As mentioned in part I (March 11 DC: www.chiroweb.com/archives/22/06/11.html), a lack of CoQ10 synthesis contributes to compromised performance of the heart and cardiovascular system.
What is clear from the available clinical and experimental studies that have been performed is that the heart and cardiovascular system depend on CoQ10 to generate the ATP energy they require to remain healthy and functional. The lack of CoQ10 synthesis that occurs as part of normal aging must be viewed as an important step that leads to the decline in cardiovascular health and death from cardiovascular diseases, which account for nearly 50 percent of all mortality in our society. The prudent anti-aging step to consider in order to counter this problem is simply to begin supplementing with a CoQ10-containing supplement between age 40 and 50.
Hawthorn Enhances the Effectiveness of CoQ10
The final piece of anti-aging information to know regarding CoQ10 supplementation is that the active ingredients from hawthorn berries and hawthorn leaves help maximize its ATP-energy-generating effect. This is because the production of ATP energy in our cells requires a three-step process: First, our cells must make adenosine monophosphate (AMP), then convert it to adenosine diphosophate (ADP), and then, with the help of CoQ10, convert ADP to adenosine triphosphate (ATP), as the body draws upon the energy from carbohydrates, proteins and fat to power these reactions. Once formed, the cells of the body use ATP energy to power all of their functions and metabolic reactions. So, our cells must always be synthesizing ATP, and we must have enough AMP to begin with. This is where hawthorn comes into play.
The active ingredients in hawthorn known as procyanidins (a specialized group of flavonoid compounds) have been shown to enhance cellular levels of AMP. In Japan and other Asian counties, and in Germany and other parts of Europe, supplementation with a standardized grade of hawthorn has been shown in various well-designed studies to reverse congestive heart failure, lower blood pressure, and improve cases of angina. In short, hawthorn enables the cells of the body to make more ATP energy by first giving them greater access to more AMP. This is why CoQ10 and hawthorn may be best taken together, as part of an effective anti-aging strategy to maximize cell levels of ATP energy as patients age.
Hawthorn Defined
Hawthorn (crataegus oxyacantha) is a spiny tree or shrub native to Europe. Its leaves and berries contain the flavonoids or procyanidins that provide its medicinal effects. When taken together, CoQ10 and hawthorn provide a synergistic effect in the production of ATP energy in many body tissues. They are the perfect one-two combination to help counter the decline in ATP energy brought on by age.
It is important to use a standardized grade of hawthorn, which contains 3 percent to 5 percent flavonoid (or procyanidin content), to yield enough of its active ingredients to be effective. My preference is to take a CoQ10 supplement that also contains hawthorn, to simplify the supplementation process. In general, there should about 37.5 mg of hawthorn for every 30 mg of CoQ10 present in the supplement. This provides an ideal anti-aging synergistic effect to maximize ATP energy production in the body.
Patients on digitalis or digoxin should not take hawthorn without their physician's consent, as it provides similar metabolic effects on cellular AMP concentrations as do these drugs.
References [for Parts I and II]
- Thomas SR, Neuzil J, Stocker R. Inhibition of LDL oxidation by ubiquinol-10. A protective mechanism for coenzyme Q in atherogenesis? Mol Aspects Med 1997; 18:S85-103.
- Morisco C, Trimarco B, Condorelli M. Effect of coenzyme Q10 therapy in patients with congestive heart failure: a long-term multicenter randomized study. Clin Investig 1993; 71(8 suppl): S134-S136
- Hofman-Bang C, Rehnquist N, Swedberg K, et al. Coenzyme Q10 as an adjunctive treatment of congestive heart failure. J Am Coll Cardiol 1992:19:216A.
- Khatta M, Alexander BS, Krichten CM, et al. The effect of coenzyme Q10 in patients with congestive heart failure. Ann Intern Med 2000;132:636-640.
- Langsjoen H, Langsjoen P, Langsjoen P, et al. Usefulness of coenzyme Q10 in clinical cardiology: a long-term study. Mol Aspects Med 1994:15(suppl):S165-S175.
- Singh RB, Niaz MA, Rastogi SS, et al. Effect of hydrosoluble coenzyme Q10 on blood pressures and insulin resistance in hypertensive patients with coronary artery disease. J Human Hypertens 1999:13:203-208.
- Digiesi V, Cantini F, Brodbeck B. Effect of coenzyme Q10 on essential arterial hypertension. Curr Ther Res 1990;47:841-845.
- Kamikawa T, Kobayashi A, Yamashita T, et al. Effects of coenzyme Q10 on exercise tolerance in chronic stable angina pectoris. Am J Cardiol 1985;56:247.
- Tanaka J, Tominaga R, Yoshitoshi M, et al. Coenzyme Q10: the prophylactic effect on low cardiac output following cardiac valve replacement. Ann Thorac Surg 1982;33:145-51.
- Morisco C, Trimarco B, Condorelli M. Effect of voenzyme Q10 therapy in patients with congestive heart failure: a long-term multicenter randomized study. Clin Investig 1993;71(8 suppl):S134-S136.
- Hofman-Bang C, Rehnquist N, Swedberg K, et al. Coenzyme Q10 as adjunctive treatment of congestive heart failure. J Am Coll Cardiol 1992;19:216A.
- Langsjoen PH, Vadhanavikit S, Folkers. Response of patients in classes III and IV of cardiomyopathy to therapy in a blind and crossover trial with coenzyme Q10. Proc Natl Acad Sci USA 1985;82:4240-4244.
- Pogessi L, Galanti G, Comeglio M, et al. Effect of voenzyme Q10 on left ventricular function in patients with dilative cardiomyopathy. Curr Ther Res 1991; 49:878-886.
- Digiesi V, Cantini F, Brodbeck B. Effect of voenzyme Q10 on essential arterial hypertension. Curr Ther Res 1990;47: 841-845.
- Langsjoen P, Langsjoen P, Willis R, et al. Treatment of essential hypertension with coenzyme Q10. Mol Aspects Med 1994; 15(suppl):S265-S272.
- Digiesi V, Cantini F, Oradei A, et al. Coenzyme Q10 in essential hypertension. Mol Aspects Med 1994; 15(suppl):S257-S263.
- Lampertico M, Comis S. Italian muticenter study on the efficacy and safety of coenzyme Q10 as adjuvant therapy in heart failure. Clin Investig 1993;71(8 suppl):S129-S133.
- Burke BE, Neuenschwander R, Olson RD. Randomized, double-blind, placebo-controlled trial of coenzyme Q10 in isolated systolic hypertension. South Med J 2001;94:1112-1117.
- Munkholm H, Hansen HH, Ramussen K. Coenzyme Q10 treatment in serious heart failure. Biofactors 1999;9:285-289.
- Watson PS, Scalia GM, Galbraith A, et al. Lack of effect of coenzyme Q10 on left ventricular function in patients with congestive heart failure. J Am Coll Cardiol 1999;33:1549-1552 .
James Meschino, DC, MS
Toronto, Ontario
Canada
www.renaisante.com
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