold from baseline), or a reduction in urine output (documented oliguria < 0.5 ml/kg/hour for > 6 hours) S.creatinine which is considered the gold standard currently for diagnosis of AKI remains unchanged until 50% of kidney function falls down. It is affected by non-specific factors like diet, age, dehydration, muscle mass, gender, and drugs. There were evidences of the association between AKI and acute coronary syndrome (ACS); First, AKI detection may be missed by cardiologists. Physicians tend to disregard mild or transient serum creatinine elevation during hospital stay for ACS, and they often attribute small serum creatinine increases to laboratory variations.
Renal and Cardiac Risk Factors of AKI After Liver Transplantation
Acute Kidney InjuryAcute Renal Injury1 moreBackground: Liver transplantation (LT) is an extensive operation with various factors contributing to the development of acute kidney injury in the perioperative period. Early diagnosis of AKI can improve clinical outcomes in LT recipients. Renal resistive index is measured in renal arteries and high resistive values are associated with more adverse cardiovascular events and renal failure progression. Myocardial performance index reflects overall cardiac function rather than systolic or diastolic function alone. Aim of the study: to investigate whether combined doppler renal resistive index and myocardial performance index could predict early postoperative acute kidney injury in living donor liver transplant recipients. Study design: a prospective observational study that will be conducted at Liver Transplantation Unit at Mansoura University on 105 consecutive living donor liver transplant recipients. Methods: Renal resistive index (assessed by transabdominal ultrasound) and myocardial performance index (assessed by transthoracic echocardiography) will be measured just before operation, on termination of operation and then daily in the intensive care unit for 7 days. Patients will be observed for development of acute kidney injury.
A Study Looking at the Use of Biomarkers to Provide Early Indication of Acute Kidney Injury in Patients...
SepsisAcute Kidney Injury1 moreBiomarkers that provide an early indicator of kidney stress could be useful in clinical practice to detect silent episodes of acute kidney injury (AKI) or for early identification of subjects at risk of AKI. Two urinary biomarkers have been identified as early indicators of AKI. The NephroCheck® test is a commercially available test that uses these biomarkers, and this study assesses the use of these in reducing negative clinical outcomes for patients with sepsis-associated AKI. The study will enroll subjects diagnosed with sepsis, including septic shock, who will be randomly assigned to either receive NephroCheck®-guided kidney-sparing and fast-tracking interventions; or to receive current Standard of Care assessment and treatment. NOTE: Participants are no longer being recruited to this study.
A Study to Support the Development of the Enhanced Fluid Assessment Tool for Patients With Acute...
Acute Kidney InjuryAcute Kidney Injury (AKI) is the sudden and recent reduction in kidney function. This can be detected by measuring a rise in blood creatinine level or from a reduction in urine. Reasons for developing AKI, include dehydration, low blood pressure, medication and infection. When the kidneys stop working, there can be a build-up of toxins and fluid. It is extremely important to identify a patient's fluid status as too little can cause further damage to the kidneys and too much can be harmful. Assessment is varied and often inaccurate and there needs to be a standard approach to fluid assessment.
Relation Between Acute Kidney Injury and Mineral Bone Disease
Acute Kidney InjuryRelation between acute kidney injury and mineral bone disease
Diagnostic Performance of Two Tools
Acute Kidney InjuryDeveloping new tools for early detection of AKI in open-heart surgeries.
Carotid Doppler and IVC Measurements for Volume Guided Management in Acute Kidney Injury Patients...
Acute Kidney InjuryEvaluate Inferior Vena Cava Indices (Diameters , IVC-CI)&carotid doppler measurements (corrected Carotid Flow Time ,Carotid Blood Flow ,Carotid Artery Peak Velocity Variations) as Non-Invasive Technique for volume guided management in AKI Patient. Estimate correlation between IVC (Diameters , IVC-CI) & carotid doppler measurements (corrected Carotid Flow Time ,Carotid Blood Flow ,Carotid Artery Peak Velocity Variations) as Non-Invasive Technique for volume guided management in AKI Patient.