The study will investigate whether a new high resolution heart Magnetic Resonance Imaging scan, combining assessment of ischemia and viability by perfusion and Late Gadolinium Enhancement -Cardiac Magnetic Resonance is superior to Late Gadolinium Enhacement imaging alone in predicting functional recovery following revascularisation.
Coronary artery disease, where the heart's blood supply is restricted by narrowings or blockages, is the commonest cause of heart failure. This condition is called ischaemic cardiomyopathy. In some patients, treating these narrowings/ blockages with by-pass surgery or stents, known as "revascularisation", helps improve the pumping strength of the heart but it is currently difficult to predict which patients will benefit. The best test the investigators currently have to predict who will benefit from revascularisation is an Magnetic Resonance Imaging scan of the heart which looks for how much the heart has been scarred. Hearts with no scar usually improve after revascularisation and hearts with lots of scar usually do not. However, lots of patients fall into the middle and have moderate amounts of scar. The Magnetic Resonance Imaging scan isn't good at predicting if this group of patients will benefit from revascularisation. Revascularisation procedures, including heart by-passes, are not without risk and often require time in intensive care, several days in hospital and a long recovery period at home. If the investigators can develop a better test which is more accurate at predicting whether hearts with moderate scar will improve then they will be able to provide better care for patients by ensuring only those patients who will get benefit from revascularisation are put through the procedure. This study will investigate whether a new high-resolution heart Magnetic Resonance Imaging scan, which looks at not only levels of scar but also the quality of blood supply, is more accurate than current MRI scans at predicting heart recovery after revascularisation in patients with moderate amounts of scar.
Study Type
OBSERVATIONAL
Enrollment
56
CMR scanning at a 3Tesla scanner at King's College London
The scan is required to assess left ventricular systolic function
Sub maximal exercise that provides a measure for integrated global response of multiple cardiopulmonary and musculoskeletal systems involved in exercise.
King's College London
London, United Kingdom
RECRUITINGRecovery of the regional systolic function
Recovery will be defined as a reduction in average resting wall motion score equal or more than 1. The region of interest will be defined as the segments of myocardium subentended by the revascularised coronary stenosis. Segments will be considered to have been revascularised if surgical by-pass to the diseased coronary artery subtending the segment is considered successful by the surgical team at the time of surgery.
Time frame: 12 months
Recovery of overall Left Ventricular ejection fraction
Time frame: 12 months
Change in Left Ventricular end diastolic volume
Time frame: 12 months
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