A Maastricht Contrast-Induced Nephropathy Guidelines Study: CIN Prevention Guidelines: Appropriate...
Contrast Induced NephropathyAcute Kidney InjuryContrast-induced nephropathy (CIN) is a side-effect of intravascular administration of iodinated contrast material. It is defined as an absolute (>44μmol/l) or relative (>25%) increase in serum creatinine from baseline values within 48-72 hours of iodinated contrast material administration, and usually resolves within two weeks. In some cases CIN has been associated with persistent renal failure, increased risk of dialysis, and mortality. It is not clear however, whether CIN is causally related to this increased risk or whether risk of morbidity and mortality is inherent in those at risk of CIN. CIN itself is asymptomatic and no treatment for CIN exists. Therefore, the focus lies on its prevention. Prevention guidelines have been drawn up in most countries and been implemented in most radiological departments. In the Netherlands, currently two guidelines for the prevention of CIN coexist, issued by CBO (Centraal BegeleidingsOrgaan) and VMS (Veiligheids Management Systeem). The prevention guidelines aim to increase patient safety by identifying patients that may be at risk of CIN (mostly patients with chronic renal insufficiency), and subsequently administering prophylactic intravenous hydration to the so identified patients, in order to prevent CIN (intravenous normal saline 4-12 hours before and 4-12 hours after exposure to iodinated contrast material). Needless to say, the introduction of these guidelines has had a great impact on patient- and health care burden. In the Netherlands alone it is estimated that yearly 100.000 to 150.000 patients receive the prophylactic treatment, incurring a total cost of over 50 million Euro. Considering the steady yearly increase of contrast procedures and the ageing population, it is evident that, in future, these numbers shall only increase further. The prophylactic treatment prescribed by the guidelines is based on a consensus of the opinion of experts in general agreement that the treatment is beneficial. However, the effectiveness of prophylactic hydration has never been adequately evaluated. Sufficiently large randomised trials comparing prophylactic intravenous hydration with a proper control group receiving no prophylactic treatment are not available, and baseline CIN incidences in untreated populations are unknown. Thus, it is not clear whether prophylactic hydration achieves its aim to prevent CIN. In order to be able to take effective measures to the benefit of patient safety, it is important to distinguish between the mechanisms underlying CIN and the ensuing increased risk of morbidity and mortality: whether it be biological variation of serum creatinine, renal damage, or cholesterol embolism; whether any causality exists between these and iodinated contrast material; and whether prophylactic intravenous hydration can prevent these from occurring without incurring more risks than it removes. These, in short, are the aims of the AMACING study.
Aminophylline and Contrast Induced Nephropathy in Acute Myocardial Infarction
Acute Kidney InjuryThe purpose of this study is to determine whether additional therapy with Aminophylline to hydration with sodium bicarbonate and administration of N-acetylcysteine is more effective to prevent contrast induced acute kidney injury in patients undergoing primary coronary intervention for acute ST elevation myocardial infarction.
High Cut Off Dialysis in Systemic Inflammatory Response Syndrome Patients After Cardiac Surgery...
Systemic Inflammatory Response SyndromeAcute Kidney InjuryA high cut off dialyzer (septeX) is tested in patients after cardio-thoracic surgery with incidence of "systemic inflammatory response syndrome" (SIRS) and associated increased risk for acute kidney injury (AKI). Hypothesis: The high cut off dialyzer (septeX) can increase the postoperative IL-6/Il-10 ratio.
Seattle Cardiorenal Remote Ischemic Preconditioning Trial
Congenital Heart DiseaseCardiopulmonary Bypass3 moreRemote Ischemic Preconditioning (RIPC) is a treatment that may be associated with improved outcomes after cardiac surgery. It can be elicited noninvasively by using a tourniquet to elicit transient ischemia over a lower extremity. It is thought to promote anti-inflammatory and cell survival pathways, and thus protect remote organs against future ischemic injury. We hypothesize that compared to sham treatment, RIPC will be associated with decreased post-operative acute kidney, myocardial, and lung injury.
Early Hydration in Acute Myocardial Infarction
Contrast Induced Acute Kidney InjuryThe purpose of this study is to determine whether hydration with sodium bicarbonate is more effective than hydration with sodium chloride to prevent contrast nephropathy in patients undergoing primary coronary intervention for acute ST elevation myocardial infarction.
Effect of Erythropoietin (EPO) in Kidney After Cardiac Surgery
Kidney FailureAcuteThe purpose of this study is to determine whether erythropoietin is effective in preventing acute kidney dysfunction after coronary artery bypass grafting surgery.
N-Acetylcysteine for Preventing Renal Injury After Cardiac Surgery
Heart DiseaseAcute Renal FailureCardiac surgery improves the survival and quality of life of people with heart disease. Nonetheless, several complications continue to adversely affect outcomes following cardiac surgery. Kidney failure is a particularly important complication that is associated with increased death and duration of hospitalization. The most severe form of postoperative kidney failure, the need for dialysis, is uncommon at present. It is however likely to increase in the future. Patients undergoing cardiac surgery are getting older with more heart failure, diabetes, high blood pressure, and pre-existing kidney disease. Given that these are risk factors for postoperative kidney injury, dialysis rates will likely increase. Although multiple therapies have been tested, none have prevented postoperative kidney failure. N-acetylcysteine (NAC) is a drug that is commonly used to treat Tylenol overdoses. Over the past 2 years, it has also been used to prevent kidney damage after exposure to IV dye. There is good evidence that NAC will reduce kidney damage after IV dye exposure. There are strong reasons to believe that NAC may also prevent postoperative kidney failure. NAC is safe. Its major side-effects are allergic reactions, but serious reactions are rare. Since dialysis is uncommon, large studies are needed to determine if NAC prevents postoperative dialysis. In this situation, a pilot study is needed to determine if such a large trial is feasible. This proposal describes a pilot study. We will determine NAC's effects on creatinine clearance, a measure of how well the kidney works. Reduced creatinine clearance is closely related to dialysis and death after cardiac surgery. This biological marker allows us to determine NAC's effects on kidney function with a reduced sample size. If NAC improves creatinine clearance, it would suggest that NAC prevents postoperative dialysis, and would justify a larger study. A pilot study will help us estimate how many patients will be willing to participate in similar studies, vital for planning a future large study. Finally, our results will estimate how well NAC will reduce dialysis rates. This is needed for calculating the sample size for future studies.The study design is a randomized, double-blinded, placebo-controlled clinical trial among patients undergoing bypass surgery or heart valve surgery at the Toronto General Hospital (Toronto, ON). We will recruit 176 people who are at increased risk for developing kidney failure after surgery. Participants will receive either NAC or sugar solution during their operation. If participants have returned home within a month of surgery, they will be contacted at home on the 30th day after surgery to determine if they had any kidney-related problems since returning home. All participants will return to the Toronto General Hospital (TGH) during the 8th week after surgery for creatinine blood test and weight.
A Dose Escalation and Safety Study of I5NP in Patients Undergoing Major Cardiovascular Surgery
Injury of KidneyAcute Renal FailureThis is a Phase 1, randomized, double-blind, dose escalation, safety and pharmacokinetic study. The study will be conducted in approximately 8-10 centers in the United States and Switzerland. Up to 32 patients who have undergone major cardiovascular surgery will participate. Patients will receive a single IV injection of I5NP or placebo following cardiovascular surgery. I5NP will be administered 4 hours (+/- 30 minutes) following removal of the cardiopulmonary bypass machine (CBM). The duration of the study is approximately 44 days, inclusive of a 14 day screening period. Patients will be contacted by phone at 6 and 12 months for follow-up questions. Patient visits are screening, day of surgery, hospital in-patient Days 1, 2, 3 and Day 7 or hospital discharge. Safety follow-up will continue until 30 days post-surgery. 2 phone calls will be made at 6 and 12 months after date of surgery.
Remote Ischemic Preconditioning and Contrast Induced - Acute Kidney Injury in Patients Undergoing...
Remote Ischemic PreconditioningContrast Induced - Acute Kidney InjuryProspective, randomized, sham-controlled clinical study was conducted to assess whether RIPC reduces the incidence of CI-AKI measured standard way of using SCr concentration but also with the use of serum NGAL as a new potential biomarker of kidney injury. Furthermore, the aim of investigation was to analyse the safety and clinical outcomes of RIPC after elective coronary angiography (CA) followed by percutaneous coronary intervention (PCI).
The Effect of Manipulating Hydration Status During Cycling in the Heat on Acute Kidney Injury Biomarkers...
HypohydratedEuhydratedAcute Kidney Injury (AKI) is common in prolonged endurance events. Risk factors for exercise-associated AKI include: the exercise itself, heat, hypohydration, muscle breakdown and non-steroidal anti-inflammatory drug (NSAID) use. Prior research from our laboratory showed the hypohydration during high-intensity running increased a biomarker of AKI (urine osmolality-corrected kidney injury molecule 1). Therefore, the current study will now investigate the effect of manipulating hydration status during cycling on biomarkers of AKI.