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Flavay® is the product—used in the actual experiments—by which
Dr. Jack Masquelier established and patented the
"radical scavenger effect."

"Radical Scavenger Effect"
Protected by U.S. Patent No. 4,698,360

Originally patented and licensed in France for therapeutic uses, Flavay® is the very product—used in the actual experiments—by which Dr. Jack Masquelier established and patented the "radical scavenger effect."

"[A] method for preventing and fighting the harmful biological effects of free radicals in the organism of warm blooded animals and more especially human beings, namely cerebral involution, hypoxia following atherosclerosis, cardiac or cerebral infarction, tumour promotion, inflammation, ischaemia, alterations of the synovial liquid, collagen degradation, among others. The method consists in administering to said animals and especially to human beings an amount, efficient against said effects, of a plant extract with a proanthocyanidins content which has a radical scavenger effect"—Dr. Jack Masquelier, U.S. Patent No. 4,698,360.

During any challenge to your immune system—because of disease, infections, toxic exposure, stress or aging—you need the extra antioxidant power in Flavay® to help scavenge the free radicals naturally produced by the immune system's cells during warfare.

Antioxidants vs. Free Radicals

Antioxidants fight corrosive and destructive forces that constantly work to break down our bodies. Overwhelming scientific evidence demonstrates that those of us who eat a diet rich in antioxidants and take antioxidant supplements will live longer and healthier lives. Working as a defensive army, antioxidants work together in the body to maintain our health and vigor by protecting us from damage caused by rampaging free radicals which, like terrorists, injure healthy cells and tissues.

Don't underestimate the threat that free radicals pose to our health. Contemporary scientists now believe that free radicals are causal factors in nearly every known disease, from heart disease to arthritis to cancer to cataracts to the aging process itself.

Where do free radicals come from? The body produces free radicals in the normal course of energy production and there are substances in our environment (chemicals in our foods and beverages, medications, extremely reactive air pollutants from vehicle exhaust, and even solar radiation) that trigger the production of free radicals.

Free Radicals: Both Foe and Friend
to the Immune System and Brain Function

When the body fights off an infection, the immune system's cytokines go to work, sending messages to the brain that cause more white blood cells to mobilize. The more white blood cells your body activates, the more free radicals they produce, like pellets of poison, that go to work to destroy invaders by breaking down the genetic material of bacteria, toxins, and viruses.

When functioning properly, the immune system is capable of identifying foreign invaders such as viruses and bacteria and our immune components do not turn against our own body's cells. Unfortunately, however, free radicals can interfere with the biological components of our healthy cells in the same way they destroy invaders, literally dismantling the body's essential cellular proteins, fatty cell membranes and DNA.

The most important natural defenses we have against free radical damage are our body's natural "antioxidants," a broad range of chemical substances that all have one thing in common: they ward off free radical damage to cells. However, in many neurological diseases—including Parkinson's, Alzheimer's, chronic fatigue, and multiple sclerosis—the brain's specialized antioxidant mechanisms fail. The cause of the failure might be genetic, environmental, or even dietary, but the consequences are the same: unchecked free radical activity on the brain.

Some free radicals are beneficial in the body, such as nitric oxide, which acts as a neurotransmitter when the immune system is functioning properly. Unfortunately, the excessive production of nitric oxide can also be blamed for throwing the brain-immune systems off kilter and causing some of the brain's worst free radical damage. Over the past decade, scientists have shown that the production of nitric oxide through a combination of immune and nervous system activity—often sparked by an infection, exposure to a toxin, or as part of the aging process—plays a key role in the development of neurological diseases.

Free Radicals: Both Foe and Friend
to the Cardiovascular System

Free radicals are involved in the progression of heart disease in several different ways. Heart disease begins with the oxidation of LDL (low-density lipoproteins) cholesterol which leads to the formation of plaque in the arteries. If an artery becomes clogged with plaque, the result can be a heart attack (a sudden loss of blood and oxygen to the heart) or a stroke (loss of blood to the brain). Much of the damage that occurs in both heart attacks and strokes is caused by reperfusion injury: the burst of superoxide free radicals that flow in as the blood flow resumes.

Contemporary scientific studies have established another way in which free radicals can promote atherosclerosis (hardening of the arteries), and how one free radical in particular—nitric oxide—may play a central role. Nitric oxide is essential for normal blood circulation as it controls the muscular tone of blood vessels and regulates circulation and blood flow. But excessive amounts of nitric oxide can be very destructive as it can restrict blood flow and promote production of more free radicals, contributing to heart disease and stroke. Thus, in order to have good circulatory health, the body must maintain the right balance of nitric oxide—and that's the role of the antioxidants and their boosters.

Free Radicals and Chronic Inflammation

Inflammation is caused by the overproduction of free radicals in a specific area of the body. The inflammatory response is a factor in arthritis, an umbrella term for more than 100 different diseases that produce either inflammation of the connective tissue (joints and tendons) or degeneration of the articular cartilage (a wearing down of the protective covering that cushions the end of bones, allowing bones to rub together without causing damage to the joints). When joints become arthritic, they become inflamed and enlarged, interfering with the normal flow of blood. For example, bending an arthritic knee restricts blood flow to the area. As in the case of stroke and heart attack, when blood flow is cut off, it sets into motion a chain of events that will lead to a burst of free radicals when blood flow returns. The proliferation of free radicals causes a one-two punch as the area to become even more inflamed, contributing to the degeneration of the joint, which becomes more swollen and worn down.

The key to good health is to maintain the right balance between antioxidants and free radicals.

Flavay® is Your Best Weapon Against Toxic Free Radicals

Flavay® is superior to other antioxidants because its protective effects are multiplied in the body: while it provides its own, powerful antioxidant protection, it also supports the dynamic interplay between other antioxidants in the body. Flavay's ability to “recycle,” or regenerate vitamins C and E after they have quenched free radicals vastly extends their unique antioxidant powers, helping the body to maintain its synergistic antioxidant balance.

Flavay® is rapidly absorbed and very quickly distributed throughout the body. As a free radical fighter, Flavay® comes to the aid of the body more quickly than other antioxidants, reducing the potential for free radical damage and the ravages of aging. Flavay® also possesses more reactive sites for neutralizing free radicals than other known antioxidants. Furthermore, Flavay® permits reactivity with both positively and negatively charged free radical species. What this means is that Flavay® can “quench” or “scavenge” (neutralize) a broad variety of free radicals. Highly reactive as an antioxidant in both lipid (fat) and aqueous (water) phases, Flavay® neutralizes oxygen free radicals and is a valuable protector of healthy cells in a variety of internal conditions. This is a unique property among antioxidants, as most work either in lipid or aqueous phases, but not both.

Flavay® helps to modulate the effects of nitric oxide, an important free radical produced by the body. As discussed above, some nitric oxide is essential, but too much can kill cells. Research demonstrates that Flavay® can help to maintain the optimal level of this free radical by helping the body produce adequate levels—and neutralize nitric oxide where it does harm.

Research also demonstrates that Flavay® can quench superoxide and the hydroxyl radical. This is extremely important. Of all the free radicals formed in the body, the hydroxyl radical is the most dangerous because it can directly attack DNA. As a free radical scavenger, Flavay® is like an antioxidant prize fighter that can successfully take on all challengers, big or small, in any kind of weather.

Antioxidants Work Together in the Body—Not Alone

Current research demonstrates that key antioxidants and their co-factor nutrients work synergistically with one another in the body. Flavay Plus® utilizes this dynamic interplay among the antioxidants and their co-factor nutrients with a synergistic blend of Flavay® and antioxidant vitamins and minerals and phytonutrients; formulated to boost the brain and immune functions—thereby benefiting the whole body.

Patented Antioxidant Power—Plus

Flavay's® strong antioxidant power is patented—as a scavenger of the free radicals that play a major role in the degradation of collagen and the initiation, duration and breakdown of inflammation. That means that your immune system works better, your joints hurt less, and your blood flows better, all because of Flavay®.

And now, Flavay Plus® takes advantage of the dynamic interplay between Flavay® and the other antioxidant nutrients and their co-factors in a blend that provides you and your family with the best that nutritional science has to offer for antioxidant protection—in a convenient, cost effective capsule.

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A Natural Approach
to Improving Your Overall Health.

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Protected by U.S. PATENT NO. 4,698,360 and international patents.
Copyright © 2007 Natural Essentials, independent distributor. Portions Copyright © 1995-2007 Healthy Publisher. All rights reserved.

* Statements made herein have not been evaluated by the Food and Drug Administration. These products are not intended to diagnose, treat, cure or prevent any disease.

REFERENCES:  
Masquelier, J. Plant extract with a proanthocyanidins content as a therapeutic agent having radical scavenging effect and use thereof. U.S. Patent No. 4,698,360, 1987.
Masquelier, J. A lifetime devoted to OPC and Pycnogenols. Alfa Omega Editrice, Pub., 1996.
Schwitters, B., Masquelier, J. OPC in practice. Alfa Omega Editrice, Publishers, 1995.
Kilham, C., Masquelier, J. OPC: The miracle antioxidant. Keats Publishing, Inc., 1997.
Mindell, E., et al. Earl Mindell’s vitamin bible for the 21st century. Warner Books, Inc., 1999.
Passwater, R.A. The antioxidants: the nutrients that guard your body. Keats Publishing, Inc., 1985.
Barilla, J. et al. The nutrition superbook: volume 1: the antioxidants. Keats Publishing, Inc., 1995.
Lieberman, S., et al. The real vitamin & mineral book: going beyond the RDA. Avery Pub., 1990.
Facino RM, et al. Free radical scavenging action and anti-enzyme activities of procyanidines from Vitis vinifera. A mechanism for their capillary protective action. Arzneimittelforschung, 44: 592-601, 1994.
Kuttan R, et al. Collagen treated with catechin becomes resistant to the action of mammalian collagenase. Experientia, 37: 221-223, 1981.
Masquelier, J., et al. Stabilization du collagene par les oligomeres procyanidoliques. Acta Therapeutica, 7:101-105, 1981.
Masquelier, J. Aspects pharmacologiques nouveaux de certains flavonoides. A Vie Medical 12:1969.
Laparra, J., et al. Etude pharmaco-cinetique des oligomers procyandoliques totaux du raisin. Acta Therapeutica, 4, 1978.
Laparra, J., et al. Etude pharmacocinetique des oligomeres flavonoliques. Plantes med et phyto, Tome XI, pp. 133-142, 1977.
Robert A.M.; Groult, N.; Six, C.; Robert, L. Etude de l’action des oligomeres procyanidoliques sur des cellules mesenchymateuses en culture. Ii l’attachment des fibres elastiques aux cellules. (Study of the effect of procyanidolic oligomers on mesenchymal cells in culture. Ii attachment of elastic fibers to the cells.) Pat Biol, (30)6:601-7, 1990.
Porter, Lawrence J., Wong Rosalind Y. Chan, Bock G. The molecular and crystal structure of (+)-2,3-trans-3,4-trans-leucocyanidin [(2r,3s,+r)-(+)-3,3’, 4.4’, 5.7’-Hexahydroxyflavan] dihydrate, and comparison of its heterocyclic ring conformation in solution and the solid state. Journal of the Chemical Society; Perkin Transactions I 1985. pp. 1413-17.
Masquelier, J. Proanthocyanidins et radicaux libres. 1985.
Uchida, S., et al. Condensed tannins scavenge active oxygen free radicals. Med Sci Res, (15) 1987. pp. 831-832.
Ariga, T. Radical scavenging action and its mode in procyanidins b-1 and b-3 from azuki beans to peroxyl radicals. Agric Biol Chem, 54(10) 1990. pp. 2499-2504.
Da Silva, R., et. al. Radical scavenger capacity of different procyanidins from grape seeds. Presented at a symposium, “Free radicals in biotechnology and medicine.” Royal Society Of Chemistry, London January 1990, pp. 79-80.
Bauman, J., Wurm, G., Bruchhausen, F. “Hemmung der prostagladinsynthetase durch flavonoide und phenolderivate im vergleich nit deren 02 radikalfangereigenschaften” Arch Pharm, (Weinheim) 313 (1980) pp. 330-337.
Lombard, J., et al. The brain wellness plan. Kensington Pub. Corp., 1998.
Facino, R.M., et al. Free radical scavenging action and anti-enzyme activities of procyanidines from vitis vinifera. A mechanism for their capillary protective action. Arzneimittelforschung, 44: 592-601, 1994.
Kuttan, R., Donnelly, P.V., Di Ferrante, N. Collagen treated with catechin becomes resistant to the action of mammalian collagenase. Experientia, 37: 221-223, 1981.
Masquelier, J. Procyanidolic oligomers. J Parums Cosm Arom, 95: 89-97, 1990.
Tixier, J.M., et al. Evidence by in vivo and in vitro studies that binding of pycnogenols to elastin affects its rate of degradation by elastases. Biochem Pharmacol, 33: 3933-3939, 1984.
Kakegawa, H., et al. Chem. Pharm. Bull. 33:5079, 1985.
Harmand, M.F., Blanquet, P. The fate of total flavanolic oligomers extracted from ‘vitus vinifera l.’ in the rat. European Journal of Drug Metabolism and Pharmaccokinetics. 1978, No. 1 pp. 15-30.
Delrieu, P., Ding J., Escande, B., Samain, D. Free-radical scavenging activity of proanthocyanidolic oligomers encapsulated in glycospheres: an in vivo and in vitro study. Cosmetology Department & S Biovectors, Ramonville St. Agne France. pp. 1-9.
Meunier, M.T., Villie, F., et al. Inhibition of angiotensin i converting enzyme by flavanolic compounds: in vitro and in vivo studies. Planta Medica, May 26, 1986. pp. 12-15.
Barbier, A., et al. Activite angioprotectrice des oligomeres procyanidolques chez l’animal-oedenme de la patte. Sanofi Res Toul Cedex Fr, pp31-40.
Barbier, A., et al. Activite angioprotectrice des oligomeres procyanidolques chez l’animal-activite aniagoniste vis-a-vis des mediateurs de l’inflamation. Sanofi Res Toul Cedex Fr, pp. 31-40.
Dubos, C., Durst, G., Hugonot, H. Evolution de la resistance capillaire, spontanement ou artificiellement diminuee par l’action d’une substance capillaro-toxique chez des personnes agees--action benefique d’un agnet actif sur la micro-circulation: l’Endotelon. Inform. Therapeut. 1980. pp. 302-305.
Dartenuc, J.Y., et al. Resistance capillaire en geriatrie etude d’un microangioprotecteur-Endotelon. Bordeaux Med. 13:903-7, 1990.
Lagrue, G., Olivier-Martin, F., Grillot, A. “Etude des effets des oligomeres du procyanidol sur las resistance capillaire dand l’hypertension arterielle et certaines nephropathies.” Sen. Hosp. Paris 18-25 Septembre, 1981.
Beylot, C., Bioulac, P. Essai therapeutique d’un angioprotecteur peripherique, l’Endotelon. Actualite Therapeutique Gaz. Med. de France (87)22:2919-24, 1980.
Lesbre, F.X., Tigaud, J.D. Effect de l’Endotelon sur l’indice de fragilite capillaire dan une population specifique: les sujets cirrhotiques. Gaz. Med. de France, (90)24 1983.
Sarrat, L. Abord therapeutique des troubles fonctionnels des membres inferieurs par un microangioprotecteur l’Endotelon. Bordeaux Med, 11:685-8, 1981.
Delacroix, P. Etude en double aveugle de l’Endotelon dans l’insuffisance veineuse chronique. Therapeutique, la Revue de Medicine, (27-28) Sept. 1981. pp. 1793-1802.
Thebaut, J.F, Thebaut, P., Vin, F. Etude de l’Endotelon dand les manifestations fonctionnelles de l’insuffisance veineuse peripherique-resultats d’une etude en double aveugle portant sur 92 patients.” Gazette Medicale, (92)1, 1985. pp. 96-100.
Wegrowski, J., Robert, A.M., Maczar, M. The effect of procyanidolic oligomers on the composition of normal and hypercholesterolemic rabbit aortas. Biochem. Pharmacol, (33)21. 1984. pp. 3491-3497.
Chang, W.C., Hsu, F.L. Inhibition of platelet aggregation and arachidonate metabolism in platelets by procyanidins. Prostagland Leukotri Essent Fatty Acids, 38:181-8, 1989.
Masquelier, J. Pycnogenols: recent advances in the therapeutical activity of procyanidins. Supplement of Planta Medica, Journal of Medicinal Plant Research and Journal of Natural Products, July 1980 pp. 243-256.
Henning, B., et al. Lipid peroxidation and endothelial cell injury: implications in atherosclerosis. Free Rad Path & Med, (4)1988 pp. 99-106.
Masquelier, J. “Les procyanidols du vin leur role dans l’alcoolisme.” pp. 88-93.
Gazave, J.M. “Notions recentes sur les capillaires” unpub. bulletin from the Laboratoire De Physiologie Patholigie pp. 26-29.
Ruf, J.C. Wine and polyphenols related to platelet aggregation and atherothrombosis. Office International Vigne et du Vin, Nutrition and Health Unit, Paris France; Drugs under Experimental and Clinical Research (Switz.) 25/2-3 (125-131), 1999.
Blaszo, G. Gabor, M. Oedema-inhibiting effect of procyanidin. Acta Physiologica Academiae Scientiarum Hungaricae, Tomus 56(2):235-240, 1980.
Tayau, M.F, LeFevre, G. Action du leucocyanidol sur l’hyalaluronidase. Bull Soc Pharm Bordeaux, 95:132-136, 1956.
Lamy, M. Utilization des oligomeres procyanidoliques en gynecologie. Essai Therapeutique Tomel (14) Sept. 2, 1981. pp. 1021-22.
Henriet, J.P “Une Etude Exemplaire Pour Un Phlebotrope: l’etude EIVE.’ Unpub., pp. 77-83.
Pfister, A., Simon, M.T., Gazave, J.M. Sites de fixation des oligomeres procyanidoliques dans la paroi des capillaires sanguins du poumon decobaye. Acta Therapeutica (8) 1982. pp. 223-237.
Kuttan, R., Donnelly, P., Di Ferrante, N. “Collagen treated with (+) -catechin becomes resistant to the action of mammalian collagenase.” Laboratory of Connective Tissue Research, Dept. of Biochem. Baylor Col. of Med., Houston TX. 28, May, 1980.
Gendre, P., Laparra, J., Barraud, E. “Effect protecteur des oligomeres procyanidoliques sur le lathyrisme experimental chez le rat.” Ann. Pharm. Francaises, (43)1, 1985 pp. 61-73.
Corbe, C., Boissin, J.P., Siou, A. Light vision and chorioretinal circulation. Study of the effect of procyanidolic oligomer (Endotelon). Jn. Fr. Opthalmol, (11)5:453-460, 1988.
Boissin, J.P., Corbe C., Siou, A. Chorioretinal circulation and dazzling: use of procyanidol oligomers (Endotelon). Bull Soc Ophtalmol Fr, 88(2):173-4, 177-9, 1988.
Proto, F. et al. Electrophysical study of vitis vinifera procyanoside oligomers effects on retinal function in myopic subjects. Ann Ott Clin Ocul, 114:85-93, 1988.
Saracco, J.B., Estachy, G.M. Etude d l’Endotelon en opthalmologie. Gaz Med de France, 88:2035-2038, 1981.
Scharrer, A., Ober, M. Anthocyanosides in the treatment of retinopathies. Klin Monatsbl Augenheilkd, 178:386-389, 1981.
Corbe, C., et al. Microangiopathy of the retina. J. Fr. Opthalmol, 11:453, 1988.
Verin, M.M., Vildy, A., Maurin, J.F., Retinopathies et O.P.C. Bordeaux Medicale, (16)11. pp. 1467-74, 1978.
Soyeux, A. et al. Endotelon. Diabetic retinopathy and hemorheology. Bull Soc Ophtalmol Fr. 87(12):1441-4, 1987.
Fromantin, M. “Les oligomeres procyanidoliques dans le traitement de la fragilite capillaire et de la retinopathie chez les diabetiques. A propos de 26 cas.” Med Int, 16(11):432-434, Nov. 1981.
Arne, J.L. Contribution a l’etude des oligomeres procyanidoliques: Endotelon, dans la retinopathie diabetique (a propos de 30 observations). Gaz. Med. de France, Vol. 89, No. 30, Oct. 8, 1982.
Baruch, J. Effect of Endotelon in postoperative edema. Results of a double-blind study versus placebo in 32 female patients. Ann Chir Plast Esthet 29(4):393-5, 1984.
Rao, C.N. et al. Influence of bioflavonoids on the collagen metabolism in rats with adjuvantinduced arthritis. Ital J Biochem. 30:54-62, 1981.
Gabor, M. Pharmacologic effects of flavonoids on blood vessels. Angiologica, 9:355-374, 1972.
Havsteen, B. Flavonoids, a class of natural products of high pharmacological potency. Biochem Pharmacol, 32:1141-48, 1983.
Reimann, H.J., Lorenz, W., Fischer, M., Frölich, R., Meyer, H.J. Berkhauser Verlag, Vol. 7/1, Univ. of Marburg/Lahn, Ger., 1977.
Masquelier, J. Action protectrice du vin sur l’ulcere gastrique. Resultats, p. 61.
Amella, M., et al. Inhibition of mast cell histamine release by flavonoids and bioflavonoids. Planta Medica, 5116-20, 1985.
Packer, L., et al. The antioxidant miracle: your complete plan. John Wiley & Sons, Inc., 1999.
Shaw, R. How [Australian] PycnoGenol [MASQUELIER’s®] Helps Sports People.
Masquelier, J. Procyanidolic oligomers (leucocyanidins). Parfums Cosmet Arom 95:89-97, 1990.
Pecking, A., Desprez-Curely, J.P., Megret, G. Oligomers procyanidoliques (Endotelon) dans le traitement des lymphoedemes post-therepeutiques de members superieurs. Symposium Satellite, Congres International d’Angiologie, Toulouse, France, 4-7 Oct. 1989.
Fahey, T.D., Pearl M. Hormonal effects of phosphatidylserine during 2 weeks of intense training. Abstract submitted to national meeting of the Amer College of Sports Medicine, June 1998.
Monteleone, P., Maj, M., Beinat, L., Natale, M., Kemali, D. Blunting by chronic phosphatidylserine administration of the stress-induced activation of the hypothalamo-pituitary-adrenal axis in healthy men. Eur J Clin Pharm 43: 385–388, 1992.
Fahey, T.D., et al. The hormonal and perceptive effects of phosphatidylserine administration during two weeks of resistive exercise-induced overtraining. Bio of Sport 15(3):135-44, 1998.
Laparra, J., Michaud, J. Masquelier, J. Action des oligomeres procyanidoliques sur le cobaye carence en vitamin c. Tavaux Originaux, University of Bordeaux, 1976.
Masquelier, J. Action comparee de divers facteurs vitaminiques p sur l’oxydation de l’acide ascorbique par les ions cuivriques. Bull. de la Societe de Chimie Biologique XXXIII (3-4) 1951. pp. 302-304.
Masquelier, J. Action comparee de divers facteurs vitaminiques p sur l’acide ascorbique-oxydase. Bull. de la Societe de Chimie Biologique XXXIII (3,4) 1951. pp.304-306
Kakegawa, H., Matsumoto, H., Endo, K., Satoh, T., Nonaka, G., Mishioka, I. “Inhibitory effects of tannins on hyaluronidase activation and on the degranulation from rat mesentery mast cells.” Chem. Pharm. Bull. 33(11)1985. 5079-5082.
Reiman, H.J., Lorenz, M., Fischer, R., Frolich, H., Meyer, J. “Histamine and acute haemorrhagic lesions in rat gastric mucosa: prevention of stress ulcer formulation by (+)-catechin, an inhibitor of specific histidine decarboxylase in vitro.” Dirkhauser Verlag,Vol. 7/1, 1977.
Pariente, J.J. Parientl-Amsellem, J. “Les oedemes post-traumatoqies chez le sportif: essai controle de l’Endothelon.” Actualite Therapeutique 90(3) 2/11 1983 pp. 231-235.
Masquelier, J., et al. “Flavonoids et Pycnogenols” Int J Vit Nut Res, (49)3:307-311, 1979.
Yu, C. L. et al. Mutagenicity of proanthocyanidins. Food Chem. Toxicol. 25(2):135-9, 1987.
Pantaleoni, G.C., Quaglino, D. Univerisity of Aquila Pharmacol-Toxicologica Report, 1971.
Laparra, J., et al., Acta Therapeutica, 4:233, 1978.
Volkner, Wolfgang Muller, Ewald, Micronucleus assay in bone marrow cells of the mouse with Pycnogenol. Cytotest Cell Research GmbH & Co., projects 143010 & 143021; Feb. 1989.
Acute and chronic toxicity tests. International Bio-Research, Inc., Hanover, Germany, 1967-1971.
Dumon, M., Michaud, J., Masquelier, J. Proanthocyanidin content in vegetable extracts to be used in the preparation of medicines. Bull. Soc. Pharm. Bordeaux, 129:51-65, 1990.