Liraglutide to Improve corONary Haemodynamics During Exercise streSS (LIONESS)

Glucagon-like peptide-1 (GLP-1), an endogenous incretin hormone, is secreted by the gut in response to enteral nutrition and is responsible primarily for normal glucose homeostasis. There is a defective incretin effect in Type II diabetes mellitus such that meal-stimulated GLP-1 secretion is markedly impaired. However, a continuous infusion of exogenous GLP-1 can result in near normal insulin responses to a glucose load, suggesting preservation of insulinotropic activity. Liraglutide, a synthetic analogue that shares 97% structural homology to native GLP-1, is now a guideline-mandated antidiabetic therapy given as a once-daily subcutaneous injection.

Evidence emerging from animal and latterly human studies suggest GLP-1, independent of its effect on glycemic control and weight loss, may protect the heart from myocardial ischaemia/reperfusion injury and could potentially modulate the metabolic and haemodynamic outcomes of patients with coronary artery disease and left ventricular systolic dysfunction.

The investigators aim to determine whether chronic GLP-1 receptor occupancy has any effect on exercise haemodynamics in patients with known chronic stable angina, evidence of reversible ischaemia on exercise stress testing and angiographic evidence of obstructive coronary artery disease. Each study participant will be randomised to enter either a GLP-1 treatment arm or volume-matched saline placebo arm. Those randomised to GLP-1 will have a week's run-in phase with 0.6 mg Liraglutide followed by a week's course of 1.2 mg Liraglutide. At the end of Week 2, patients in the treatment arm will have their first exercise tolerance test (ETT). They will then be up-titrated to high dose 1.8 mg Liraglutide for another week before performing a Week 3 ETT. Patients in the placebo arm will have matched volume saline injections for the first two weeks before the Week 2 ETT and then another week of saline injections before the Week 3 ETT.

At the end of Week 3 patients will crossover so that those in the GLP-1 treatment arm cross to the placebo arm and vice versa. By incorporating a run-in phase followed by a step-wise increase in Liraglutide therapy over a 3-week period the investigators aim to minimise the occurrence of adverse reactions and also hope to observe a dose-response effect on exercise haemodynamics. The crossover design will allow study participants to effectively act as their own controls.