Background: Degenerative aortic valve disease (DAVD) is a multifactorial process. We developed an animal model to analyze the isolated, local effect of reactive oxygen species (ROS) on its pathophysiology.
Methods: We utilized a photodynamic reaction (PDR) as a source of ROS in the aortic valve by aiming a laser at the aortic valve for 60 min after the administration of a photosensitizer 24 h prior. ROS, laser, and sham groups (n = 7 each) for every observation period (t = 0; t = 8 d; t = 84 d; t = 168 d) were established. The amount of ROS generation; morphological changes; inflammatory, immune, and apoptotic reactions; and hemodynamic changes in the aortic valves were assessed using appropriate histological, immunohistological, immunohistochemical, and echocardiographic methods.
Results: The ROS group displayed an increased amount of ROS (p < 0.01) and increased inflammatory activation of the endothelium (p < 0.05) at t = 0. In the ROS group, aortic valves were calcified (p < 0.05) and the transvalvular gradient was increased (p < 0.01) at t = 168 d.
Conclusion: The small animal model employed here may serve as a platform for analyzing ROS's isolated role in the DAVD context.
Keywords: aortic valve stenosis; degenerative aortic valve disease; mTHCP; photodynamic reaction; reactive oxygen species; temoporfin.