ABSTRACT
Background: Platelet-rich plasma (PRP) has a high concentration of growth factors (GFs), which present a therapeutic wound healing effect. Despite having been correlated with an immunomodulatory function, the administration of PRP has not yet been investigated in atherosclerosis models. Aim: Evaluate the effect of lyophilized PRP on atherosclerosis in mice models through serum analysis. Methods: Animals received a high-fat diet for disease induction and a weekly PRP retro-orbital application. Effectiveness was evaluated by measuring inflammatory markers in plasma following the treatment of mice with either PRP or saline solution. Results: PRP was well characterized for platelet and GF concentrations; the atherosclerotic profile was established. Cytokine concentrations were altered after PRP applications. Conclusion: PRP could modulate the inflammatory pattern in the early stages of atherosclerosis.
Platelet-rich plasma (PRP) contains growth factors, which stimulate normal wound healing. This product seems to be a good modulator of white blood cells and has not been investigated in atherosclerosis. This study aimed to evaluate PRP in atherosclerosis using mice models. The PRP was produced from animals and preserved using the lyophilization technique; the product was then applied weekly in the vein. For atherosclerosis induction, genetically modified animals were fed a high-fat diet. The effectiveness was evaluated by measuring plasma inflammatory markers after treatment, and PRP seemed to alter cell-signaling molecules (cytokines). This study concluded that PRP was capable of modulating the inflammatory pattern during the early stages of atherosclerosis.
