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Clinical Trial Summary

Coronary artery bypass grafting (CABG) is the most common procedure performed by cardiac surgeons. Post-operative atrial fibrillation (AF) is the most common adverse event following CABG, experienced in 20-50% of patients; the highest incidence of AF occurs by the third post-operative day. Reduction of AF by various drugs is moderately effective, but involves either rate control with beta blockers or rate conversion with amiodarone after the myocardial damage processes initiating AF have already occurred. Decreasing the incidence of post-operative AF, and hence the morbidity and mortality of high-risk CABG patients, could be more fruitfully approached by targeting the upstream combined processes of inflammation and coagulation activation induced by the surgical insult and associated ischemia-reperfusion (I/R). We propose that cell damage induced by oxidative stress and I/R injury could be prevented and/or inhibited by antioxidant supplementation. Specifically the investigators hypothesize that high-dose intravenous (IV) vitamin C supplementation will ameliorate ROS and therefore damp down upstream inflammatory processes, leading to a reduction of downstream adverse events with demonstrable links to inflammation processes, such as AF.


Clinical Trial Description

Coronary artery bypass grafting (CABG) is the most common procedure performed by cardiac surgeons. More complicated surgeries were enabled by the development of cardiopulmonary bypass (CPB) in the 1930s; CABG procedures increased to peak at over 500,000 in 2000, although numbers have decreased somewhat in the last decade. In 2010 over 150,000 major cardiac procedures involved CABG; 18,008 involved both aortic valve replacement and CABG; 2,378 involved mitral valve replacement and CABG; and 4,635 involved mitral valve repair and CABG. This procedure is costly; in 2010 mean hospital charges for CABG and valve procedures were $124,404 and $171,270 with a mean length of hospital stay of 9 and 11 days and an in-hospital death rate of 1.8% and 3.9%, respectively.

Post-operative atrial fibrillation (AF) is the most common adverse event following CABG, experienced in 20-50% of patients; the highest incidence of AF occurs by the third post-operative day. Post-operative AF is associated with overall poorer prognosis resulting 4-fold increase in disabling stroke and cognitive impairment, 3-fold risk of cardiac-related death, and increased length of hospital stay. These risks are increased by the changing composition of the patient population over the last 10 years: patients are older and sicker, and are presenting with more complex disease states and co-morbidities, such as severe coronary artery disease (CAD), congestive heart failure (CHF), chronic obstructive pulmonary disease (COPD), diabetes, previous cardiac surgeries with mechanical support device placements, and complex pharmacological histories. A higher prevalence of AF with increased transfusions among CPB patients has also been reported, suggesting a link with increased plasma load of inflammatory markers and mediators from transfused red cells. Reduction of AF by various drugs is moderately effective, but involves either rate control with beta blockers or rate conversion with amiodarone after the myocardial damage processes initiating AF have already occurred.

Decreasing the incidence of post-operative AF, and hence the morbidity and mortality of high-risk CABG patients, could be more fruitfully approached by targeting the upstream combined processes of inflammation and coagulation activation induced by the surgical insult and associated ischemia-reperfusion (I/R). During CPB, the heart is subjected to ischemic periods of varying duration. The cardiac tissue at that point is electrically resting and its metabolic demands are accordingly low. However, there is also a severely diminished supply of oxygen and nutrients. This results in slow but direct myocardium cellular damage, which increases as ischemia duration increases. However, after reperfusion with oxygenated blood, oxidative stress actually peaks because of accumulated oxidative substrates and cellular depletion of reductive compounds. Cardiac damage related to ischemia-reperfusion will be exacerbated in the presence of co-morbidities, such as diabetes and CAD, which are pathologies with a significant reactive oxygen species (ROS) injury component. High levels of ROS in the myocardium contribute to both electrical and structural remodeling of the cardiac muscle, resulting in the development of AF.

I/R-related oxidative stress and ROS activation contribute to cell damage by modifying protein DNA and phospholipids, resulting in lipid peroxidation and thiol-group oxidation, which in turn are linked to the induction of inflammatory cascades. Lipids are important small-molecule metabolites that have roles in a wide variety of physiological processes. The lipidome of eukaryotic cells contains thousands of lipid entities that structurally and chemically regulate cell membranes, store energy, or are precursors of bioactive metabolites. Defects in lipid regulation and metabolism are therefore significant contributors to disease pathophysiology. In particular, eicosanoids are lipid mediators linking coagulation and inflammatory pathways; intracellular oxidant species are essential mediators in eicosanoids synthesis pathways. Thus lipidomic analyses are a potential novel tool for the identification of drivers of underlying pathogenesis and new diagnostic biomarkers.

During CABG, total peroxide (TP) and oxidative stress index approximately double Increased post-bypass plasma levels of inflammatory markers such as C-reactive protein (CRP) and platelets and leukocyte activation have been observed during CPB. Increases in oxidative stress associated with CPB are correlated with a reduction in total plasma antioxidant capacity. These observations are of interest because an antioxidant is a molecule that inhibits the oxidation of other molecules. Oxidation is a chemical reaction that transfers electrons or hydrogen from a substance to an oxidizing agent. Oxidation reactions can produce free radicals. In turn, these radicals can start chain reactions. When the chain reaction occurs in a cell, it can cause damage or death to the cell. Antioxidants terminate these chain reactions by removing free radical intermediates, and inhibit other oxidation reactions by auto-oxidation; hence antioxidants are often reducing agents. The investigators propose that cell damage induced by oxidative stress and I/R injury could be prevented and/or inhibited by antioxidant supplementation. Specifically the investigators hypothesize that high-dose intravenous (IV) vitamin C supplementation will ameliorate ROS and therefore damp down upstream inflammatory processes, leading to a reduction of downstream adverse events with demonstrable links to inflammation processes, such as AF. Vitamin C is an viable therapeutic candidate because it is a powerful antioxidant with an excellent safety profile, and an emerging history of reducing inflammatory markers in both critically ill and traumatically injured patients. Scattered trials have indicated possible benefits of vitamin C in reducing incidence of post-CABG AF (see Literature search). An antioxidant such as vitamin C acts as a scavenger of intracellular oxidant species; as these are essential mediators in eicosanoids synthesis pathways, it is expected that vitamin C supplementation would decrease the thrombotic potential of eicosanoid-mediated pathways, such as the thromboxane (TBX) production pathway. Impaired cardiac blood flow and clot formation associated with AF contributes to congestive heart failure and stroke; therefore reduction of thrombotic potential is another essential feature for the proposed therapeutic agent.

The proposed pilot study described below represents a marked advance on previously-reported trials in that (a) study design is directed towards minimization of systemic bias, and (b) the investigators will perform simultaneous comparisons of multivariate inflammatory and coagulation profile changes over the immediate post-operative time period when inflammatory changes are expected to be at a maximum. The novelty of this approach is the systems-level analysis of lipids and their interacting moieties; new technology allows for rapid quantitative analysis of over 150 lipid mediators in a sample, time and cost effective manner. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02762331
Study type Interventional
Source Virginia Commonwealth University
Contact
Status Terminated
Phase Phase 1
Start date January 1, 2017
Completion date March 13, 2018

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