Inhibition of Leukocyte Adherence Enables Venular Control of Capillary Perfusion in Streptozotocin‐Induced Diabetic Rats

Objective: Vasoactive molecules can diffuse from venules to dilate closely paired arterioles and enhance capillary perfusion. Venular control of capillary flow has been found to be dependent on nitric oxide (NO), which might be scavenged rapidly in diabetic microvasculature due to the presence of activated leukocytes. This study attempts to improve venular control of capillary flow using fucoidan, which inhibits venular leukocyte adhesion. Methods: Microvascular red blood cell velocity was measured in the mesentery of streptozotocin‐induced diabetic rats, with and without fucoidan treatment, and in normal rats. Arteriolar pathways leading to branching capillaries were videotaped to measure the percent of the surrounding area occupied by a venule (% pairing). Microvascular wall NO was measured using fluorescent diaminofluorescein‐2‐diacetate in diabetic rats, with and without fucoidan treatment. Results: In normal rats, close pairing of venules to arterioles resulted in faster capillary flow. However, after 4–5 weeks of diabetes, the correlation between capillary velocity and % pairing was no longer significant. Capillary velocity and % pairing decreased ∼ 50% in comparison to normal rats. Treatment of diabetic rats with fucoidan restored venular control of capillary flow and increased NO levels. Conclusion: Leukocyte‐derived mediators that scavenge NO may lead to inadequate venular control of capillary flow in diabetes.