Abstract 115: Microvascular Response to Ramipril in Peripheral Artery Disease

Abstract

Background: The myopathy of Peripheral Artery Disease (PAD), a consequence of ischemia caused by atherosclerotic plaques in arteries supplying the legs, is characterized by myofiber degeneration and fibrosis of the vascular walls and extramyofiber matrix. In association with fibrosis we have found a robust expression of the profibrotic cytokine TGFβ1 in vascular smooth muscle cells. Additionally, we have observed microvascular endothelial “swelling” in PAD muscle. Published data indicate that inhibitors of the angiotensin system reduce fibrosis in multiple organ systems and improve walking performance, in diverse patient populations. We hypothesize that “swelling” of microvasculature endothelial cells represents abnormal accumulation of basement membrane Collagen Type IV (Col-IV) and that treatment with Ramipril will improve the microvasculature. Methods and Results: Gastrocnemius biopsies of PAD patients at Fontaine Stage II (N=5) before and after six months of Ramipril intervention and control patients (N=4) were labeled with an antibody specific for Col-IV. Images were acquired with an automated wide-field microscope and then processed with Image Pro Plus® and AutoQuant® deconvolution software. We used Col IV label to measure wall thickness and lumen diameter of 230 to 360 microvessels per patient, with a custom MatLab program based on the Expectation Maximization algorithm coupled with a Gaussian Mixture Model. Microvessel wall thickness was significantly greater (p < 0.04) in PAD patients before (1.54 ± 0.04 μ) and after (1.61 ± 0.06 μ) Ramipril treatment compared to control (1.42 ± 0.02). Lumen diameter was significantly greater (p < 0.02) in Post-Ramipril (3.49 ± 0.04 μ) compared to Pre-Ramipril (3.18 ± 0.08 μ) and control (3.00 ± 0.11 μ) patients. Conclusions: The increase of microvessel lumen diameter with Ramipril treatment is expected to increase microvascular perfusion and thereby improve walking distance. Our study will be expanded to increase cohort size and evaluate the association of microvascular measurements with microperfusion determined by Contrast Enhanced Ultrasonography and with walking performance.