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Clinical Trial Summary

The purpose of this study is to compare patients' metabolomic profiles who are managed with a brain monitor that measures cerebral oxygen to those who are managed by conventional measures to hopefully decrease postoperative neurologic and cognitive deficits and improve quality of life.


Clinical Trial Description

Neurologic and cognitive decline remain common complications that adversely affect patients' outcome after cardiac surgery. By incorporating a brain monitor that measures cerebral oxygen content into our perioperative management we aim to decrease postoperative neurologic and cognitive deficits and improve quality of life in this patient population. We also aim to uncover how the compromised brain alters its metabolism in response to ischemic injury and how this new information can guide new preventive treatment methods for vulnerable patients. Briefly, cerebral near-infrared spectroscopy (NIRS) or cerebral oximetry is a non-invasive monitor that estimates cerebral oxygenation through measurements of regional venous saturation. It is based on measuring intravascular oxyhemoglobin fraction in a small sample of cerebral cortex through the skull using near-infrared light spectroscopy. Cerebral oximetry examines all reflected light, from both pulsatile arterial and non-pulsatile venous blood, without requiring pulsatility, hence cerebral oximetry can continue to monitor brain oxygenation during both CPB and circulatory arrest. With this advantage, cerebral oximetry is widely utilized in our daily cardiac anesthesia practice, routinely for surgeries requiring circulatory arrest, and for other elective CABG and valve replacement/repair surgeries in some institutions. Despite its wide use, controversy still exists in its interpretation and ability to optimize cerebral outcome after cardiac surgery. Key questions to be answered are: 1) the desaturation threshold associated with poor prognosis; 2) the absolute desaturation value at which adverse clinical outcome increases, and 3); if the relative trend is more important to signal approaching deterioration. All of these questions are relevant to our clinical practice yet remain unanswered. Our research study aims to take a first step towards identification of the ideal method of utilizing cerebral oximetry in cardiac surgeries to improve neurological outcome through increasing precision in managing hemodynamic as well as laboratory values through a treatment algorithm. The second component of this study incorporates metabolomic profiling as we refine the perioperative management of cardiac surgery patient to improve their cerebral outcome. Despite enormous research efforts over the last decades, currently there is no specific and single neurologic biomarker (or panels of biomarkers) that has been validated for clinical use. Meanwhile, neuro-imaging (CT and MRI) remains the gold standard for the diagnosis of cerebral injury. Organ-specific biomarkers, if identified, have the potential to be a reliable and cost-effective method to diagnose, guide management, classify severity of stroke, anticipate cognitive function, and predict complications. Recently, metabolomic profiling has enabled comprehensive analyses of changes in metabolic fuel selection in a variety of models, including cardioplegic arrest. Advances in analytical technology have enabled quantitative analysis of several hundreds of metabolites in a single measurement with high throughput and sensitivity. Metabolomic profiling entails quantitating small-molecule metabolites from body fluids or tissues in a single step, and possesses the potential for early diagnosis, therapy monitoring and investigating the pathogenesis of various diseases. This biomarker detection is conducted in cells, tissues, or biofluids by either nuclear magnetic resonance (NMR) spectroscopy or mass spectrometry (MS) which then undergoes multivariate data analysis. Jung et al., using 1H-NMR spectropy combined with multivariate statistical analysis assessed stroke patients. In this study perturbed metabolic pattern in both plasma and urine from patients with known cerebral infarction incidents were assessed to identify a specific proteome associated with stroke. A similar investigation has been conducted with a wider quantification of neuroproteomics using a rodent model. Biomarker prognostic of acute kidney injury in patients undergoing cardiopulmonary bypass (CPB) has also been investigated. Despite its potential for wide application, metabolomic profiling has not seen its utilization to guide neuroprotective management in patients undergoing cardiac surgery. We believe the unique combination of these two methods poses a valuable opportunity not only to improve the patient's neurocognitive outcome, but also to gain insights on which biomarkers represent cerebral ischemia or other signs of cerebral injury. Our specific aims are to: 1. Assess the transcerebral metabolomic profile and neurocognitive outcome in response to cerebral injury in patients monitored and treated according to cerebral oximetry (NIRS) and those that are just monitored with NIRS. Based on available literature, our working hypothesis is that compared to monitored only patients, cerebral fuel utilization will be differentially affected in patients monitored and treated by tightly following a specific neuroprotective algorithm. 1.a. Test the plasma concentrations of metabolites representing the amino acid, carbohydrate, energy, lipid, and nucleotide pathways using nuclear magnetic resonance (NMR) and mass spectrometry. 1.b. Compare the neurocognitive function of treated and untreated patients using a comprehensive test battery consisting of 5 assessment modalities at baseline, at the time of discharge and 6 weeks postoperatively. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03316183
Study type Interventional
Source University of Washington
Contact Kei Togashi, MD MPH
Phone 2065981994
Email ktogashi@uw.edu
Status Not yet recruiting
Phase N/A
Start date December 1, 2021
Completion date December 1, 2025

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