Overview
Heart failure due to coronary artery disease represents a significant cause of mortality. The detection of patients eligible for bypass surgery is a pivotal concern. Nevertheless, the optimal approach for patient selection based on conventional imaging scans remains unclear. The proposed method (Hyperpolarized 13C MRI) has gained extensive use in evaluating in vivo metabolism. This method avoids ionizing radiation and provides critical insights into cardiac function. The feasibility study aims to investigate this method for patient selection before bypass surgery. This innovative imaging technique facilitates the identification of two simple molecules, bicarbonate and lactic acid, produced at high rates by normal heart metabolism. Both bicarbonate and lactate originate from the same precursor molecule, pyruvate. The data generated from this study holds the potential to refine diagnostic precision.
Description
PRIMARY OBJECTIVES:
The principal aim of this investigation is to employ noninvasive techniques for in vivo detection of viable myocardial tissue. This will be achieved through the assessment of the HP 13C bicarbonate-to-lactate ratio, denoted as the bicarbonate/pyruvate intensity, in patients diagnosed with ischemic cardiomyopathy both before and after undergoing coronary artery bypass surgery (CABG). The obtained data will be compared with a control group composed of healthy subjects.
SECONDARY OBJECTIVES:
In addition to the primary objectives, this study seeks to accomplish the following secondary
- objectives
-
- To ascertain the safety profile of HP 13C pyruvate administration in patients with advanced ischemic cardiomyopathy.
- To evaluate the reproducibility of HP 13C pyruvate MRI scans during the second injection of HP 13C pyruvate.
EXPLORATORY OBJECTIVES:
In pursuit of further insights, this research also aims to explore the following:
- Investigate potential associations between blood measurements for pyruvate, triglycerides, free fatty acids, and insulin levels with the bicarbonate/lactate ratio within the myocardium.
- Explore any correlations between myocardial wall motion and the bicarbonate/lactate ratio within the myocardium.
Eligibility
The eligibility criteria for this feasibility study are designed to select participants who
will provide valuable insights into myocardial metabolism using HP-13C MRI in various
contexts related to ischemic heart failure. These criteria aim to ensure that the study
population is diverse and representative of the patient groups under investigation.
Inclusion/Exclusion Criteria:
- Age range: 40 to 80 years
- Sex: Random allocation
- Left ventricular ejection fraction (LVEF):
- Preoperative patients with LVEF < 0.35
- Healthy subjects with LVEF > 0.50
- Clinical history:
- Previous myocardial infarction (MI): Excluded for healthy subjects, included for
preoperative patients.
- Diabetes mellitus: Excluded for all participants.
- Hypertension: Included for all participants
- Mean blood pressure: Systolic < 140 mm Hg and Diastolic < 90 mm Hg for all
participants
- Mean heart rate: 78 beats/min for all participants
- Current smoker status: Included but will be reported.
- Medication use within 24 hours: Use will be reported.
- Coronary artery bypass surgery history: Excluded for healthy subjects, included for
preoperative patients.
- Infarct type and location: Excluded for healthy subjects, included for preoperative
patients with various Q-wave infarct types and locations.
- Number of diseased coronary vessels: Excluded for healthy subjects, included for
preoperative patients with at least one diseased vessel.
- Additional medical history and clinical data: Variations in data availability are
expected based on the practices of referring physicians and will be documented.