Inhibitory effect of Campomanesia xanthocarpa in platelet aggregation: Comparison and synergism with acetylsalicylic acid.

BACKGROUND AND AIMS: Cardiovascular diseases of thrombotic origin are related to high mortality and standard therapeutic agent used in this case is acetylsalicylic acid (ASA), but serious adverse events may occur. However, recent data has suggested the plant Campomanesia xanthocarpa has antiplatelet activity and could be a viable alternative. In this study we investigated the effects of the encapsulated powder of this plant in human platelet aggregation. METHODS: 23 healthy subjects were randomly divided into three groups: (1) ASA (100mg), (2) C. xanthocarpa (1000mg) or (3) synergism (500mg of C. xanthocarpa plush 50mg of ASA); daily for five days. Antiplatelet activity was determined by turbidimetric method using ADP or arachidonic acid (AA) agonists before, 5 and 8days after treatments. RESULTS: Treatment with C. xanthocarpa and synergism caused a reduction of 8±13.5% and 12.5±5% in platelet aggregation induced by ADP after 5days of treatment, respectively, returning to basal levels after 8days. For AA agonist, 5days of treatment with C. xanthocarpa, ASA or synergism caused a reduction of 46±15%, 36±12% and 69.3±6% in platelet aggregation, respectively, and first two groups returned to baseline values 8days after treatment ended. Synergism group prolonged antiplatelet effect maintaining aggregation reduction after 8days the end of treatment. CONCLUSION: C. xanthocarpa showed antiplatelet action when stimulated by agonist AA, and contributed to the antiplatelet effect when associated with ASA for both agonists, allowing dose reduction to 50mg.

Natural Products with Antiplatelet Action.

BACKGROUND: Complex hemostatic mechanisms are involved in the pathophysiology of various diseases, including cardiovascular diseases. Among them, dysregulation of platelet activity is linked to the progression of atherosclerosis and mainly involves platelet aggregation and a decrease in blood flow in the vascular endothelium. The major platelet activation pathways mediated by agonists involve the arachidonic acid pathway, adenosine diphosphate pathway, serotonin pathway, nitric oxide pathway, and action of free radicals on molecules involved in platelet aggregation. These mechanisms have been widely studied and discussed because they are inhibited by the use of medicinal plants in complementary and alternative medicine, thus reducing platelet aggregation. RESULTS: Of the main plants discussed in this review, which have antiplatelet activity, some include saffron, garlic, green tea, St. John's wort, ginger, ginkgo biloba, ginseng, and guavirova. These herbal medicines have phytochemical components, which are directly related to the antiplatelet activity of the plant, such as flavonoids, curcumins, catechins, terpenoids, polyphenols, and saponins. While the majority of the medicinal plants mentioned here were native to the Asian continents, some are distributed worldwide, and found to a smaller extent throughout the American continent, European continent, Mediterranean, African continent, and the Middle East. CONCLUSION: This review showed that several plants and/or compounds exhibit anti-platelet activity, and are therefore potential research targets for developing drugs to treat diseases related to aggregation disorders.