Quantitative Analysis of Cardiac Muscle Perfusion
brief summary
Full quantitative perfusion of the myocardial wall using MRI is a difficult method for several reasons. First the perfusion algorithm is mostly only relatively available, usually available algorithms /e.g. ISP/ shows not precise results according to our measurements, secondly based on signal physics and nature of MRI scans is not easy to get absolute numbers and specific new algorithms must be developed and tested. Such a tool is not only needed for some special cohort of patients, like 3-vessel disease, coronary artery disease or diffuse coronary artery involvement in coronary vasculopathy in patients after heart transplantation. Fully quantitative perfusion analysis is highly needed for nearly all cardiac patients to better characterise the health and status of the myocardium.
detailed description
The aim of the study is to optimise the scanning and evaluation of stress perfusion with respect to the quantification of measurement results.
Cardiovascular diseases remain the leading cause of death among patients in developed countries. One of the most significant conditions within this group is ischemic heart disease (IHD), a state in which restricted blood flow through the coronary arteries results in myocardial ischemia.
At present, emphasis is placed on non-invasive diagnostic approaches to detect this condition. One such method is stress myocardial perfusion imaging.
Currently, this examination using magnetic resonance imaging (MRI) is mainly limited to qualitative assessment, in which the examiner evaluates perfusion defects based on a subjective visual assessment of myocardial blood flow, or semi-quantitative assessment, in which blood flow in individual myocardial segments is evaluated from the slope of signal-time curves. In this study, perfusion defects in individual segments will be assessed using quantitative analysis, i.e., direct calculation of blood flow in millilitres per gram of myocardial tissue, and the results will be compared with the aforementioned qualitative and semi-quantitative methods currently used in clinical practice.
In contrast, quantitative assessment of stress perfusion offers significant advantages, particularly the ability to provide an objective evaluation independent of the interpreting physician, improved diagnostic accuracy, and, importantly, the potential to diagnose patients with diffuse perfusion impairment across all vascular territories - for example, in those with three-vessel disease. However, fully quantified myocardial perfusion assessment is technically demanding and faces several limitations. The examination will be performed using a CE-marked Philips MRI system, with various frequencies and acquisition modules being evaluated.
The following quantitative CMR perfusion parameters will be analyzed:
Parameter Description Myocardial Blood Flow (MBF) Blood flow through the myocardium, expressed in ml/min/g of tissue. Measured for individual myocardial segments.
Myocardial Perfusion Reserve (MPR) Ratio of MBF during stress to MBF at rest: MPR = MBF\_stress / MBF\_rest, indicating the perfusion reserve.
Arterial Input Function (AIF) Contrast concentration in the left ventricle or aorta, serving as the reference input signal for MBF calculation.