As emphasized in bold above, pycnogenol unlike aspirin did not significantly increase bleeding time. This has profound implications, as aspirins potent anti-platelet/blood thinning properties can also cause life-threatening hemorrhagic events. If this study is accurate and pycnogenol is more effective at decreasing pathologic platelet aggregation at a lower dose without causing the increased bleeding linked to aspirin, then it is clearly a superior natural alternative worthy of far more attention by the conventional medical establishment and research community than it presently receives.
Not Just A Drug Alternative
Pycnogenol, like so many other natural interventions, has a wide range of side benefits that may confer significant advantage when it comes to reducing cardiovascular disease risk. For instance, pycnogenol is also:
- Blood Pressure Reducing/Endothelial Function Enhancer: A number of clinical studies indicate that pycnogenol is therapeutic for those suffering with hypertension. Pycnogenol actually addresses a root cause of hypertension and cardiovascular disease in general, namely, endothelial dysfunction (the inability of the inner lining of the blood vessels to function correctly, e.g. fully dilate).[1] It has been shown to prevent damage in microcirculation in hypertensive patients, as well as reducing the dose of blood pressure drugs in hypertensive patients,[2]including hypertensive diabetic patients.[3] It has even been found to reduce intraocular hypertension found in glaucoma patients.[4]
- Anti-Inflammatory Effects: There is a growing appreciation among the medical community that inflammation contributes to cardiovascular disease. Several markers, including C-reactive protein are now being fore grounded as being at least as important in determining cardiovascular disease risk as various blood lipids and/or their ratios, such as low-density lipoprotein (LDL). Pycnogenol has been found to reduce C-reactive protein in hypertensive patients.[5] Pycnogenol has been found to rapidly modulate downward (inhibit) both Cox-1 and Cox-2 enzyme activity in human subjects, resulting in reduced expression of these inflammation-promoting enzymes within 30 minutes post-ingestion.[6] Another observed anti-inflammatory effect of pycnogenol is its ability to down-regulate the class of inflammatory enzymes known as matrix metalloproteinases (MMPs).[7] Pycnogenol has also been found to significantly inhibit NF-kappaB activation, a key body-wide regulator of inflammation levels whose overexpression and/or dysregulation may result in pathologic cardiovascular manifestations.[8] Finally, pycnogenol has been found to reduce fibrinogen levels, a glycoprotein that contributes to the formation of blood clots; fibrinogen has been identified as an independent risk factor for cardiovascular disease.[9]
- The Ideal Air Travel Companion: In a previous article entitled, How Pine Bark Extract Could Save Air Travelers Lives, we delve into a compelling body of research that indicates pycnogenol may be the perfect preventive remedy for preventing flight-associated thrombosis, edema, and concerns related to radiotoxicity and immune suppression.
Given the evidence for pycnogenols pleotrophic cardioprotective properties, we hope that pycnogenol will become more commonly recommended by health care practitioners as the medical paradigm continues to evolve past its reliance on synthetic chemicals, eventually (we hope) returning to natural, increasingly evidence-based interventions. However, it is important that we dont fall prey to the one-disease-one-pill model, convincing ourselves to focus on popping pills this time natural ones as simply countermeasures or insurance against the well-known harms associated with the standard American diet, lack of exercise and uncontrolled stress. The ultimate goal is to remove the need for pills altogether, focusing on preventing cardiovascular disease from the ground up and inside out, e.g. letting high quality food, clean water and air, and a healthy attitude nourish and sustain your health and well-being.
References
[1] Ximing Liu, Junping Wei, Fengsen Tan, Shengming Zhou, Gudrun Würthwein, Peter Rohdewald. Pycnogenol, French maritime pine bark extract, improves endothelial function of hypertensive patients. Life Sci. 2004 Jan 2;74(7):855-62. PMID: 14659974
[2] Gianni Belcaro, Maria Rosaria Cesarone, Andrea Ricci, Umberto Cornelli, Peter Rodhewald, Andrea Ledda, Andrea Di Renzo, Stefano Stuard, Marisa Cacchio, Giulia Vinciguerra, Giuseppe Gizzi, Luciano Pellegrini, Mark Dugall, Filiberto Fano. Control of edema in hypertensive subjects treated with calcium antagonist (nifedipine) or angiotensin-converting enzyme inhibitors with Pycnogenol. Clin Appl Thromb Hemost. 2006 Oct;12(4):440-4. PMID: 17000888
[3] Sherma Zibadi, Peter J Rohdewald, Danna Park, Ronald Ross Watson. Reduction of cardiovascular risk factors in subjects with type 2 diabetes by Pycnogenol supplementation. Nutr Res. 2008 May;28(5):315-20. PMID: 19083426
[4] Robert D Steigerwalt, Belcaro Gianni, Morazzoni Paolo, Ezio Bombardelli, Carolina Burki, Frank Schönlau. Effects of Mirtogenol on ocular blood flow and intraocular hypertension in asymptomatic subjects. Mol Vis. 2008;14:1288-92. Epub 2008 Jul 10. PMID: 18618008
[5] Maria Rosaria Cesarone, Gianni Belcaro, Stefano Stuard, Frank Schönlau, Andrea Di Renzo, Maria Giovanna Grossi, Mark Dugall, Umberto Cornelli, Marisa Cacchio, Giuseppe Gizzi, Luciano Pellegrini. Kidney flow and function in hypertension: protective effects of pycnogenol in hypertensive participantsa controlled study. J Cardiovasc Pharmacol Ther. 2010 Mar;15(1):41-6. Epub 2010 Jan 22. PMID: 20097689
[6] Angelika Schäfer, Zuzana Chovanová, Jana Muchová, Katarína Sumegová, Anna Liptáková, Zdenka Duracková, Petra Högger. Inhibition of COX-1 and COX-2 activity by plasma of human volunteers after ingestion of French maritime pine bark extract (Pycnogenol). Biomed Pharmacother. 2006 Jan;60(1):5-9. Epub 2005 Oct 26. PMID: 16330178
[7] Tanja Grimm, Angelika Schäfer, Petra Högger. Antioxidant activity and inhibition of matrix metalloproteinases by metabolites of maritime pine bark extract (pycnogenol). Wei Sheng Yan Jiu. 2011 Jan;40(1):103-6. PMID: 14990359
[8] Tanja Grimm, Zuzana Chovanová, Jana Muchová, Katarína Sumegová, Anna Liptáková, Zdenka Duracková, Petra Högger. Inhibition of NF-kappaB activation and MMP-9 secretion by plasma of human volunteers after ingestion of maritime pine bark extract (Pycnogenol). J Inflamm (Lond). 2006;3:1. Epub 2006 Jan 27. PMID: 16441890
[9] G Belcaro, M R Cesarone, S Errichi, C Zulli, B M Errichi, G Vinciguerra, A Ledda, A Di Renzo, S Stuard, M Dugall, L Pellegrini, G Gizzi, E Ippolito, A Ricci, M Cacchio, G Cipollone, I Ruffini, F Fano, M Hosoi, P Rohdewald. Variations in C-reactive protein, plasma free radicals and fibrinogen values in patients with osteoarthritis treated with Pycnogenol. Redox Rep. 2008;13(6):271-6. PMID: 19017467
Originally published: 2017-07-23
Article updated: 2019-04-11
