Background and aim of the study: Appropriate experimental models are needed to study the mechanisms underlying left ventricular (LV) remodeling and functional ischemic mitral regurgitation (IMR). Herein is described an original percutaneous method for inducing a well-defined posterolateral infarct and significant IMR.
Methods: Under videofluoroscopic guidance, the second (OM2) and third (OM3) obtuse marginal branches of the circumflex artery of six sheep were selectively and sequentially injected with 100% ethyl alcohol. Transthoracic echocardiography (TTE) was performed before and after alcohol injection, and weekly until sacrifice at 8 ± 1.3 weeks. The LV end-systolic (LVESD) and end-diastolic (LVEDD) dimensions, interpapillary distance (M1-M2), mitral annulus diameter (MA), and degree of IMR and ischemic tricuspid regurgitation (ITR) were measured.

Results: One animal died from irreversible ventricular fibrillation. In the remaining sheep, a well-defined posterolateral infarct of 22% of the heart mass resulted, followed by 2.8+ IMR and 2.1+ ITR. The mean weight gain was 16%, and all sheep showed signs of heart failure. All echocardiographic parameters were increased: systolic MA by 29%, diastolic MA by 18%, LVEDD by 33%, LVESD by 62%, M1-M2 diastolic by 32%, M1-M2 systolic by 21%, and tethering and tenting distances by 32% and 108%, respectively.
Conclusion: The percutaneous selective injection of 100% ethyl alcohol in OM2 and OM3 resulted in a well-defined posterolateral infarct and significant IMR and ITR. Because it was a percutaneous procedure, this novel, simple and reproducible method did not require a thoracotomy. This model should facilitate the further study of LV remodeling and IMR.
The Journal of Heart Valve Disease 2005;14:460-466