High molecular weight primary aliphatic alcohols obtained...

Drug – bio-affecting and body treating compositions – Designated organic active ingredient containing – C-o-group doai

Reexamination Certificate

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C514S164000, C568S840000, C568S913000, C568S918000

Reexamination Certificate

active

06225354

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention pertains to a pharmaceutically active mixture of primary high molecular weight aliphatic alcohols having enhanced purity which is isolated from beeswax. More particularly the invention pertains to a highly pure mixture of primary aliphatic alcohols which are naturally obtained from beeswax by liquid extraction from the solid wax without saponification wherein the alcohols in the mixture contain 24 to 34 carbon atoms. The C
24
-C
34
alcohols in the mixture advantageously consist of straight chain alcohols having 24, 26, 27, 28, 29, 30, 32 and 34 (i.e., tetracosanol, hexacosanol, heptacosanol, octacosanol, nonacosanol, triacontanol, dotriacontanol and tetratriacontanol). The invention also pertains to the method of extracting the aforementioned mixture from selected beeswax by a solid-liquid extraction procedure without saponification. The invention also pertains to the pharmaceutical use of the mixture and pharmaceutical compositions, foodstuffs and dietary supplements for administering the composition.
2. Background Information
All kinds of waxes, and more especially beeswax, have always been a matter of interest. This has been the case not only because of their industrial application, but also because of their chemical composition. The amount of beeswax in honey ranges between 0.9% to 1.13%, depending on the methods used to separate the wax from the honey. This wax is made up of monesters, hydrocarbons, free fatty acids and free alcohols.
The natural mixture of straight chain aliphatic alcohols obtained from beeswax has been studied by several authors to learn about its composition and main features. The obtaining of different groups of mixtures from all kinds of waxes has been reported in previous studies. (J. A. Lamberton et al., 1959, Australian Journal of Chemistry 13,261-268 and A. Horn and J. S. Martic, 1957 Journal of Science Food and Agriculture 10,571) and (Kreger, 1948; Wimbero, 1904; Mitsui and Col 1842). These studies suggest a method for obtaining fatty alcohols based on the homogeneous saponification with alcoholic potassium hydroxide, followed by the esterification of the unsaponifiable material and further molecular distillation.
Another method also reported is extraction of the natural alcohol mixture through a high efficiency high vacuum. The high vacuum wax distillation for the chemical isolation of carbonylic mixture derivatives and the extraction of the remaining wax is done by using petrol ether. The solvent evaporates and the remaining content is acetylated for its further isolation through alumina chromatography. Finally, through alkaline hydrolysis, alcohols are obtained and then recrystallized in ethanol, showing a fusion point ranging from 79 to 83 degrees Celsius.
Blood-lipid lowering effects of a natural mixture of straight chain aliphatic alcohols have been demonstrated by several authors (F. Liu, 1996 Active Constituents lowering blood-lipid in bees wax; Chung Kor. Chung Yao Tsa Chih 21 (9) 553-4, 576); (H. Sho et al. 1984, Effects of Okinawa sugar cane wax and fatty alcohols on serum and liver lipids in the rats; J. Nutri Vitaminol 30(6) 553-559); (S. Kato, K. Hamatani et al., 1995, Octacosanol Effects lipid metabolism in rat fed on a high fat diet; Br J Nutr 73(3) 433-441); (Kabiry et al. 1995, Tissue distribution of 8-14c) octacosanol in liver and muscle of rats after serial administration; Ann Nutr Metab 39(5) 279-284). Many investigational studies based on clinical studies with the use of the natural mixture of straight chain aliphatic alcohols have been published.
These studies have demonstrated the characteristics associated with ergogenic effects in humans and animals as well as benefits in the cardiovascular, cerebral and muscular systems. Other studies have reported that these alcohols also stimulate growth in plants-(V. Natarajan, H. H. Schmid 1997 1 -Docosanol and Other long chain primary alcohols in developing rat brain, Lipids 12(1) 128-130) (M. Azzouz, J. Borg, 1996, Enhancement of mouse sciatic nerve regeneration by the long chain fatty alcohol, N-hexacosanol, Exp Neurol 138(2) 189-197) (J. Borg, 1991 The neurotrophic Factor, n-hexacosanol, reduces the neuronal damage induced by the neurotoxin, kainic acid; J Neurosci Res (29)(1) 62-67) (J. Borg, P. J. Kesslak, C. W. Cotman, 1990, Peripheral administration of a long chain fatty alcohol promotes septal cholinergic neurons survival after fimbria fornix transection; 4; 518 (1-2)295-298) (Y. Kabir, S. Kimura 1994, Distribution of radioactive octacosanol in response to exercise in rats; 38 (4) 373-377) (R. P. Warren, R. A. Burger, R. W. Sidwell, L. L. Clark, 1992, Effect of triacontanol on numbers and functions of cells involved in inflammatory responses, 200(3)349-352) P. W. Westerman, J. M. Pope, N. Phonphok, J. W. Dan, D. W. Dubro, Biochim Biophys Acta (NETHERLANDS) 939, 64-78 (1988). Studies have been conducted regarding the partitioning of long-chain alcohols into lipid bilayers. In U.S. Pat. No. 3,031,376, Ezra Levin reported that tetracosanol, hexacosanol, octacosanol and triacontanol and their esters improved physical performance of athletes and disclosed compositions comprising such alcohols and esters in vegetable oil bases for oral ingestion. Various constituents of beeswax and products derived from beeswax have also been used in cosmetic and therapeutic applications, as disclosed by Karen M. Slimak in U.S. Pat. No. 4,793,991 which describes a hypoallergenic cosmetic comprising single plant source beeswax. Gans et al. have described the use of the non-polar saturated straight chain C
21
to C
33
hydrocarbon fraction of beeswax in the treatment of inflammatory skin disorders in U.S. Pat. No. 4,623,667.
A procedure for obtaining a natural mixture of straight chain higher aliphatic primary alcohols from animal and vegetable wax (a natural source wax) is also known in the prior art. This prior art procedure is based on the extraction of alcohol mixtures with fluid extractant in the sub and supercritical states between 20 and 100 degrees Celsius. Selective extraction can be carried out with this procedure but when this is applied to beeswax it is only possible to obtain 7% of C
24
to C
34
alcohol mixture.
Other projects (S. Inaa, K. Furukama, T. Masui, K. Honda, J. Ogasawara, and G. Tsubikamoto, 1986; Process for recovering primary normal aliphatic higher alcohols JP 60-119514) proposed a very similar extraction method applied to waxes that is based on fluids (CO
2
with ethylene) in sub and supercritical states.
There are different commercial dietary supplements, foods and drugs to aid in the lowering of total blood cholesterol (lowering lipid, LDL and cholesterol levels) which are considered as effective, safe and well tolerated but most of them produce different adverse side effects. Since lipid-lowering therapy must be chronically administered, safety and tolerableness are very important for their definitive acceptance. Although many products from different sources exist in the market such as Sitosterol, garlic, bile acid binders, fibric acid derivatives, HMG-Co A reductos and Nictoinic acid, etc., the methods of use and the quantities necessary of these products are not sufficiently effective for the reduction of cholesterol to the desired levels. In addition, the drugs that are used for the lowering of cholesterol have several adverse side effects.
It has been described that treatment with some lipid-lowering drugs reduces the tendency for platelet hyperaggregation frequently seen in the hyperlipidemic patients and experimental data has shown anti-aggregatory effects mediated by these compounds. Nevertheless, only some cholesterol-lowering drugs show this property. Atherosclerosis is a variable combination of changes of the intima of the arteries consisting of the focal accumulation of lipids, complex carbohydrates, blood and blood products, fibrous tissue and calcium deposits, frequently also associated with medial changes. Thus, atherosclerosis is known as multifactorial process and includes

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