Abstract:
This invention provides different compositions extracted from  Fagopyrum cymosum  (Trev.) Meisn. Said compositions comprise active components for therapeutic applications. This invention also provides a method of preparation of the compositions and a method of identification and determination of individual components of said compositions. Finally, this invention provides various uses of the compositions.

Description:
[0001]    Throughout this application, various publications are referenced and full citations for these publications may be found in the references at the end of the specifications preceding the claims. The disclosures of these publications are hereby incorporated by reference into this application in order to more fully describe the state of the art as known to the skilled therein as of the date of the invention described and claimed herein. BACKGROUND OF THE INVENTION  
           [0002]    [0002] Fagopyrum cymosum  (Trev.) Meisn is a species of buckwheat, which belongs to the Genus Fagopyrum, family Polygonaceae. There are about 14 species of buckwheat, either cultivated or wild, existing around the world. Buckwheat grows mainly in the temperate area of Asia, Europe and North America. (1)  
           [0003]    China was the earliest country in the world to cultivate buckwheat. According to archaeological studies, China began to grow buckwheat about 2,000 years ago. The genetic origins of buckwheat are believed to occur in Yunnan and Sichuan Provinces of China.(2) Buckwheat was brought from China to Japan via Korea Peninsula and then to Europe via Siberia and southern Russia. Germany was the first country in Europe to grow buckwheat in 1396. Then the crop was introduced into Belgium, France, Italy and Britain in the 17th century. Later buckwheat was brought to North America from the Netherlands.  
           [0004]    At present, there are three best known species of buckwheat: common buckwheat ( Fagopyrum esculentum ), tartary buckwheat ( Fagopyrum tataricum ) and cymose buckwheat ( Fagopyrum cymosum ). The common buckwheat ( Fagopyrum esculentum ) is widely cultivated in the Northern Hemisphere. In China, it grows mainly in the northern and northwestern provinces. The tartary buckwheat ( Fagopyrum tataricum ) is cultivated primarily in the Himalayan area and south and southwest China. The cymose buckwheat ( Fagopyrum cymosum ) is basically a wild species, not available for human consumption as a crop, although some reports indicate that it is also cultivated in China on a small scale. The cymose buckwheat ( Fagopyrum cymosum ) distributes only in south and southwest China.  
           [0005]    Although buckwheat is cultivated mainly as a minor crop around the world, it has been found recently that certain species of buckwheat also possess therapeutic properties. Animal tests and clinical trials in China have indicated that tartary buckwheat flour is effective in preventing and treating diabetes, hypertension, cerebral arteriosclerosis and cardiovascular disease. It also has the function of invigorating the stomach, facilitating digestion, enhancing the immune system and alleviating inflammation.(3)  
           [0006]    The most important therapeutic property discovered in buckwheat is the anti-cancer effect of certain buckwheat species. For example, Samel, D. et al. reported in 1996 that they had examined the effect of a purified extract of the flowering herb of  Fagopyrum esculentum  on various protein kinases involved in signal transduction, finding that  Fagopyrum esculentum  contains red fluorescent compounds having photosensitizing properties. Spectrophotometric analysis of the extract indicated structural similarity to hypericin. Dose- and light-dependent inhibition of various protein kinases was observed. The purified  Fagopyrum esculentum  extract strongly inhibited two receptor-associated protein tyrosine kinases (EGF-R and Ins-R) and a Ser/Thr kinase (PK-C) at an ng/ml concentration range. Selectivity was exhibited as a decreased sensitivity to cytosolic PTKs and protein kinase CK-2. The protein kinases are important components of the signal transduction pathway. Aberration of signal transduction is a hallmark of several proliferative diseases. The researchers believed that the results of their experiment indicated that photosensitizing compounds in  Fagopyrum esculentum  are potential antiproliferative agents.(4)  
           [0007]    In China, research on anti-cancer effect of buckwheat species was concentrated on  Fagopyrum cymosum  (Trev.) Meisn, which is also termed as  Fagopyrum dibotrys  (D. Don) Hara.  
           [0008]    [0008] Fagopyrum cymosum  (Trev.) Meisn has been used as a herbal medicine in China since ancient times, but mainly in combination with other medicinal herbs. Modern clinical studies conducted in China have shown that preparations of  Fagopyrum cymosum  (Trev.) Meisn can be used to treat lung abscess, bacillary dysentery and pyogenic infections. (5) Most importantly it has been found that preparations of  Fagopyrum cymosum  (Trev.) Meisn can be applied effectively for therapeutic purposes to various kinds of tumors.  
           [0009]    Liu, W F et al. published an article in 1981 on some pharmacological properties of  Fagopyrum cymosum  (Trev.) Meisn, the root of which had been used for the treatment of pulmonary abscess. Liu pointed out that major active principle of  Fagopyrum cymosum  (Trev.) Meisn is flavanol (5, 7, 3′, 4′-tetrahydroxyflan-3-01 dipolymers). Neither the extract of  Fagopyrum cymosum  (Trev.) Meisn nor flavanol exhibited significant antibacterial action in vitro. No antibacterial substance was found in the urine of either mice or human beings nor was it found in the organs of mice given the extract p. o. Liu indicated that therapeutic effect of  Fagopyrum cymosum  (Trev.) Meisn was shown in mice infected I. p. with  staphylococcus aureus  only when the extract of  Fagopyrum cymosum  (Trev.) Meisn or flavanol was given via the same route. Phagocytic action of peritoneal macrophages was enhanced, but the number of macrophages was not increased when the extract of  Fagopyrum cymosum  (Trev.) Meisn or flavanol was given I. p. to mice. Antipyretic action was demonstrated in rabbits. Flavanol was shown to be anti-inflammatory in mice and rats. Platelet aggregation in rats induced by ADP and  staphylococcus aureus  in vitro was inhibited by flavanol. The same effect on platelet aggregation induced by ADP and collagen was found when flavanol was given IV to rats. Flavanol given IV showed also expectorant effect in mice as shown by the phenol red method, but the bronchial excretion was not increased.(6)  
           [0010]    Liu, Y L et al. in 1983 reported their research results on the chemical constituents of  Fagopyrum cymosum  (Trev.) Meisn. Liu indicated that they had isolated three components of  Fagopyrum cymosum  (Trev.) Meisn. Component A is the main constituent in  Fagopyrum cymosum  (Trev.) Meisn and accounts for its pronounced therapeutic effect on pulmonary abscess. The octamethylether, octamethylether diacetate and decanacetate derivatives were prepared from this component. On the basis of spectroscopic analyses, degradation products and physico-chemical constants, component A was identified as the dimer of 5, 7, 3′, 4′ -tetrahydroxyflavan-3-ol (C4-C8 linked), named dimeric procyanidin. Components B and C were identified as hecogenin and β-sitosterol respectively.(7)  
           [0011]    Liu T C published an article in 1983 analyzing the growth and accumulation of active constituents during different development stages of  Fagopyrum cymosum  rhizome. The author reported that condensed procyanidin, the active constituent of  Fagopyrum cymosum  rhizome was observed and studied, including its existence in different parts of the plant and at different development stages, and its development in the root, stem and the above-the-ground part in different growth stages. The paper showed that the amount of condensed procyanidin is higher in the root and stem and is highest from mid-October till the withering season. The content rapidly increases from mid-June and reaches its highest level in late October.(8)  
           [0012]    Yao R C et al. reported anti-tumor active constituents of cymose buckwheat in China in 1989. The researchers reported that they had extracted the active portion (A) from rhizome of cymose buckwheat using ethanol extraction, macroporous resin (D101) column chromatography and acetone extraction process. Chemical analysis revealed that A is a compound of proanthocyanidin, from which, in comparison with standard substances, (−) epicatechin, 3-galloyl (−) epicatechin, procyanidin B-2 and B-4, and 3,3′-digalloyl procyanidin B-2 had been detected. In the meantime, methylated, acetylated and trimethyl silica etherified derivatives of A had been prepared.(9)  
           [0013]    Ma Y P et al. published an article in 1989 in China on prediction of responsiveness of human lung cancer xenograft to extracts of  Fagopyrum cymosum  (Trev.) Meisn by SRC assay. The researchers reported that they had determined responsiveness of human lung cancer explant to extracts E and CD1 of  Fagopyrum cymosum  (Trev.) Meisn by the method of subrenal capsule(SRC) assay. A total of 12 lung cancers had been tested in which 60 xenografts were implanted. With a mean growth of &gt;5 OMU (1 OMU=0.02 mm) in the control animal an assay was considered evaluable. This study provided an evaluable assay rate of 83.3%. Taking &lt;-10 OMU of tumor xenograft size as the standard of responsiveness extracts E and CD1 offered response rates of 40% and 20% respectively. Squamous cell carcinoma was more sensitive to E than other types of lung cancer. These findings were similar to the clinical effects of CD1 phase-I study. The study also confirmed that extracts E and CD1 had no toxicity or side effects in mice.(10)  
           [0014]    Liang X Z et al. described using TLC scanning to determine procyanidin B-2 in  Fagopyrum dibotrys&#39; s rhizome in an article published in China in 1990. The authors reported that procyanidin B-2 in  Fagopyrum cymosum  was determined by TLC scanning, taking high efficient silica gel 60F 254  as thin-layer absorbent, toluene-methylformaic-methanol-formic acid (1:2:0.2:0.1) as developing agent, Rf=0.21, scanned at 280 nm with CAMAG 76510 TLC scanner. The sample was prepared by leaching for 62 hours in methanol. The average recovery was 98%. Standard deviation was 0.0092, coefficient of variation is 1.8%(n=10) . (11)  
           [0015]    Liang, M D et al. published an article in 1991 on extra corporeal anti-cancer function of  Fagopyrum cymosum  rootin. The authors pointed out that  Fagopyrum cymosum  rootin (FCR) is a new anti-cancer medicine screening from  Fagopyrum cymosum  roots, with the method of extra corporeal culture of human cancer cell. The active constituent is large-moleculared condensed tannin D. At the concentration of 125 μg/ml, its inhibition ratio is 84.5% for SGC, 78.9% for Hela and 100% for KB, caused by the impairment of the cancer cell&#39;s membrane, RNA, DNA metabolization and cell nucleus cleavage.(12)  
           [0016]    In the same year, Ma MF et al. reported the results of mutagenicitic and teratogenicitic tests of  Fagopyrum cymosum  (Trev.) Meisn. The results showed that no positive mutation was induced in four Ames standard bacterial strains (±S9), using seven different doses of  Fagopyrum cymosum  (Trev.) Meisn varying from 1-5,000 μg/plate. Antimutational effect was exhibited against reversional mutation of TA98 and TA 100 strains induced by daunorubicin and methyl methane sulphonate. No increase in micronucleus frequency in bone marrow polychromatophil erythroblast of NIH mice, no teratogenicity in Chinese hamster oocyte chromosomes (±S9), no adverse effect on reproductive capacity of NIH mice and development of mouse fetuses, nor teratogenicity of appearance, skeleton and internal organs of mouse fetuses were observed.(13)  
           [0017]    Gao Z. et al. described in 1993 the effects of  Fagopyrum cymosum  root extract on proliferation of four human tumor cells in vitro in comparison with 5-FU. The researchers found that the proliferation of four human tumor cells were markedly inhibited by the extract and the inhibition rates were positively proportional to concentration. At the concentration of 12.5 micrograms/ml, the inhibition rates were 98.7% for GLC, 82.1% for KB, 65.4% for SGC and 53.8% for Hela cells.(14)  
           [0018]    Zhang W J et al. discussed phenolic constituents from  Fagopyrum dibotrys  in 1994. The researchers reported that six phenolic constituents had been separated from the alcohol extracted powder of the dry rhizome of  Fagopyrum cymosum  (Trev.) Meisn. By polarimetry, HNMR,  13 C-NMR and FAB-MS, they were identified as: 3,4-dihydroxybenzoic acid, gallic acid, (−) epicatechin, (−) epicatechin-3-O-gallate, procyanidin B-2 and procyanidin C-2.(15)  
           [0019]    In the same year Meng F H et al. published an article on anticancer effect of cymose buckwheat roots on human tumor cells cultured in vitro. The researchers reported that anticancer effect of cymose buckwheat roots on various human cancer cells cultured in vitro had been studied using direct killing method, colony inhibition test and  3 H-TdR incorporation test. The results showed that the drug at the concentration of 1 g·L −1  had a killing rate of over one logasithmic killing against a number of human cancer cells, and when the concentration was lowered to 0.125 g·L −1 , its killing rate could still reach 74.3-92.1%, approximating one logasithmic killing. The extract from the roots of cymose buckwheat had significant anticancer effect, showing a colony inhibiting rate of 100% against several cancer cells when its concentration was 0.1 or 0.05 g·L −1 , and that of 75.1-89.2% at the concentration of 0.0125 g·L −1 .  3 H-TdR labeling revealed that the drug could significantly inhibit nucleic acid metabolism in cancer cells, the inhibitory effect being close to that of positive control, fluorouracil, at the same concentration.(16)  
           [0020]    In another article published in the same year, Meng F H et al. reported anticancer effect of Jin E in vitro. Jin E is a compound of tannin extracted from cymose buckwheat. In the studies on anticancer effect of Jin E, direct killing method, colony inhibition test and  3 H-TdR radioautography were applied. Results of the studies showed that the 50% inhibiting concentrations of Jin E against GLC, Hela, SGC and KB cells were 67.8, 73.1, 79.9 and 83.0 μg/ml respectively, with a definite concentration and time-response relationship. Jin E at the concentrations of 100 and 50 μg/ml could completely inhibit colony formation of several human cancer cells, and Jin E at the concentration of 25 μg/ml had a colony inhibiting rate as high as 95% against four kinds of human cancer cells; the best anticancer activity was observed in Jin ED and alcohol soluble portion. Jin E at the high concentration (100 μg/ml) had an inhibiting rate of 87.9% against intracellular nucleic acid synthesis, the difference being very significant (P&lt;0.01), compared with blank control group. It is concluded that Jin E has significant inhibitory effect on growth of multiple human cancer cells in vitro.(17)  
           [0021]    Peng Yong et al. reported the research and development of  Fagopyrum dibotrys  in a paper published in China in 1996. The paper reviewed new developments in  Fagopyrum dibotrys  studies in the areas of the materia medica, the plant, the chemistry, the pharmacology, the clinic applications and the preparation of the medicine. The authors also provided suggestions on further exploitation and utilization of  Fagopyrum dibotrys. ( 18)  
         SUMMARY OF THE INVENTION  
         [0022]    It is an object of the present invention to provide a  Fagopyrum cymosum  (Trev.) Meisn composition.  
           [0023]    It is also an object of the present invention to provide a method of preparation of  Fagopyrum cymosum  (Trev.) Meisn compositions.  
           [0024]    It is another object of the present invention to provide methods of identification and determination of individual active constituents of  Fagopyrum cymosum  (Trev.) Meisn compositions.  
           [0025]    It is an additional object of the present invention to provide pharmaceuticals containing active constituents of  Fagopyrum cymosum  (Trev.) Meisn and apply the pharmaceuticals to treating lung cancer, gastric cancer, cervical cancer, sarcoma and other neoplasms, relieving inflammation, and alleviating toxic and adverse effects associated with chemotherapy and radiotherapy.  
           [0026]    It is an additional object of the present invention to provide pharmaceuticals containing active constituents of  Fagopyrum cymosum  (Trev.) Meisn and apply the pharmaceuticals to treating coughing, caused by common cold, bronchitis, pneumonia, pulmonary tuberculosis, pulmonary abscess, lung cancer, and upper respiratory track infection.  
           [0027]    The present invention relates generally to compositions extracted from  Fagopyrum cymosum  (Trev.) Meisn and particularly to  Fagopyrum cymosum  (Trev.) Meisn composition containing condensed tannins and procyanidins, including epicatechin, 3-O-galloyl-epicatechin, procyanidin B-2, B-4 and 3,3′-digalloyl-procyanidin B-2, etc. The invention is also concerned with methods of preparation of  Fagopyrum cymosum  (Trev.) Meisn compositions and methods of identification and determination of individual effective components of  Fagopyrum cymosum  (Trev.) Meisn compositions. In addition, the invention pertains to pharmaceuticals containing effective components of  Fagopyrum cymosum  (Trev.) Meisn and application of the pharmaceuticals. Accordingly, the present invention will be described in detail with respect to such fields of endeavor; however, those skilled in the art will appreciate that such description of the invention is meant to be exemplary only and should not be viewed as limitative of the full scope thereof.  
         DETAILED DESCRIPTION OF THE INVENTION  
         [0028]    This invention provides a composition comprising 30-70% tannin content.  
           [0029]    This invention provides a composition comprising 0.2-1.0% (−) epicatechin.  
           [0030]    This invention provides a composition comprising 30-70% tannin content and 0.2-1.0% (−) epicatechin.  
           [0031]    This invention provides a composition that when subjected to High Pressure Liquid Chromatography (HPLC) the 6 peak fingerprint shown in FIG. 1 and tabulated in Table 4 is produced. In this fingerprint the occurrence frequency(OF) of the 6 peaks are 80-100%; the retention time (RT) ratios of the 6 peaks in comparison with (−)epicatechin are 0.76, 0.88, 1.0, 1.12, 1.56, and 1.62 respectively; the area ratios of the 6 peaks in comparison with (−)epicatechin are 0.69, 1.80, 1.00, 0.20, 0.05 and 0.14 respectively; and the ranges of the area ratios of the 6 peaks in comparison with (−)epicatechin are 0.07-3.45, 0.18-9.0, 1.0, 0.02-3.0, 0.01-2.0 and 0.03-3.0 respectively.  
           [0032]    This invention provides the above compositions having components extracted from  Fagopyrum cymosum  (Trev.) Meisn rhizome.  
           [0033]    This invention provides the above compositions having components extracted from  Fagopyrum cymosum  (Trev.) Meisn rhizome that is obtained from cultivated plants.  
           [0034]    This invention provides a method for obtaining a  Fagopyrum cymosum  (Trev.) Meisn composition comprising steps of: (1) obtaining, washing and cutting rhizome of fresh  Fagopyrum cymosum  (Trev.) Meisn; (2) drying the rhizome; (3) crushing the rhizome into particle; (4) putting the particle through a process of hot reflux in a solution selected from water, methanol, ethanol, acetone, water-methanol mixture, water-ethanol mixture, water-acetone mixture and ethyl acetate; (5) mixing the extracts; (6) separating the extract from precipitate and solid materials; (7) concentrating the separated extract; (8) diluting the extract with water; (9) passing the suspension through pretreated macro porous resin column; (10) eluting the chromatographic column; (11) concentrating the eluant at reduced pressure; (12) spray-drying the extract into amorphous red-brown powder, thereby producing an extract containing the active constituents of  Fagopyrum cymosum  (Trev.) Meisn.  
           [0035]    This invention provides a method of extraction wherein the particle of  Fagopyrum cymosum  (Trev.) Meisn rhizome is put through a process of hot reflux. Comparing with other methods of extraction, such as maceration and percolation, the method of hot reflux consumes the smallest amount of time (less than 3 hours) and solvent, and provides highest yield and purity. By comparison, the method of maceration takes 7-10 days, consumes large quantity of solvent, and causes oxidation and polymerization of active constituents due to standing at the solvent state for a long time, that in turn decreases the therapeutic efficacy of the extract.  
           [0036]    This invention provides a method of extraction wherein the solvent used in the process of hot reflux is ethanol.  
           [0037]    This invention provides a method of extraction wherein the solvent used in the process of hot reflux is 10-90% ethanol.  
           [0038]    Since various kinds of solvent can be used to extract the active constituents of  Fagopyrum cymosum  (Trev.) Meisn, researchers of this invention performed the following experiment to identify the solvent which produces the highest extraction yield. Considering the characteristics of the constituents of  Fagopyrum cymosum  (Trev.) Meisn and the strong polarity of the polyphenol mixtures, the researchers extracted 1 kg. particle of the rhizome of  Fagopyrum cymosum  (Trev.) Meisn respectively with four different solvents: ethanol, water, acetone and ethyl acetate. The extracts were dried by evaporation. Then the yields of the dried substances were calculated. The researchers found that the extract yield of ethanol was the highest and the others were ranked in the following order: water&gt;acetone&gt;ethyl acetate (Table 1).  
                             TABLE 1                           Extraction Yield of Different Solvent                Solvent   Extraction Yield (%)                       Ethanol   8.88           Water   3.65           Acetone   1. 65           Ethyl acetate   0.83                      
 
           [0039]    In another experiment, researchers of this invention found that the total tannin content in  Fagopyrum cymosum  (Trev.) Meisn extract by ethanol was significantly higher than that in the extract by acetone, indicating that purity of the former was higher than that of the latter. In the experiment, total tannin content in extracts by ethanol and acetone were determined by using a modified method for determination of tannin content, described in the appendix to the Pharmacopoeia of the People&#39;s Republic of China, 1995 edition. The results are shown in Table 2.  
                             TABLE 2                           Total Tanning Content in Extracts by Different       Methods of Extraction            Batch No.   Solvents   Total Tannin Content               880206   Ethanol   73.47%       880609   Ethanol   73.16%       870513   Ethanol   71.97%       870103   Acetone   67.16%       880305   Acetone   59.93%       880420   Acetone   58.97%                  
 
           [0040]    In yet another experiment, researchers of this invention found that different solvents yield active constituents of  Fagopyrum cymosum  (Trev.) Meisn not only disparate in amount, but also different in cancer-inhibiting effects. The experiment showed that tumor-inhibiting rates of water and ethyl acetate extracts were lower than 30 percent and those of ethanol and acetone extracts were higher than 30 percent. The experiment also demonstrated that ethanol extract had higher anti-tumor efficacy than acetone extract (Table 3).  
                                                                             TABLE 3                           Tumor-inhibiting Rates of  Fagopyrum cymosum         (Trev.) Meisn Extracted with Ethanol and Acetone                No. of Mice at   Tumor-inhibiting               Beginning/End   Rate** (%)                Dosage*   Acetone   Ethanol   Acetone   Ethanol           (mg/kg)   Extract   Extract   Extract   Extract                       500   10/10   10/9    35.19   37.87           100   10/10   10/9    33.13   56.44           50   10/10   10/10   23.87   41.58                5-FU#10   10/10   31.37           0.5% CMC   14/14   —                                  
 
           [0041]    All above experiments indicate that selection of an appropriate solvent is the key in the extraction of active constituents from  Fagopyrum cymosum  (Trev.) Meisn and that ethanol is the best solvent for this process. Ethanol extraction yields the highest amount of active constituents from the rhizome of  Fagopyrum cymosum  (Trev.) Meisn. It also demonstrates the best anti-cancer efficacy. In addition, ethanol is cheap, readily available, recoverable and preferred from the point of view of safety.  
           [0042]    This invention provides a method of extraction wherein the particle of  Fagopyrum cymosum  (Trev.) Meisn rhizome is put through a process of hot reflux in the solvent of 10-90% ethanol with a ratio of 1:10 (W/V) twice (1-3 hours and 1-2 hours respectively) to produce extracts at the temperature of 50-70° C.  
           [0043]    This invention provides a method of chromatography wherein the macroporous resins are packed in columns.  
           [0044]    This invention provides a method of chromatography wherein the chromatographic material includes, but is not limited to porous polymer, silicon gel, aluminum oxide, polyamide, activated charcoal, cellulose or sephadex.  
           [0045]    This invention provides a method of chromatography wherein the column is eluted with distilled water and 10-90% ethanol. The column is first eluted with distilled water in order to remove water soluble impurities, such as saccharides, pigments, organic acids and inorganic salts still present in the extracts while the active constituents are absorbed by macroporous resin. Then the column is eluted with 10-90% ethanol.  
           [0046]    This invention provides a method of chromatography wherein color developing agent of phenol mixtures is ferric chloride reagent.  
           [0047]    This invention provides a method of concentration wherein the chromatographic column eluant is concentrated at reduced pressure under 60° C. to a relative density of 1.10-1.13 since the tannin content of  Fagopyrum cymosum  (Trev.) Meisn is liable to change when heated.  
           [0048]    This invention provides a method for obtaining a  Fagopyrum cymosum  (Trev.) Meisn composition comprising steps of: (1) obtaining, washing and cutting rhizome of fresh  Fagopyrum cymosum  (Trev.) Meisn; (2) drying the rhizome to containing less than 10% moisture; (3) crushing the rhizome into particle of the size smaller than 5 mm. in diameter while less than 10% of the particle of the size smaller than 0.1 mm. in diameter; (4) putting the particle through a process of hot reflux in the solution of 10-90% ethanol with a ratio of 1:10 (W/V) twice (1-3 hours and 1-2 hours respectively) to produce extracts at the temperature of 50-70° C.; (5) mixing the extracts; (6) separating the extract from precipitate and solid materials; (7) concentrating the separated extract at reduced pressure under the temperature of 70° C. at a density of 1.3 and a temperature of 50° C.; (8) diluting the extract with 5-10 times the amount of water; (9) passing the suspension through pretreated macroporous resin column (model D101 and other suitable polystyrene resin, saturated with water pre-column); (10) eluting the chromatographic column with distilled water and 80-90% ethanol repeatedly until the effluent does not react positively with ferric chloride reagent; (11) concentrating the eluant at reduced pressure under 50-70° C. to the density of 1.10-1.13; ethanol is completely recovered and the concentrate is free of alcohol; (12) spray-drying the extract into amorphous red-brown powder, thereby producing an extract containing the active constituents of  Fagopyrum cymosum  (Trev.) Meisn. The yield of powder totals 4-10% of the medicinal material. The total tannin content is 30-70% and the content of (−) epicatechin is 0.2-1.0%.  
           [0049]    This invention provides a method of fingerprint chromatography for  Fagopyrum cymosum  (Trev.) Meisn composition comprising steps of: (1) preparing the assay comprising steps of: (a) dissolving 0.5 g. of  Fagopyrum cymosum  (Trev.) Meisn composition with 30 ml. of distilled water by ultrasonic treatment for 20 minutes; (b) removing the solution to the separator funnel; (c) extracting the solution from the water with chloroform (30 ml. each time for 3 times) in order to degrease; (d) continuously extracting the water layer with acetic ether (30 ml. each time for 5 times); (e) collecting and blending the acetic ether fractions; (f) drying the blend with anhydrous calcium chloride; (g) filter the blend; (h) drying the filtrate; (I) suspending the residue with water in constant volume of 10 ml.; (j) injecting 1 ml. of the suspension into C 18 ods cartridge and eluting it with 5 ml. of water, 5 ml. of 50% methanol and 5 ml. of methanol respectively; (k) making the eluent of 50% methanol the constant volume of 5 ml. (l) filtering the eluent with 0.45μ filtration membrane. (2) using (−) epicatechin as the standard; (3) performing HPLC assay under following conditions: (a) Gradient mobile phase:  
                                                     Time (minutes)   Water (PH = 3.00)   Acetonitrile                                0   90   10       40   74   26       50   20   80                  
 
           [0050]    (b) column temperature: room temperature; (c) flow rate: 0.8 ml/min; (d) injection volume: 10 μl; (e) wavelength: 282 nm; (f) calculating according to the following formula: (−) epicatechin=As×Cst/Ast×Ws×100% wherein As=peak area of sample, Cst=concentration of standard, Ast=peak area of standard, Ws=weight of sample.  
           [0051]    This invention provides a method for determination of total tannin content in a  Fagopyrum cymosum  (Trev.) Meisn composition comprising steps of: (1) preparing the assay comprising steps of: (a) dissolving 3 g. of  Fagopyrum cymosum  (Trev.) Meisn composition with 20% ethanol in a 100 ml. volumetric flask; (b) diluting the solution to the mark; (c) separating the solution from the residue by filtration; (d) discarding the first filtrate; (e) drawing 75 ml. of subsequent filtrate; (f) evaporating the filtrate to the absence of ethanol on a water bath; (g) cooling the filtrate; (h) transferring the filtrate into a 250 ml. volumetric flask; (i) diluting the filtrate to the mark; (2) determining the total water soluble portion by evaporating 25 ml. of the assay to dryness and drying the precipitate at 105° C. for 3 hours (T 1 ); (3) determining the water soluble portion not bound with crude powder comprising steps of: (a) adding 6 g. of crude powder of  Fagopyrum cymosum  (Trev.) Meisn composition to 100 ml. of the assay and shaking for 15 minutes; (b) separating the solution from the residue by filtration; (c)evaporating 25 ml. of the filtrate to dryness; (d) drying the precipitate at 105° C. for 3 hours (T 2 ); (4) determining the water soluble portion of crude powder comprising steps of: (a) dissolving 6 g. of crude powder of  Fagopyrum cymosum  (Trev.) Meisn composition with 100 ml. of water; (b) shaking the solution for 15 minutes; (c)separating the solution from residue by filtration; (d) evaporating 25 ml. of the filtrate to dryness; (e) drying the precipitate at 105° C. for 3 hours (T 0 ). The total tannin content in percentage is calculated according to the following formula: Total tannin content %= (T 1 −T 2 +T 0 )×10/W×100% wherein W=quantity of sample (dried substance).  
           [0052]    This invention provides a method for determination of the amount of (−) epicatechin in a  Fagopyrum cymosum  (Trev.) Meisn composition comprising steps of: (1) performing adaptability test of the system under following conditions: (a) using octadecyl silicomethane-linked silica gel as the packing; (b) using water (pH 3.0)/acetonitrile for mobile phase gradient elution; the proportions being 0 minute: 90/10→40 minutes: 74/26→50 minutes: 20/80→110 minutes: stop; (c)making detection at the wavelength 282 nm; (d) the theoretical number of plate calculated with regard to (−) epicatechin should be no less than 20,000; (2)preparing the standard comprising steps of: (a) dissolving 10 mg. (− )epicatechin with 20 ml. of mobile phase solution by ultrasonic treatment in a 25 ml. volumetric flask (power not lower than 150 W, frequency not lower than 25 Hz) for 10 minutes; (b) removing the solution after complete dissolution; (c)cooling the solution to room temperature; (d) diluting the solution with mobile phase solution to the mark;(e)shaking the solution to homogeneity, 40 μg/ml (− )epicatechin is obtained; (3) preparing the assay comprising steps of: (a) dissolving 0.5 g. of the crude powder of  Fagopyrum cymosum  (Trev.) Meisn composition with 30 ml. of distilled water by ultrasonic treatment for 30 minutes; (b) transferring the solution to a separating funnel; (c)extracting and defatting the solution by chloroform for 3 times; (d) extracting the water layer with 30 ml. of ethyl acetate for 5 times; (e) pooling the ethyl acetate portions; (f) dehydrating the pooled ethyl acetate portions with anhydrous calcium chloride; (g) separating the residue by filtration; (h) volatilizing the filtrate to dryness; (i) making the precipitate into suspension with water with a constant volume of 10.0 ml.; (j) passing the assay from step (I) through C 18  ODS cartridge and performing solid phase extraction; (k) eluting the assay with 5 ml. of water, 50% methanol and methanol respectively, the 50% methanol portion having a constant volume of 5 ml.; (l) passing the 50% methanol portion through a filter membrane as the assay; (4) performing the assay comprising steps of: (a) pipetting the standard and the assay, 10 μl. each; (b) transferring the pipetted standard and assay into a liquid chromatograph; (c)performing the calculation and obtaining the results.  
           [0053]    This invention provides a method wherein (−) epicatechin is used as the standard to identify (−) epicatechin in a  Fagopyrum cymosum  (Trev.) Meisn composition.  
           [0054]    This invention provides a method wherein (−) epicatechin is used as the standard to determine the amount of (−) epicatechin in a  Fagopyrum cymosum  (Trev.) Meisn composition.  
           [0055]    This invention provides a formulation containing the above compositions.  
           [0056]    This invention provides the above formulation that can take the form of pill, capsule, granule, tablet, suspension, injection, syrup, tincture, or adhesive plaster.  
           [0057]    This invention provides a pharmaceutical composition prepared according to the above methods, which comprises an effective amount of the above compositions and a pharmaceutically acceptable carrier.  
           [0058]    For the purposes of this invention, “pharmaceutically acceptable carriers” means any of the standard pharmaceutical carriers. Examples of suitable carriers are well known in the art and may include, but not limited to, any of the standard pharmaceutical carriers such as a phosphate buffered saline solutions, phosphate buffered saline containing Polysorb 80, water, emulsions such as oil/water emulsion and various wetting agents. Other carriers may include additives used in tablets, coated tablets, granules and capsules, etc.  
           [0059]    Typically such carriers contain excipients such as starch, milk, sugar, certain types of clay, gelatin, stearic acid or salts thereof, magnesium or calcium stearate, talc, vegetable fats or oils, gums, glycols or other known excipients. Such carriers may also include flavor and color additives or other ingredients. Compositions comprising such carriers are formulated by well known conventional methods.  
           [0060]    This invention provides a pharmaceutical composition prepared according to the above methods, which comprises 1-99% of  Fagopyrum cymosum  (Trev.) Meisn compositions and 99-1% pharmaceutically acceptable carrier.  
           [0061]    This invention provides a pharmaceutical composition prepared according to the above methods, which comprises 5-80% of  Fagopyrum cymosum  (Trev.) Meisn compositions and 95-20% pharmaceutically acceptable carrier.  
           [0062]    This invention provides a pharmaceutical composition prepared according to the above methods, which comprises 10-75% of  Fagopyrum cymosum  (Trev.) Meisn compositions and 90-25% pharmaceutically acceptable carrier.  
           [0063]    This invention provides a pharmaceutical composition prepared according to the above methods, which comprises 20-70% of  Fagopyrum cymosum  (Trev.) Meisn compositions and 80-30% pharmaceutically acceptable carrier.  
           [0064]    This invention provides a pharmaceutical composition prepared according to the above methods, which comprises 65% of  Fagopyrum cymosum  (Trev.) Meisn compositions and 35% pharmaceutically acceptable carrier as the optimum ratio.  
           [0065]    This invention provides a method for treating lung cancer in a subject by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0066]    This invention provides a method for alleviating clinical symptoms in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0067]    This invention provides a method for alleviating the symptom of cough in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0068]    This invention provides a method for alleviating the symptom of expectoration in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0069]    This invention provides a method for alleviating the symptom of chest pain in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0070]    This invention provides a method for alleviating the symptom of bloody sputum in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0071]    This invention provides a method for alleviating the symptom of fever in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0072]    This invention provides a method for improving blood picture in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0073]    This invention provides a method for increasing hemoglobin count in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0074]    This invention provides a method for increasing leucocyte count in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0075]    This invention provides a method for increasing platelet count in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0076]    This invention provides a method for improving clinical signs in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0077]    This invention provides a method for increasing body weight in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0078]    This invention provides a method for increasing daily food consumption in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0079]    This invention provides a method for decreasing nausea occurrence in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0080]    This invention provides a method for decreasing vomiting occurrence in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0081]    This invention provides a method for decreasing diarrhea occurrence in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0082]    This invention provides a method for decreasing debility occurrence in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0083]    This invention provides a method for decreasing blood sedimentation rate in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0084]    This invention provides a method for decreasing blood urea nitrogen in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0085]    This invention provides a method for improving Karnofsky performance scores in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0086]    This invention provides a method for treating lung cancer in a subject by administering to the subject an effective amount of the above pharmaceutical compositions combined with chemotherapy.  
           [0087]    This invention provides a method for treating lung cancer in a subject by administering to the subject an effective amount of the above pharmaceutical compositions combined with radiotherapy.  
           [0088]    This invention provides a method for increasing Complement C3 level in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions and combined with radiotherapy.  
           [0089]    This invention provides a method for increasing E Rosette level in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions combined with radiotherapy.  
           [0090]    This invention provides a method for increasing lymphocyte transforming factor level in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions combined with radiotherapy.  
           [0091]    This invention provides a method for increasing IgA level in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions combined with radiotherapy.  
           [0092]    This invention provides a method for increasing IgG level in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions combined with radiotherapy.  
           [0093]    This invention provides a method for increasing IgM level in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions combined with radiotherapy.  
           [0094]    This invention provides a method for increasing macrophage phagocytic rate in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions combined with radiotherapy.  
           [0095]    This invention provides a method for increasing macrophage phagocytic index in a subject suffering from lung cancer by administering to the subject an effective amount of the above pharmaceutical compositions combined with radiotherapy.  
           [0096]    This invention provides a method for treating gastric cancer, cervical cancer, sarcoma and other neoplasms, relieving inflammation, and alleviating toxic and adverse effects associated with chemotherapy and radiotherapy in a subject by administering to the subject an effective amount of the above pharmaceutical compositions.  
           [0097]    This invention provides a method for treating coughing, caused by common cold, bronchitis, pneumonia, pulmonary tuberculosis, pulmonary abscess, lung cancer, and upper respiratory track infection.  
           [0098]    The present invention is further explained by way of the following examples which are to be construed as merely illustrative and not limitative of the remainder of the disclosure in any way whatsoever.  
       
    
    
     EXPERIMENTAL DETAILS  
     Example 1. Preparation of  Fagopyrum cymosum  (Trev.) Meisn Pharmaceutical  
       [0099]    1. Preparation of Raw Materials  
         [0100]    370 kg. of  Fagopyrum cymosum  (Trev.) Meisn rhizome is obtained, washed, dried and crushed into 333 kg. of particle of the size less than 5 mm. in diameter, 20 kg. of that is of the size less than 0.1 mm in diameter.  
         [0101]    2. Extraction  
         [0102]    The above mentioned 333 kg. of particle is put into a stainless steel extractor. Then 1,000 kg. of 70% ethanol is added. Steam is introduced into the jacket of the extractor for heating to the constant temperature of 70° C. Stirring from the top is performed, the solid and liquid phases are fully mixed and the extraction is performed for 1.5 hours. The extract is drained out and filtered to remove fine particle impurities of the size larger than 0.05 mm. in diameter. The extract is kept in a stainless steel container.  
         [0103]    Then 750 kg. of 70% ethanol is added, heated to the constant temperature of 70° C. and stirred. The extraction process is performed for 1 hour. The extract is drained out. The solid material is compressed, filtered, pooled and kept in a container. 1,600 kg. of extract is obtained.  
         [0104]    3. Evaporation  
         [0105]    The extract is continuously introduced into an evaporator, in which a vacuum degree of 500-600 mm Hg is maintained. The solvent is recovered. 170 kg. of condensed extract is obtained.  
         [0106]    4. Separation through Macroporous Resin  
         [0107]    The condensed extract is put into a suspension apparatus. 900 kg. of water is added. The suspension is maintained for 2 hours, filtered to remove fine particles of the size greater than 0.05 mm. in diameter, passed through AB-8 macroporous resin C for absorption and repeatedly washed with water. It is eluted with 700 kg. of 80% ethanol. 650 kg. of eluant is obtained. The solvent is recovered by vacuum evaporation. 130 g. of condensed eluant is obtained.  
         [0108]    5. Drying  
         [0109]    The condensed eluant is spray-dried. The temperature of influent air is controlled at 130-140° C., and that of effluent air at 65-70° C. The spray disc revolves at a speed of 8,000-10,000 rev/min. The spray keeps a speed of 300 kg/h. 17 kg. of red-brown amorphous powder is obtained. The powder comprises 63% of total tannin and 0.4% of (−) epicatechin.  
         [0110]    6. Preparation of  Fagopyrum cymosum  (Trev.) Meisn Pharmaceutical  
         [0111]    17 kg. of starch is fully mixed with the above mentioned red brown amorphous powder, then compressed into granules, with which #1 capsules are filled.  
       Example 2. Preparation of  Fagopyrum cymosum  (Trev.) Meisn Pharmaceutical  
       [0112]    1. Preparation of Raw Materials  
         [0113]    280 kg. of  Fagopyrum cymosum  (Trev.) Meisn rhizome is obtained, washed, dried and crushed into 250 kg. of particle of the size less than 5 mm. in diameter, 18 kg. of that is of the size less than 0.1 mm in diameter.  
         [0114]    2. Extraction  
         [0115]    The above mentioned 250 kg. of particle is put into a 2m 3  stainless steel extractor. Then 1000 kg. of 80% ethanol is added. Steam is introduced into the jacket of the extractor for heating to the constant temperature of 70° C. Stirring from the top is performed, the solid and liquid phases are fully mixed and the extraction is performed for 2 hours. The extract is drained out and filtered to remove fine particle impurities of the size larger than 0.05 mm. in diameter. The extract is kept in a stainless steel container.  
         [0116]    Then 750 kg. of 80% ethanol is added, heated to the constant temperature of 70° C. and stirred. The extraction process is performed for 1.5 hour. The extract is drained out. The solid material is compressed, filtered, pooled and kept in a container. 1,550 kg. of extract is obtained.  
         [0117]    3. Evaporation  
         [0118]    The extract is continuously introduced into an evaporator, in which a vacuum degree of 500-600 mm Hg is maintained. The solvent is recovered. 170 kg. of condensed extract is obtained.  
         [0119]    4. Separation through Macroporous Resin  
         [0120]    The condensed extract is put into a suspension apparatus. 900 kg. of water is added. The suspension is maintained for 2 hours, filtered to remove fine particles of the size greater than 0.05 mm. in diameter, passed through AB-8 macroporous resin C for absorption and repeatedly washed with water. It is eluted with 700 kg. of 80% ethanol. 670 kg. of eluant is obtained. The solvent is recovered by vacuum evaporation. 130 kg. of condensed eluant is obtained.  
         [0121]    5. Drying  
         [0122]    The condensed eluant is spray-dried. The temperature of influent air is controlled at 130° C., and that of effluent air at 65° C. The spray disc revolves at a speed of 8,000 rev/min. The spray keeps a speed of 300 kg/h. 13.5 kg. of red-brown amorphous powder is obtained. The powder comprises 58.6% of total tannin and 0.98% of (−) epicatechin.  
         [0123]    6. Preparation of  Fagopyrum cymosum  (Trev.) Meisn Pharmaceutical  
         [0124]    13.5 kg. of starch is fully mixed with the above mentioned red brown amorphous powder, then compressed into granules, with which #1 capsules are filled.  
       Example 3. Method of Fingerprint Chromatography for  Fagopyrum cymosum  (Trev.) Meisn Composition  
       [0125]    This invention provides a method of fingerprint chromatography for  Fagopyrum cymosum  (Trev.) Meisn composition comprising steps of: (1) preparing the assay comprising steps of: (a) ultrasonically dissolving 0.5 g. of  Fagopyrum cymosum  (Trev.) Meisn composition with 30 ml. of distilled water for 20 minutes; (b) removing the solution to the separator funnel; (c)extracting the solution from the water with chloroform (30 ml. each time for 3 times) in order to degrease; (d) continuously extracting the water layer with acetic ether (30 ml. each time for 5 times); (e) collecting and blending the acetic ether fractions; (f) drying the blend with anhydrous calcium chloride; (g) filtering the blend; (h) drying the filtrate; (i) suspending the residue with water in constant volume of 10 ml.; (j) injecting 1 ml. of the suspension into C 18 ods cartridge and eluting it with 5 ml. of water, 5 ml. of 50% methanol and 5 ml. of methanol respectively; (k) making the eluent of 50% methanol the constant volume of 5 ml. (2) filtering the eluent with 0.45μ filtration membrane. (3) using (−) epicatechin as the standard; (4) performing HPLC assay under following conditions: (a) Gradient mobile phase:  
                                                     Time (minutes)   Water (PH = 3.00)   Acetonitrile                                0   90   10       40   74   26       50   20   80                  
 
         [0126]    (b) column temperature: room temperature; (c) flow rate: 0.8 ml/min; (d) injection volume: 10 μl; (e) wavelength: 282 nm; (f) calculating according to the following formula: (−) epicatechin=As×Cst/Ast×Ws×100% wherein As=peak area of sample, Cst=concentration of standard, Ast=peak area of standard, Ws=weight of sample.  
         [0127]    Fingerprint chromatography data and area ratio range are shown in Table 4.  
                                                                           TABLE 4                           Fingerprint Chromatography Data and Area Ratio       Range                Reten-   Relative               Area       Peak   tion   Retention   Appearance       Area   Ratio       #   Time   Time   Probability   Area   Ratio   Range                    6   14.57   0.76   80-100    705156   0.69   0.07-3.45       8   16.81   0.88   80-100   1833159   1.80   0.18-9.0        9   19.07   1.00   100   1018514   1.00       10   21.45   1.12   80-100    208454   0.20   0.02-3.0        14   29.70   1.56   80-100    51306   0.05   0.01-2.0        15   30.91   1.62   80-100    145424   0.14   0.03-3.0                   
 
         [0128]    In an embodiment of the above method, (−) epicatechin is used as the standard to identify (−) epicatechin in a  Fagopyrum cymosum  (Trev.) Meisn composition.  
       Example 4. Method for Determination of Total Tannin Content in a  Fagopyrum cymosum  (Trev.) Meisn Composition  
       [0129]    This invention provides a method for determination of total tannin content in a  Fagopyrum cymosum  (Trev.) Meisn composition comprising steps of: (1) preparing the assay comprising steps of: (a) dissolving 3 g. of  Fagopyrum cymosum  (Trev.) Meisn composition with 20% ethanol in a 100 ml. volumetric flask; (b) diluting the solution to the mark; (c) separating the solution from the residue by filtration; (d) discarding the first filtrate; (e) drawing 75 ml. of subsequent filtrate; (f) evaporating the filtrate to the absence of ethanol on a water bath; (g) cooling the filtrate; (h) transferring the filtrate into a 250 ml. volumetric flask; (i) diluting the filtrate to the mark; (2) determining the total water soluble portion by evaporating 25 ml. of the assay to dryness and drying the precipitate at 105° C. for 3 hours (T 1 ); (3) determining the water soluble portion not bound with crude powder comprising steps of: (a) adding 6 g. of crude powder of  Fagopyrum cymosum  (Trev.) Meisn composition to 100 ml. of the assay and shaking for 15 minutes; (b) separating the solution from the residue by filtration; (c)evaporating 25 ml. of the filtrate to dryness; (d) drying the precipitate at 105° C. for 3 hours (T 2 ); (4) determining the water soluble portion of crude powder comprising steps of: (a) dissolving 6 g. of crude powder of  Fagopyrum cymosum  (Trev.) Meisn composition with 100 ml. of water; (b) shaking the solution for 15 minutes; (c)separating the solution from residue by filtration; (d) evaporating 25 ml. of the filtrate to dryness; (e) drying the precipitate at 105° C. for 3 hours (T 0 ). The total tannin content in percentage is calculated according to the following formula: Total tannin content %= (T 1 −T 2 +T 0 )×10/W×100% wherein W=quantity of sample (dried substance).  
       Example 5. Method for Determination of the Amount of (−) Epicatechin in a  Fagopyrum cymosum  (Trev.) Meisn Composition  
       [0130]    This invention provides a method for determination of the amount of (−) epicatechin in a  Fagopyrum cymosum  (Trev.) Meisn composition comprising steps of: (1) performing adaptability test of the system under following conditions: (a) using octadecyl silicomethane-linked silica gel as the packing; (b) using water (pH 3.0)/acetonitrile for mobile phase gradient elution; (c)the proportions being 0 minutes: 90/10→40 minutes: 74/26→50 minutes: 20/80→110 minutes: stop; (d) making detection at the wavelength 282 nm; (e) the theoretical number of plate calculated with regard to (−)epicatechin should be no less than 20,000; (2) preparing the standard comprising steps of: (a) dissolving 10 mg. (−)epicatechin with 20 ml. of mobile phase solution by ultrasonic treatment in a 25 ml. volumetric flask (power not lower than 150 W, frequency not lower than 25 Hz) for 10 minutes; (b) removing the solution after complete dissolution; (c) cooling the solution to room temperature; (d) diluting the solution with mobile phase solution to the mark; (e) shaking the solution to homogeneity, 40 μg/ml (−) epicatechin is obtained; (3) preparing the assay comprising steps of: (a) dissolving 0.5 g. of the crude powder of  Fagopyrum cymosum  (Trev.) Meisn composition with 30 ml. of distilled water by ultrasonic treatment for 30 minutes; (b) transferring the solution to a separating funnel; (c) extracting and defatting the solution by chloroform for 3 times; (d) extracting the water layer with 30 ml. of ethyl acetate for 5 times; (e) pooling the ethyl acetate portions; (f) dehydrating the pooled ethyl acetate portions with anhydrous calcium chloride; (g) separating the residue by filtration; (h) volatilizing the filtrate to dryness; (i) making the precipitate into suspension with water with a constant volume of 10.0 ml.; (j) passing the assay from step (i) through C 18  ODS cartridge and performing solid phase extraction; (k) eluting the assay with 5 ml. of water, 50% methanol and methanol respectively, the 50% methanol portion having a constant volume of 5 ml.; (l) passing the 50% methanol portion through a filter membrane as the assay; (4) performing the assay comprising steps of: (a) pipetting the standard and the assay, 10 μl. each; (b) transferring the pipetted standard and assay into a liquid chromatograph; performing the calculation and obtaining the results.  
         [0131]    In an embodiment of the above method, (−) epicatechin is used as the standard to determine the amount of (−) epicatechin in a  Fagopyrum cymosum  (Trev.) Meisn composition.  
       The First Series of Experiments: Inhibiting Effect of the  Fagopyrum cymosum  (Trev.) Meisn Composition of This Invention on Mouse Sarcoma 180  
     Experimental Animals  
       [0132]    Healthy Kunming and ICR mice with a body weight of 18-22 g. each were obtained from the breeding center of Sichuan Institute of Antibiotic Industry, Chengdu, Sichuan Province, P. R. China. Both male and female mice were used in the experiment.  
       Tumor Line  
       [0133]    Sarcoma 180 was obtained from the Division of Pharmacology, Sichuan Institute of Antibiotic Industry, Chengdu, Sichuan Province, P. R. China.  
       Investigational Drug  
       [0134]    The  Fagopyrum cymosum  (Trev.) Meisn composition of this invention was prepared into 0.5% CMC suspensions in concentrations needed. 5-Fluorouracil (5-FU) was purchased on the market and diluted to the concentration needed with saline.  
       Experimental Method  
       [0135]    The experiment was carried out in vivo according to “Procedures of in vivo Screening of Antineoplastic Drugs” established in P. R. China in 1978.  
       Experimental Results  
       [0136]    The inhibiting effect of the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention on mouse sarcoma 180 is shown in Tables 5, 6, 7 and 8.  
         [0137]    Table 5. Inhibiting Effect of the  Fagopyrum cymosum  (Trev.) Meisn Composition of This Invention on ICR Mouse Sarcoma 180  
                                                       No. of   Change in   Average                   Mice at   Mean Value   Tumor   Tumor           Dosage   beginning/   of Body   Weight   Inhibiting           (mg/kg/d)   end   Weight (g)   (g) ({overscore (×)} ± SD)   Rate (%)   P Value                   200   10/10   +1.54   0.56 ± 0.21   44.55   &lt;0.001       100   10/10   +1.86   0.44 ± 0.22   56.44   &lt;0.001        50   10/10   +2.01   0.59 ± 0.17   41.58   &lt;0.001       0.5%   15/15   +1.52   1.01 ± 0.25       CMC                          
 
         [0138]    [0138]                                         TABLE 6                           Inhibiting Effect of the  Fagopyrum cymosum  (Trev.)       Meisn Composition of This Invention on ICR Mouse Sarcoma       180                No. of   Change in   Average                   Mice at   Mean Value   Tumor   Tumor           Dosage   beginning/   of Body   Weight   Inhibiting           (mg/kg/d)   end   Weight (g)   (g) ({overscore (×)} ± SD)   Rate (%)   P Value               10   10/9    −0.90   0.60 ± 0.26   40.59   &lt;0.01        5   10/10   +1.04   0.66 ± 0.84   34.65   &lt;0.05        5-Fu 5   10/10   +2.01   0.49 ± 0.25   51.49   &lt;0.001                            
         [0139]    [0139]                                         TABLE 7                           Inhibiting Effect of the  Fagopyrum cymosum  (Trev.)       Meisn Composition of This Invention on Kunming Mouse       Sarcoma 180                No. of   Change in   Average                   Mice at   Mean Value   Tumor   Tumor           Dosage   beginning/   of Body   Weight   Inhibiting           (mg/kg/d)   end   Weight (g)   (g) ({overscore (×)} ± SD)   Rate (%)   P Value               500   10/9   +1.98   1.96 ± 0.29   37.78   &lt;0.001       100   10/9   +1.77   1.71 ± 1.07   45.71   &lt;0.01        20   10/8   +3.65   2.11 ± 1.15   33.02   &lt;0.05        0.5%    21/20   +4.67   3.15 ± 0.73       CMC                            
         [0140]    [0140]                                         TABLE 8                           Inhibiting Effect of the  Fagopyrum cymosum  (Trev.)       Meisn Composition of This Invention on Kunming Mouse       Sarcoma 180                No. of   Change in   Average                   Mice at   Mean Value   Tumor   Tumor           Dosage   beginning/   of Body   Weight   Inhibiting           (mg/kg/d)   end   Weight (g)   (g) ({overscore (×)} ± SD)   Rate (%)   P Value               40   10/8   +0.45   1.63 ± 0.60   48.25   &lt;0.001       20   10/9   +2.23   2.14 ± 0.55   32.06   &lt;0.001       10   10/8   +3.05   2.15 ± 0.67   31.75   &lt;0.01        0.5%    21/20   +4.67   3.15 ± 0.73       CMC                            
         [0141]    Tables 5, 6, 7 and 8 show that the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention by either oral or intraperitoneal administration is very effective in inhibiting the growth of mouse sarcoma 180.  
       The Second Series of Experiment: Inhibiting Effect of the  Fagopyrum cymosum  (Trev.) Meisn Composition of This Invention on Lewis Lung Carcinoma  
     Experimental Animals  
       [0142]    Healthy C57BL/6N mice with a body weight of 18-22 g. each were obtained from the breeding center of Sichuan Institute of Antibiotic Industry, Chengdu, Sichuan Province, P. R. China. Both male and female mice were used in the experiment.  
       Tumor Line  
       [0143]    Lewis lung carcinoma was obtained from the Division of Pharmacology, Sichuan Institute of Antibiotic Industry, Chengdu, Sichuan Province, P. R. China.  
       Investigational Drug  
       [0144]    The  Fagopyrum cymosum  (Trev.) Meisn composition of this invention was prepared into 0.5% CMC suspensions in concentrations needed. 5-Fluorouracil (5-FU) was purchased on the market and diluted to the concentration needed with saline.  
       Experimental Method  
       [0145]    The experiment was carried out in vivo according to “Procedures of in vivo Screening of Antineoplastic Drugs” established in P. R. China in 1978.  
       Experimental Results  
       [0146]    The inhibiting effect of the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention on Lewis lung carcinoma is shown in Tables 9, 10, 11 and 12.  
                                         TABLE 9                           Inhibiting Effect of the  Fagopyrum cymosum  (Trev.)       Meisn Composition of This Invention on Lewis Lung Carcinoma                No. of   Change in   Average                   Mice at   Mean Value   Tumor   Tumor           Dosage   beginning/   of Body   Weight   Inhibiting           (mg/kg/d)   end   Weight (g)   (g) ({overscore (×)} ± SD)   Rate (%)   P Value               200*   10/10   +0.7   0.69 ± 0.37   55.48   &lt;0.05       100*   10/10   +1.3   0.91 ± 0.72   41.29   &lt;0.05       50*   10/10   +1.1   0.80 ± 0.51   48.39   &lt;0.05       5-Fu 5**   9/9   +0.4   0.74 ± 0.49   52.26   &lt;0.05       0.5%   14/13   +1.0   1.55 ± 1.07       CMC*                                  
 
         [0147]    [0147]                                         TABLE 10                           Inhibiting Effect of the  Fagopyrum cymosum  (Trev.)       Meisn Composition of This Invention on Lewis Lung Carcinoma                No. of   Change in   Average                   Mice at   Mean Value   Tumor   Tumor           Dosage   beginning/   of Body   Weight   Inhibiting           (mg/kg/d)   end   Weight (g)   (g) ({overscore (×)} ± SD)   Rate (%)   P Value               100   10/10   −1.94   0.77 ± 0.24   41.22   &lt;0.01       50   10/10   −1.74   0.86 ± 0.28   34.35   &lt;0.05       0.5%   10/10   −1.31   1.31 ± 0.46       CMC                            
         [0148]    [0148]                                         TABLE 11                           Inhibiting Effect of the  Fagopyrum cymosum  (Trev.)       Meisn Composition of This Invention on Lewis Lung Carcinoma                No. of   Change in   Average                   Mice at   Mean Value   Tumor   Tumor           Dosage   beginning/   of Body   Weight   Inhibiting           (mg/kg/d)   end   Weight (g)   (g) ({overscore (×)} ± SD)   Rate (%)   P Value               500   10/10   −1.77   0.58 ± 0.38   25.64   &lt;0.05       100   10/10   −0.52   0.41 ± 0.35   47.44   &lt;0.05       20   10/9    −0.15   0.49 ± 0.30   37.18   &lt;0.05       0.5%   15/14   −0.85   0.78 ± 0.42       CMC                            
         [0149]    [0149]                                                                   TABLE 12                           Inhibiting Effect of the  Fagopyrum cymosum  (Trev.)       Meisn Composition of This Invention on Lewis Lung Carcinoma                No. of   Change in   Average                   Mice at   Mean Value   Tumor   Tumor           Dosage   beginning/   of Body   Weight   Inhibiting           (mg/kg/d)   end   Weight (g)   (g) ({overscore (×)} ± SD)   Rate (%)   P Value                    40   10/7    −1.35   1.33 ± 0.43   20.44   &lt;0.05       20   10/9    −1.05   1.09 ± 0.43   34.79   &lt;0.05       10   10/9    −0.75   1.57 ± 0.47   6.17   &lt;0.05       0.5%   14/14   −0.67   1.67 ± 0.83       CMC                            
         [0150]    Tables 9, 10, 11 and 12 show that the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention is very effective in inhibiting the growth of Lewis lung carcinoma.  
       The Third Series of Experiment: Inhibiting Effect of the  Fagopyrum cymosum  (Trev.) Meisn Composition of This Invention on Mouse Cervical Carcinoma U14  
     Experimental Animals  
       [0151]    Healthy Kunming and ICR mice with a body weight of 18-22 g. each were obtained from the breeding center of Sichuan Institute of Antibiotic Industry, Chengdu, Sichuan Province, P. R. China. Both male and female mice were used in the experiment.  
       Tumor Line  
       [0152]    Uterine carcinoma U14 was obtained from the Division of Pharmacology, Sichuan Institute of Antibiotic Industry, Chengdu, Sichuan Province, P. R. China.  
       Investigational Drug  
       [0153]    The  Fagopyrum cymosum  (Trev.) Meisn composition of this invention was prepared into 0.5% CMC suspensions in concentrations needed. 5-Fluorouracil (5-FU) was purchased on the market and diluted to the concentration needed with saline.  
       Experimental Method  
       [0154]    The experiment was carried out in vivo according to “Procedures of in vivo Screening of Antineoplastic Drugs” established in P. R. China in 1978.  
       Experimental Results  
       [0155]    The inhibiting effect of the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention on mouse cervical carcinoma U14 is shown in Tables 13, 14, 15, 16 and 17.  
                                         TABLE 13                           Inhibiting Effect of the  Fagopyrum cymosum  (Trev.)       Meisn Composition of This Invention on ICR Mouse       Cervical Carcinoma U14                No. of   Change in   Average                   Mice at   Mean Value   Tumor   Tumor           Dosage   beginning/   of Body   Weight   Inhibiting           (mg/kg/d)   end   Weight (g)   (g) ({overscore (×)} ± SD)   Rate (%)   P Value               200*   10/10   +2.52   1.28 ± 0.38   35.03   &lt;0.001       100*   10/10   +2.16   1.14 ± 0.40   42.13   &lt;0.001       50*   10/10   +2.38   1.02 ± 0.29   48.22   &lt;0.001       5-Fu 5**   10/10   +3.93   1.27 ± 0.37   35.53   &lt;0.001       0.5%   15/15   +1.63   1.97 ± 0.45       CMC*                                  
 
         [0156]    [0156]                                                                   TABLE 14                           Inhibiting Effect of the  Fagopyrum cymosum  (Trev.)       Meisn Composition of This Invention on ICR Mouse       Cervical Carcinoma U14                No. of   Change in   Average                   Mice at   Mean Value   Tumor   Tumor           Dosage   beginning/   of Body   Weight   Inhibiting           (mg/kg/d)   end   Weight (g)   (g) ({overscore (×)} ± SD)   Rate (%)   P Value                    100   10/10   −0.15   1.15 ± 0.21   26.28   &lt;0.01       50   10/9    −0.18   1.01 ± 0.27   35.26   &lt;0.001       25   10/10   −0.04   1.09 ± 0.21   30.13   &lt;0.001       0.5%   15/15   −0.63   1.56 ± 0.40       CMC                            
         [0157]    [0157]                                         TABLE 15                           Inhibiting Effect of the  Fagopyrum cymosum  (Trev.)       Meisn Composition of This Invention on Kunming Mouse       Mouse Cervical Carcinoma U14                No. of   Change in   Average                   Mice at   Mean Value   Tumor   Tumor           Dosage   beginning/   of Body   Weight   Inhibiting           (mg/kg/d)   end   Weight (g)   (g) ({overscore (×)} ± SD)   Rate (%)   P Value               500   11/11   +4.26   3.74 ± 0.96   32.85   &lt;0.001       100   11/11   +4.56   3.99 ± 1.16   28.37   &lt;0.01       0.5%   14/14   +4.86   5.57 ± 1.31       CMC                            
         [0158]    [0158]                                                                   TABLE 16                           Inhibiting Effect of the  Fagopyrum cymosum  (Trev.)       Meisn Composition of This Invention on Kunming       Mouse Cervical Carcinoma U14                No. of   Change in   Average                   Mice at   Mean Value   Tumor   Tumor           Dosage   beginning/   of Body   Weight   Inhibiting           (mg/kg/d)   end   Weight (g)   (g) ({overscore (×)} ± SD)   Rate (%)   P Value                    40   10/8    +1.81   3.39 ± 0.65   37.34   &lt;0.001       20   10/9    +5.55   3.37 ± 0.66   29.05   &lt;0.01       10   10/9    +3.90   4.08 ± 1.14   25.14   &lt;0.05       0.5%   10/10   +5.25   5.45 ± 1.33       CMC                            
         [0159]    [0159]                                                                   TABLE 17                           Inhibiting Effect of the  Fagopyrum cymosum  (Trev.)       Meisn Composition of This Invention on ICR Mouse       Cervical Carcinoma U14                No. of   Change in   Average                   Mice at   Mean Value   Tumor   Tumor           Dosage   beginning/   of Body   Weight   Inhibiting           (mg/kg/d)   end   Weight (g)   (g) ({overscore (×)} ± SD)   Rate (%)   P Value                    10   10/8    +0.57   1.56 ± 0.37   33.62   &lt;0.001       5   10/9    +0.84   1.69 ± 0.40   28.09   &lt;0.01       5-Fu 5   10/10   +1.25   1.55 ± 0.23   34.04   &lt;0.001       0.5%   10/13   +0.03   2.35 ± 0.40       CMC                            
         [0160]    Table 13, 14, 15, 16 and 17 show that the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention is very effective in inhibiting the growth of mouse cervical carcinoma U14.  
       The Fourth Series of Experiment: Inhibiting Effect of the  Fagopyrum cymosum  (Trev.) Meisn Composition of This Invention on Colony Formation of Human Gastric Carcinoma Cell Line SGC-7901  
     Tumor Line  
       [0161]    Human gastric cancer cell line SGC-7901 was obtained from Shanghai Institute of Materia Medica, Academia Sinica, Shanghai, P. R. China.  
       Cell Culture Vials  
       [0162]    The round culture vials with a diameter of 40 mm. used in this experiment were procured from Jiangyin Glassworks, Jiangsu Province, P. R. China.  
       Investigational Drug  
       [0163]    The  Fagopyrum cymosum  (Trev.) Meisn composition of this invention was weighed by aseptic technique and put into a sterile agate mortar. A few drops of dimethyl sulfoxide (DMSO) were added as complex solubilizer. It was finely ground and diluted with TC-199 culture medium to the concentrations needed.  
       Experimental Method  
       [0164]    Cells were cultured in vitro according to the normal cell clone method. Eight experimental groups were established, with 3 vials for each group. The cells were exposed to the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention for four time periods of 0.5, 4 and 8 hours, and 21 days. For the three sets of cells that were exposed to the drug for 0.5, 4 and 8 hours, the drug-containing culture medium was discarded. The cells were then washed with Hank&#39;s solution and added with 3 ml. fresh culture medium. The incubation of the fourth set of cells extended to day 21. The drug-containing culture medium was discarded. The cells were fixed with methyl alcohol and stained with Wright&#39;s and Giemsa stain. The number of colonies (≧50 cells were taken as a colony) was counted. The colony forming efficiency (CFE) was calculated according to the equation “CFE=number of colony formation/total number of inoculated cells.” Inhibition of colony formation (ICF) was calculated according to the equation “ICF%=(CFE of control group-CFE of exposed group)/CFE of control group×100%.”  
       Experimental Results  
       [0165]    The inhibiting effect of the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention on colony formation of Gastric Carcinoma Cell Line SGC-7901 is shown in Tables 18 and 19.  
                                                           TABLE 18                           Inhibiting Effect of the  Fagopyrum cymosum  (Trev.)       Meisn Composition of This Invention on Colony       Formation of SGC-7901 Cells (Colony Formation       Efficiency)            Concentration   0.5                   (μg/ml)   Hours   4 Hours   8 Hours   21 Days                    0   8.5 × 10 2      10 × 10 2     7.7 × 10 2      10 × 10 2         0.48   8.2 × 10 2     9.7 × 10 2     5.9 × 10 2     7.4 × 10 2         1.92   7.6 × 10 2     8.7 × 10 2     5.0 × 10 2     6.6 × 10 2         7.8   6.9 × 10 2     8.4 × 10 2     4.4 × 10 2     5.1 × 10 2         31.3   4.9 × 10 2     5.4 × 10 2     2.5 × 10 2     2.8 × 10 3         125   3.9 × 10 2     4.5 × 10 3       1 × 10 3     6.7 × 10 5         500   2.6 × 10 2     2.3 × 10 4     4.4 × 10 4         2000   9.7 × 10 5                    
 
         [0166]    [0166]                                                           TABLE 19                           Inhibiting Effect of the  Fagopyrum cymosum         (Trev.) Meisn Composition of This Invention on Colony       Formation of SGC-7901 Cells (Inhibition of Colony       Formation)            Concentration   0.5                   (μg/ml)   Hours   4 Hours   8 Hours   21 Days                    0                       0.48   4   3   23   24       1.92   10   13   35   34       7.8   18   16   43   49       31.3   42   46   68   72       125   54   55   99   99.9       500   61   98   99.5   100       2000   99.9   100   100   100                    
         [0167]    Table 18 and 19 show that the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention is very effective in inhibiting colony formation of human gastric carcinoma cell line SGC-7901.  
       The Fifth Series of Experiment: Alleviating Effect of the  Fagopyrum cymosum  (Trev.) Meisn Composition of This Invention on Xylene-induced Mouse Ear Inflammation  
     Experimental Animals  
       [0168]    49 healthy male adult Kunming mice were obtained from the breeding center of Sichuan Institute of Antibiotic Industry, Chengdu, Sichuan Province, P. R. China.  
       Investigational Drug  
       [0169]    The  Fagopyrum cymosum  (Trev.) Meisn composition of this invention was prepared into 0.5% CMC suspensions in concentrations needed.  
       Experimental Method  
       [0170]    Inflammation was induced in both ears of each mouse by local application of 0.05 ml. of xylene. The mice were then randomized into 3 groups. Half an hour later, one group received local application of 0.5% CMC suspension in right ear as the control. Two other groups were treated by the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention in right ear in concentrations of 10 and 50 mg/ml respectively.  
         [0171]    Mice were killed four hours after administration of the composition. Both left and right ears were excised. Holes 9 mm. in diameter were punched at the same part of both ears. The sections were weighed by a precision balance. The difference in weight between the two ears was used as indication of the intensity of inflammation.  
       Experimental Results  
       [0172]    The alleviating effect of the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention on xylene-induced mouse ear inflammation is shown in Table 20.  
                                                   TABLE 20                           Effect of the  Fagopyrum cymosum  (Trev.) Meisn       Composition of This Invention in Alleviating Xylene-induced       Mouse Ear Inflammation                    Average Weight of   P       Concentration   No. of Mice   Inflamed Parts (mg {overscore (×)} ± SD)   Value                    0.5% CMC   17   6.94 ± 3.56           10 mg/ml   16   4.81 ± 3.90   &lt;0.05       50 mg/ml   16   3.00 ± 2.31   &lt;0.001                  
 
         [0173]    Table 20 shows that the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention is very effective in alleviating xylene-induced mouse ear inflammation.  
       The Sixth Series of Experiment: Radioprotective Effect of the  Fagopyrum cymosum  (Trev.) Meisn Composition of This Invention on Mice against  60 Co Gamma-ray Whole Body Irradiation  
     Experimental Animals  
       [0174]    8-10 weeks old inbred balb/c and Kunming mice with a body weight of 22±2 g. each were obtained from the breeding center of Chengdu Institute of Biological Products, the Ministry of Health, Chengdu, Sichuan Province, P. R. China. Both male and female mice were used in the experiment.  
       Investigational Drug  
       [0175]    The  Fagopyrum cymosum  (Trev.) Meisn composition of this invention of the batch number of 880208 was used in this experiment. The composition was finely ground in agate mortar, dissolved by dimethyl sulfoxide (DMSO) and diluted with saline to a concentration of 5-10 mg/ml (containing 2.5% DMSO).  
       Experimental Method  
       [0176]    Mice were divided into 12 groups. The  Fagopyrum cymosum  (Trev.) Meisn composition of this invention was administered per os to mice at a dose of 0.2 ml. once a day. 2.5% DMSO in saline was administered to the control group. The drug schedule is shown in Tables 21, 22 and 23.  
         60 Co Radiation Source  
       [0177]    Cobalt-60 therapy unit.  
       Irradiation Condition  
       [0178]    Mice were fixed in special irradiation boxes, 5 mice per box. Then they were irradiated for 14 minutes at a distance of 75 cm. from the  60 Co source to the center of the animals in an irradiation field of 20×20 cm. at a dose rate of 0.64-0.59 Gy/min. The whole body total irradiation dosage was 8 Gy.  
       Observation Parameters  
       [0179]    After 8 GY of whole body irradiation, the number of dead mice in all groups was counted daily. The number of surviving mice in all groups was counted 30 days after irradiation. 30 day survival rates were calculated. The average surviving time of dead animals in all groups was also calculated.  
       Experimental Results  
       [0180]    The radioprotective effect of the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention on mice against  60 Co gamma ray irradiation is shown by table 21, 22 and 23.  
                                                 TABLE 21                           Radioprotective Effect of the  Fagopyrum cymosum         (Trev.) Meisn Composition of This Invention on mice against       Gamma Ray Irradiation (Balb/c Female Mice, Mode of       Administration: p.o.)                        30       Average                           Day   In-   Sur-                   Sur-   creased   viving           Dosage       vival   Survival   Time of   Pro-       No of   mg/       Rate   Rate   Dead   tection   P       Mice   animal)   Schedule   (%)   (%)   Mice   Efficacy   Value               20   0   Once/day;   45   /   17.9   1.00   /               5, 4, 3, 2,    (9/20)       20   0.5   1 and 0   65   20.0   10.0   0.98   &gt;0.05               days   (13/20)       19   1.0   before   89.5   44.5   12.0   1.21   &gt;0.01               irradiation   (17/19)       21   2.0       66.7   21.7   15.1   1.16   &gt;0.05                   (14/21)                  
 
         [0181]    [0181]                                                 TABLE 22                           Radioprotective Effect of the  Fagopyrum cymosum         (Trev.) Meisn Composition of This Invention on Mice against       Gamma Ray Irradiation (Kunming Male Mice, Mode of       Administration: p.o.)                        30       Average                           Day   In-   Sur-   Pro-                   Sur-   creased   viving   tec-           Dosage       vival   Survival   Time of   tion       No of   mg/       Rate   Rate   Dead   Effi-   P       Mice   animal   Schedule   (%)   (%)   Mice   cacy   Value               20   0   Saline   5   /   10.4   1.00   /               once/day;   (1/20)               6, 5, 4, 3,               2 and 1               days               before               irradiation       10   1   Once a   20   15   12.6   1.31   &gt;0.05               day; 7,   (2/10)               6, 5, 4, 3,               2 and 1               days               before               irradiation       10   1   Once a   50   45   10.5   1.65   &lt;0.005               day; 3, 2   (5/10)               and 1 days               before               irradiation       20   1   Once a   10   5   12.6   1.03   &gt;0.05               day; 1 day   (2/20)               before               irradiation       20   1   Once im-   5   0   12.1   0.99   &gt;0.05               mediately   (1/20)               before               irradiation                    
         [0182]    [0182]                                                 TABLE 23                           Radioprotective Effect of the  Fagopyrum cymosum         (Trev.) Meisn Composition of This Invention on Mice against       Gamma Ray Irradiation (Kunming Female Mice, Mode of       Administration: po)                        30       Average                           Day   In-   Sur-   Pro-                   Sur-   creased   viving   tec-           Dosage       vival   Survival   Time of   tion       No of   mg/       Rate   Rate   Dead   Effi-   P       Mice   animal   Schedule   (%)   (%)   Mice   cacy   Value               20   0   Saline   /   13.5   13.5   1.00   /               once/day;               5, 4, 3, 2               and 1 days               before               irradiation       20   1   Once a   45   45   13   1.49   &lt;0.005               day; 5, 4,   (9/20)               3, 2 and 1               days               before               irradiation       19   1   Once a   45   42   13   1.53   &lt;0.005               day; 3, 2   (9/20)               and 1 days               before               irradiation                    
         [0183]    Table 21, 22 and 23 show that the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention is very effective in protecting mouse against  60 Co gamma ray irradiation. The tables also show that gastric instillation of the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention at different doses (0.5-2.0 mg/mouse) once a day 5, 4, 3, 2, 1 and 0 days before radiation exposure can protect mice against gamma ray irradiation to varying extent. Of all dose groups, the 1 mg. dose group shows the best effect with an increased survival rate of 44.5%. With the same dose of 1 mg, administration once a day, 3, 2 and 1 days before radiation exposure shows the best radio protective effect.  
       The Seventh Series of Experiment: Inhibiting Effect of the  Fagopyrum cymosum  (Trev.) Meisn Composition of This Invention in Combination with 5-Fluorouracil and  60 Co Gamma Rays on Mouse Sarcoma 180  
     Experimental Animals  
       [0184]    60 Kunming mice were obtained from the breeding center of Chengdu Institute of Biological Products, the Ministry of Health, Chengdu, Sichuan Province, P. R. China.  
       Tumor Line  
       [0185]    Sarcoma 180 was obtained from the Division of Pharmacology, Sichuan Institute of Antibiotic Industry, Chengdu, Sichuan Province, P. R. China. The tumor line had been passed on several times in Kunming mice.  
       Investigational Drug  
       [0186]    The  Fagopyrum cymosum  (Trev.) Meisn composition of this invention was used in the experiment.  
       5-Fluorouracil  
       [0187]    The drug was prepared by Nantong Pharmaceuticals, Nantong, Jiangsu Province, P. R. China.  
         60 Co Radiation Source  
       [0188]    Cobalt-60 therapy unit.  
       Experimental Method  
       [0189]    Inoculation of tumor line and evaluation of therapeutic efficacy were performed according to “Procedures of in vivo Screening of Antineoplastic Drugs” established in P. R. China in 1978.  
         [0190]    Sixty mice were divided into 6 groups, 10 mice for each group. Group 1 was the control group wherein the mice were treated only by saline. Groups 2 to 6 were treatment groups using different therapies. Group 2 was treated with the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention. Group 3 was treated with 5-Fluorouracil. Group 4 was treated with  60 Co irradiation. Group 5 was treated with the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention combined with 5-Fluorouracil, while Group 6 was treated with the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention combined with  60 Co irradiation. Result of each group was then calculated and compared.  
       Experimental Results  
       [0191]    The inhibiting effect of the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention in combination with 5-fluorouracil and  60 Co gamma ray irradiation on Mouse Sarcoma 180 is shown by Table 24.  
                                             TABLE 24                           Inhibiting Effect of the  Fagopyrum cymosum         (Trev.) Meisn Composition of This Invention in Combination       with 5-Fluorouracil and  60 Co Gamma Ray Irradiation       on Mouse Sarcoma 180                        Mode of           Tumor                   Adminis-   No. of       Inhi-                   tration   Mice at   Tumor   biting           Formula-   Dosage   and   beginning   Weight   Rate       Drug   tion   (mg/kg)   Schedule   /end   (g)   (%)               Saline       2.5%   p.o. × 10   10/10   1.36                   DMSO       Fagopyrum   Powder   100   p.o. × 10   10/10   0.88   35.2       Composition       5-FU   Injection   5   i.p. × 10   10/10   0.71   47.8       γ-       300 rad   3 days after   10/10   0.57   50.7       Irradiation           inoculation       Fagopyrum   Powder +   100 mg   p.o. × 10   10/9    0.62   54.4       Composition +   Injection   +   i.p. × 10       5-FU       5 mg       Fagopyrum   Powder   100 mg   p.o. × 10   10/9    0.44   67.6       Composition +       +   300 rad × 1       γ-       300 rad       Irradiation                  
 
         [0192]    Table 24 shows that the  Fagopyrum cymosum  (Trev.) Meisn composition of this invention when applied in combination with 5-Fluorouracil and  60 Co gamma ray irradiation is more effective than other experimental therapies in inhibiting the growth of Mouse Sarcoma 180.  
       The First Series of Clinical Study: Anticancer Effect of the Pharmaceutical Composition of  Fagopyrum cymosum  (Trev.) Meisn of This Invention  
     Patient Selection  
       [0193]    136 patients with lung cancer were recruited in the clinical study. Their age and sex distributions were as follows:  
                                                                         TABLE 25                           Age and Sex Distribution of 136 Lung Cancer       Patients                Total Cases   Age            Sex   Cases   %   Range of Age   Mean Value of Age                    Male   102   75%   34-75   61       Female   34   25%   31-80   60                  
 
         [0194]    The major clinical symptoms of the 136 patients were as follows:  
                                                                           TABLE 26                           Major Clinical Symptoms of 136 Lung Cancer       Patients                        Expecto-   Chest   Bloody               Total   Cough   ration   Pain   Sputum   Fever                        Cases   136   122   118   82   57   37       %   100   89.7   86.8   60.3   41.9   27.2                  
 
         [0195]    The radiographic presentations of the 136 patients were as follows:  
                                                       TABLE 27                           Radiographic Presentations of 136 Lung Cancer       Patients                    Centrally Located               Total   Lesions   Peripheral Lesion                            Cases   136   118   18           %   100   86.78   13.22                      
 
         [0196]    The 136 patients were staged based on “The Guiding Principles for Clinical Research of New Drugs (Traditional Chinese Materia Medica)” established by the Ministry of Health of P. R. China in 1988. Table 28 shows that the majority of the 136 patients fell into intermediate and late stages of lung cancer.  
                                                                           TABLE 28                           Clinical Stages of 136 Lung Cancer Patients                Total   I   II   III   IV   III + IV                        Cases   136   6   37   61   32   93       %   100   4.41   27.21   44.85   23.53   68.38                  
 
         [0197]    The pathological classifications of the 136 patients were as follows:  
                                                                           TABLE 29                           Pathological Classifications of 136 Lung Cancer       Patients                            Small                               Cell                       Squamous       Undiffer-   Large                   Cell   Adeno-   eniated   Cell   Unclassi-           Total   Carcinoma   carcinoma   Carcinoma   Carcinoma   fied                        Cases   136   77   44   12   1   2       %   100%   56.62%   32.35%   8.82%   0.74%   1.47%                  
 
         [0198]    Methods of Diagnosis: All enrolled patients were diagnosed by detection of lung cancer cells through biopsy or brushing in fiberopic bronchoscopy, pathological biopsy of lymph nodes, biopsy by needle aspiration or pathological examination of sputum or pleural effusion.  
       Design of the Clinical Study  
       [0199]    All patients were administered orally the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention in the formulation of capsule (containing 200 mg. of the active components), 1.2-1.6 g. each time, 3 times a day. Patients took the medicine only after meals. The duration of treatment was 2 months.  
         [0200]    No patient received anticancer chemotherapy or radiotherapy prior to or during the course of the clinical study.  
       Evaluation of Therapeutic Effectiveness  
       [0201]    Therapeutic effectiveness of the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention was evaluated according to the established criteria of four grades: Complete Remission (CR), Partial Remission (PR), Stableness (S) and Progression (P).  
         [0202]    Therapeutic Results  
         [0203]    The results of clinical study show that the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention is effective in treating lung cancer.  
         [0204]    1. The pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention is effective in treating lung cancer.  
                                                                           TABLE 30                           Effects of the Pharmaceutical Composition of         Fagopyrum cymosum  (Trev.) Meisn of This Invention in       Treating Lung Cancer Patients                Total   CR   PR   S   P   CR + PR                        Cases   136   1   17   79   39   18       %   100   0.74   12.5   58.08   28.68   13.24                  
 
         [0205]    2. The pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention is effective in alleviating major clinical symptoms of lung cancer.  
                                                                                                   TABLE 31                           Effects of the Pharmaceutical Composition of         Fagopyrum cymosum  (Trev.) Meisn of This Invention in       Alleviating Major Clinical Symptoms of Lung Cancer Patients                No. of Cases                    Before   After   Change            Symptom   Severity   Treatment   Treatment   Number   %                    Cough   Mild   62   79   +17   +27.4%           Moderate   46   18   −28   −60.9%           serious   14   7   −7     −50%           Total   122   104   −18   −14.8%       Expectoration   Mild   80   60   −20     −25%           Moderate   35   16   −19   −54.3%           serious   3   1   −2   −66.7%           Total   118   77   41   −34.7%       Chest Pain   Mild   57   46   −11   −19.3%           Moderate   19   8   −11   −57.9%           serious   6   3   −3     −50%           Total   82   57   −25   −30.5%       Bloody Sputum   Mild   47   24   −23   −48.9%           Moderate   9   4   −5   −55.6%           serious   1   0   −1    −100%           Total   57   28   −29   −50.9%       Fever   Mild   29   13   −16   −55.2%           Moderate   8   2   −6     −75%           serious   1   2   +1    +100%           Total   38   17   −21   −55.3%                                  
 
         [0206]    3. The pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention is effective in improving blood picture of lung cancer patients by increasing their hemoglobin, leucocyte and platelet counts.  
                                                                                                                             TABLE 32                           Effects of the Pharmaceutical Composition of         Fagopyrum cymosum  (Trev.) Meisn of This Invention in       Improving Blood Picture of Lung Cancer Patients            Blood   Total   Increased   Stable   Decreased                Count   No.   %   No.   %   No.   %   No.   %   X 2                      Hemo-   136   100   68   50    25   18.4   43    31.6   6.42       globin       Leuco-   136   100   14   10.3   120   88.2   2   1.5   8       cyte       Platelet   136   100    6   4.4   129   94.9   1   0.7   3.69                          
 
         [0207]    4. The pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention is effective in improving clinical signs of lung cancer patients.  
         [0208]    After treatment by the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention, the 136 lung cancer patients generally gained weight and better appetite, decreased blood sedimentation rate and improved kidney function. There was no significant change of liver function after the treatment.  
                                                   TABLE 33                           Effects of the Pharmaceutical Composition of         Fagopyrum cymosum  (Trev.) Meisn of This Invention in       Improving Clinical Signs of Lung Cancer Patients.                Clinical Signs   Before Treatment   After Treatment                            Average Weight (kg.)   57.2   57.5           Average Daily Food   588   660           Consumption (g.)           Average Blood   24.8   23.5           Sedimentation Rate           (mm/h)           Average Blood Urea   4.76   3.97           Nitrogen (mmol/L)                      
 
         [0209]    During the clinical study, the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention brought out a combined complete and partial remission rate of 13.24% and a stable rate of 58.08%. It alleviated to a varying degree various clinical symptoms of lung cancer, such as cough, expectoration, chest pain, bloody sputum and fever. The pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention also improved blood picture of lung cancer patients by increasing their hemoglobin, leucocyte and platelet counts. In addition, it improved various clinical signs of lung cancer patients. Of 136 patients, one achieved complete remission. These results indicate that the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention is effective in treating lung cancer.  
       The Second Series of Clinical Study: Alleviating Effect of the Pharmaceutical Composition of  Fagopyrum cymosum  (Trev.) Meisn of This Invention on the Toxicity and Other Side-effects of Anticancer Chemotherapeutic Agents  
     Patient Selection  
       [0210]    60 patients with lung cancer were recruited in the clinical study. 35 patients were male and 25 patients were female. They aere 35-76 years old with an average age of 55.5. Their age distribution is as follows (Table 34):  
                                                                   TABLE 34                           Age Distribution of 60 Lung Cancer Patients                Total   &lt;40   40-60   61-70   &gt;70                        number   60   6   24   22   8       %   100   10   40   36.67   13.33                  
 
         [0211]    All patients were hospitalized with definite diagnosis of lung cancer confirmed pathologically. Their clinical stages are shown in Table 35.  
                                                                           TABLE 35                           Clinical Stages of 60 Lung Cancer Patients                Total   I   II   III   IV   III ± IV                        Cases   60   0   6   28   26   54       %   100   0   10   46.7   43.3   90                  
 
         [0212]    Table 35 shows that patients in stage III and IV accounted for 90% of the total. The pathological classifications of the patients are as follows:  
                                                           TABLE 36                           Pathological Classifications of 60 Lung Cancer       Patients                    Squamous Cell       Small Cell           Total   Carcinoma   Adeno-carcinoma   Carcinoma                        Cases   60   16   40   4       %   100   26.67   66.67   6.66                  
 
         [0213]    48 patients (80%) had received radiotherapy or chemotherapy six or three months before they were enrolled in the clinical study.  
       Design of the Clinical Study  
       [0214]    The 60 lung cancer patients were randomly divided into a treatment group and a control group, 30 patients in each group. Patients in the treatment group were administered orally of the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention at the dose of 1.6 g. (8 capsules), three times a day. They might take symptomatic drugs at the same time, but no other anticancer drugs. The control group was treated by chemotherapy, mainly with cisplatium, VP-16 and CAP program. Patients with squamous carcinoma were further treated with daunorubicin and intrapleural therapy mainly by MMC and DDP programs. Patients with small cell carcinoma were further treated mainly with CEA program while patients with non-small cell carcinoma were further treated with CAP program.  
         [0215]    Before the treatment started, patients in both groups took cardiac, renal, hepatic, bone marrow and immune function examinations at the same time. Two months after medication, they were examined again for the same parameters of various functions.  
       Evaluation of Therapeutic Effectiveness  
       [0216]    Therapeutic effectiveness of the Pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention was evaluated according to the established criteria of four grades: Complete Remission (CR), Partial Remission (PR), Stableness (S) and Progression (P). Toxic reaction was evaluated according to the unified criteria for grading acute, subacute and toxic reactions of anticancer drugs. They are divided into grade 0, I, II, III and IV.  
       Therapeutic Results  
       [0217]    1. The pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention is effective in treating lung cancer.  
         [0218]    Two months after medication, no complete remission was observed. The partial remission rate in the control group was higher than that in the treatment group. The stableness rate in the treatment group was significantly higher than that in the control group. The combined rate of PR+S in the treatment group (83.33%) was higher than that in the control group (63.33%). The number of patients with progression of tumor in the control group were about 2 times more than that in the treatment group. The data indicate that the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention is effective in treating lung cancer.  
                                             TABLE 37                           Effects of the Pharmaceutical Composition of         Fagopyrum cymosum  (Trev.) Meisn of This Invention in       Treating Lung Cancer                                    PR +       Group   Total   CR (%)   PR (%)   S (%)   P (%)   S (%)               Treat-   30   0 (0)   6 (20.00)   19 (63.33)   5 (16.67)   25 (83.33)       ment       Control   30   0 (0)   8 (26.66)   11 (36.67)   11 (36.67)   19 (63.33)                  
 
         [0219]    2. The pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention achieves its therapeutic effect with less toxic reaction than chemotherapy.  
                                                                                         TABLE 38                           Comparison of Toxic Reactions between the Treatment Group Receiving the Pharmaceutical       Composition of  Fagopyrum cymosum  (Trev.) Meisn of This Invention and the       Control Group Receiving Chemotherapy in Terms of Change in Hemoglobin Level                Severity of Reaction                0   I   II   III                Total Cases   Before   After   Before   After   Before   After   Before   After       Groups   and %   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment               Treatment   30   22   26   6    4   2   0   0   0           100%   73.3%   86.7%   20%   13.3%   6.7%    0%   0%   0%       Control   30   23   17   6   10   1   3   0   0           100%   76.7%   56.7%   20%   33.3%   3.3%   10%   0%   0%                  
 
         [0220]    [0220]                                                                                         TABLE 39                           Comparison of Toxic Reactions between the Treatment Group Receiving the Pharmaceutical       Composition of  Fagopyrum cymosum  (Trev.) Meisn of This Invention and the       Control Group Receiving Chemotherapy in Term of Change in Leukocyte Level                Severity of Reaction                0   I   II   III                Total Cases   Before   After   Before   After   Before   After   Before   After       Groups   and %   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment               Treatment   30   25   28   4   1   1   1   0   0           100%   83.4%   93.4%   13.3%    3.3%   3.3%    3.3%   0%     0%       Control   30   30   20   0   5   0   4   0   1           100%    100%   66.7%     0%   16.7%     0%   13.3%   0%   3.3%                    
         [0221]    [0221]                                                                                         TABLE 40                           Comparison of Toxic Reactions between the Treatment Group Receiving the Pharmaceutical       Composition of  Fagopyrum cymosum  (Trev.) Meisn of This Invention and the       Control Group Receiving Chemotherapy in Terms of Change in Platelet Level                Severity of Reaction                0   I   II   III                Total Cases   Before   After   Before   After   Before   After   Before   After       Groups   and %   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment               Treatment   30   27   29   1   0   1   0   1   1           100%     90%   96.7%   3.4%    0%   3.3%     0%   3.3%   3.3%       Control   30   28   23   0   3   1   2   1   2           100%   93.4%   76.6%     0%   10%   3.3%   6.7%   3.3%   6.7%                    
         [0222]    Leukocyte and platelet count of patients in both treatment and control groups is shown by table 41. Leukocyte count &gt;4000/mm 3  and platelet count &gt;80000/mm 3  are used as the normal value. Table 41 shows that the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention has no inhibiting effect on leukocyte and platelet counts.  
                                                       TABLE 41                           Comparison of Leukocyte and Platelet Counts of 60       Lung Cancer Patients after Treatment between the Two Groups                Treatment   Control Group           Parameter   Group (N. = 30)   (N. = 30)   X 2                      Leukocyte   &gt;4000/mm 3     30   17   16.569       Count   &lt;4000/mm 3     0   13       Platelet   &gt;80000/mm 3     30   19   13.469       Count   &lt;80000/mm 3     0   11                          
 
         [0223]    During the clinical study, more patients in the treatment group gained weight than those in the control group. By contrast, less patients lost weight in the treatment group than those in the control group. The difference between the two groups was statistically significant (P&lt;0.01). The definition for gaining weight in this study was that the weight of a patient increased by more than 2 kg. The definition for losing weight was that the weight of a patient decreased by more than 2 kg. The definition for stableness was that the weight of a patient increased or decreased by less than 2 kg.  
                                                                                     TABLE 42                           Effect of the Pharmaceutical Composition of         Fagopyrum cymosum  (Trev.) Meisn of This Invention on Change       of Body Weight of Lung Cancer Patients                Treatment group   Control Group                    Cases   %   Cases   %   X 2                          Increased   6   20   2   6.7   10.2294       Stable   22   73.3   20   66.7       Decreased   2   6.7   8   26.6       Total   30   100   30   100                  
 
         [0224]    During the clinical study, no patients in the treatment group had nausea, vomiting and diarrhea, while 9 patients in the control group had nausea and vomiting (30%) and 3 patients had diarrhea (10%) occurred in the control group. One patient in the treatment group developed slight abdominal distention after treatment with the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention for one week and the symptom disappeared in two days.  
                                                                                         TABLE 43                           Comparison of Gastrointestinal Reactions between the Treatment Group Receiving the Pharmaceutical       Composition of  Fagopyrum cymosum  (Trev.) Meisn of This Invention and the Control Group Receiving       Chemotherapy in Terms of Nausea and Vomiting Occurrence                Severity of Reaction                0   I   II   III                Total Cases   Before   After   Before   After   Before   After   Before   After       Groups   and %   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment               Treatment   30   30   30   0   0   0   0   0   0           100%   100%   100%      0%    0%     0%      0%   0%     0%       Control   30   21   21   7   3   2   5   0   1           100%    70%    70%   23.33%   10%   6.67%   16.67%   0%   3.33%                  
 
         [0225]    [0225]                                                                                         TABLE 44                           Comparison of Gastrointestinal Reactions between the Treatment Group Receiving the Pharmaceutical       Composition of  Fagopyrum cymosum  (Trev.) Meisn of This Invention and the Control Group Receiving       Chemotherapy in Terms of Diarrhea Occurrence                Severity of Reaction                0   I   II   III                Total Cases   Before   After   Before   After   Before   After   Before   After       Groups   and %   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment   Treatment               Treatment   30   28   30   1   0   1   0   0   0           100%   93.34%   100%   3.33%     0%   3.33%     0%   0%   0%       Control   30   27   27   1   2   2   1   0   0           100%     90%    90%   3.33%   6.67%   6.67%   3.33%   0%   0%                    
         [0226]    During the clinical study, patients with debility increased only 6.7% in the treatment group. By contrast, patients with debility increased 33.3% in the control group. The difference between the two groups was statistically significant (P&lt;0.01).  
                                                                                     TABLE 45                           Effect of the Pharmaceutical Composition of         Fagopyrum cymosum  (Trev.) Meisn of This Invention on       Reducing the Increase of Debility of Lung Cancer Patients                Treatment group   Control Group                    Cases   %   Cases   %   X 2                          Increased   2   6.7   10   33.3   21.4416       Stable   28   93.3   20   66.7       Total   30   100   30   100                  
 
         [0227]    As for heart and kidney functions, the serum glutamic pyruvic transaminase (SGPT) level of one patient in the treatment group increased slightly during the clinical study. This patient was diagnosed later as having been infected with hepatitis C. No toxicity effects to heart or kidney functions were found in the treatment group. In contrast, the SGPT level of 3 patients in the control group increased during the clinical study while abnormal renal function with toxicity level I of blood urea nitrogen occurred in 2 patients of this group. No alopecia or injury to the nerve system was found in treatment group. The results show that the pharmaceutical composition of composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention is safe for clinical application.  
         [0228]    3. The pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention is effective in improving Karnofsky performance scores of lung cancer patients. Table 46 shows that Karnofsky performance scores in the treatment group rose significantly while that in the control group dropped significantly.  
                                                                             TABLE 46                           Effects of the Pharmaceutical Composition of         Fagopyrum cymosum  (Trev.) Meisn of This Invention on       Improving Karnofsky Performance Scores of Lung Cancer       Patients                    Change after               Scores (Mean Value)   Treatment (Cases)                Before   After   Score   Score       Groups   Treatment   Treatment   Increased   Decreased                    Treatment   60.58   69.44   20   4       Control   67.60   30.00   4   12                  
 
       The Third Series of Clinical Study: Comparison between Therapeutic Effect of the Pharmaceutical Composition of  Fagopyrum cymosum  (Trev.) Meisn of This Invention Combined with Chemotherapy and the Effect of Chemotherapy Alone  
     Patient Selection  
       [0229]    80 patients with lung cancer were enrolled in the clinical study. There were 68 male patients and 12 female patients. Their age distribution is as follows:  
                                                                   TABLE 47                           Age Distribution of 80 Lung Cancer Patients                Total   41-50   51-60   61-70   &gt;70                        number   80   22   35   18   5       %   100   27.5   43.75   22.5   6.25                  
 
         [0230]    All patients were hospitalized between December, 1990 and June 1992, definitely diagnosed as having small cell lung carcinoma by anteroposterior and lateral chest tomography and CT and cytological examination (sputum or fiberoptic bronchoscopy). Clinical stages of the patients are shown in Table 48.  
                                                                           TABLE 48                           Clinical Stages of 80 Lung Cancer Patients                Total   I   II   III   IV   III ± IV                        Cases   80   3   19   35   23   58       %   100   3.75   23.75   43.75   28.75   72.5                  
 
         [0231]    Table 48 shows that patients at stages III and IV accounted for 72.5% of the total.  
       Design of the Clinical Study  
       [0232]    Eighty patients were randomly divided into 3 groups: Group A including 20 patients, was treated by the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention alone; Group B including 30 patients was treated by the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention combined with chemotherapy as the experiment group; Group C including 30 patients was treated with chemotherapeutic agents alone as the control group.  
       Experimental Results  
       [0233]    1. Therapeutic Effects  
         [0234]    Effectiveness of the three different regimens was evaluated according to the established criteria of four grades: Complete Remission (CR), Partial Remission (PR), Stableness (S) and Progression (P). Comparison of therapeutic effect of the three groups is shown in table 49.  
                                         TABLE 49                           Comparison of Therapeutic Effects among Three       Groups            Group   Cases   CR   PR   S   P               A   20 (100%)   0 (0%)   3 (15%)   12 (60%)   5 (25%)       B   30 (100%)   0 (0%)   11 (36.67%)   14 (46.66)   5 (16.67%)       C   30 (100%)   0 (0%)   5 (16.67%)   12 (40%)   13 (43.33%)                  
 
         [0235]    Table 49 indicates that the partial remission rate in Group A treated by the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention alone (3/20 or 15%) was lower than that in the control group (5/30 or 16.67%).  
         [0236]    There was no statistically significant difference (χ 2 =1.75, P&gt;0.05).  
         [0237]    The partial remission rate and stable rate in Group B (the experiment group, 11/30 or 36.67% and 14/30 or 46.66% respectively) were higher than those in Group C (the control group, 5/30 or 16.67% and 12/30 or 40% respectively). The difference was statistically significant (χ 2 =5.79, P&lt;0.05).  
         [0238]    The effective rate for Group A was lower than that for Group C with no statistically significant difference (t=1.56, p&gt;0.05). The effective rate for Group B was higher than that for Group C with statistically significant difference (t=1.75, p&lt;0.05) and also higher than that for Group A with statistically significant difference (t=1.67, p&lt;0.05).  
         [0239]    The results of this experiment show that therapeutic effect of the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention combined with chemotherapeutic agents is greater than that of  Fagopyrum cymosum  (Trev.) Meisn composition alone or chemotherapy alone, suggesting that the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention has a synergistic effect with chemotherapy.  
         [0240]    2. Toxic and Untoward Side Effects  
                                                                                             TABLE 50                           Comparison of Toxic and Untoward Effects in Three       Groups                Group A   Group B   Group C           (20 Cases)   (30 Cases)   (30 Cases)            Parameters   Cases   %   Cases   %   Cases   %                    Bone Marrow Depression   1   5   2   6.67   15   50       Anorexia or Diminution   0   0   1   3.33   26   86.67       of Food Intake       Nausea and Vomiting   0   0   0   0   9   30       Decrease in Immunity   1   5   3   10   8   26.67       Lowering in Functional   5   25   5   16.67   17   56.67       Status                  
 
         [0241]    Table 50 indicates that only 2 patients (2/30) in Group B (the experiment group) showed reduction in leucocyte and platelet counts, accounting for only 6.67% of the cases in that group, while 15 patients (15/30) in Group C (the control group) had the same manifestation, accounting for 50% of the cases in that group; the difference was statistically significant (t=3.37, p&lt;0.01). Patients with anorexia and diminution of food intake in Group B were also much less than those in the control group (1/30 or 3.33% v. 26/30 or 86.67%). No case with nausea or vomiting appeared in Group B, while 9 cases developed these symptoms in Group C (0/30 or 0% v. 9/30 or 30%); the difference was also statistically significant (t=6.48, p=0.01). Cases of decrease of immunity in group B were less than those in Group C as well. In addition, cases with lowering in functional status in Group B (5/30 or 16.67%) were also less than those in the Group C (17/30 or 56.67%). The difference was statistically significant (t=2.78, p=0.01). From these experimental results, it is concluded that the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention combined with chemotherapy can effectively reduce toxic and untoward effects of single chemotherapy.  
       The Fourth Series of Clinical Study: Short Term Therapeutic Effect of the Pharmaceutical Composition of  Fagopyrum cymosum  (Trev.) Meisn of This Invention Combined with Radiotherapy  
     Patient Selection  
       [0242]    Seventy patients with lung cancer were recruited in the clinical study. They were randomly divided into 2 groups: 40 patients in the treatment group were treated by the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention combined with radiotherapy. 30 patients in the control group were treated by radiotherapy alone. The age and sex distribution of the patients are as follows:  
                                                 TABLE 51                           Age and Sex Distribution of 70 Lung Cancer Patients                            Mean           Mean                       Value           Value       Group   Cases   Male   Age   of Age   Female   Age   of Age               Treatment   40   35   28-77   58.2   5   57-68   60.2       Control   30   25   32-68   56.4   5   52-67   60.4                  
 
         [0243]    The major clinical symptoms of the 70 lung cancer patients are as follows:  
                                             TABLE 52                           Major Clinical Symptoms of 70 Lung Cancer Patients                        Expecto-   Chest   Bloody           Groups   Total   Cough   ration   Pain   Sputum   Fever               Treatment                               Group       Cases    40   37   25   19   18   12       %   100   92.5   62.5   47.5   45   30       Control       Group       Cases    30   30   27   12   15    7       %   100   100    90   40   50   23.3                  
 
         [0244]    The 70 patients were staged based on “The Guiding Principles for Clinical Research of New Drugs (Traditional Chinese Materia Medica)” established by the Ministry of Health of P. R. China in 1988. Table 53 shows that the majority of the 70 patients fell into the intermediate and late stages of lung cancer.  
                                             TABLE 53                           Clinical Stages of 70 Lung Cancer Patients            Groups   Total   I   II   III   IV   III ± IV               Treatment                               Cases   40   1   7   24   8   32       %   100%   2.5%   17.5%     60%     20%     80%       Control       Cases   30   0   8   14   8   22       %   100%     0%   26.7%   46.6%   26.7%   73.3%                  
 
         [0245]    The pathological classifications of the 70 lung cancer patients are as follows:  
                                                               TABLE 54                           Pathological Classifications of 70 Lung Cancer       Patients                            Small Cell                       Undifferen-               Squamous   Adeno-   tiated       Groups   Total   Carcinoma   carcinoma   Carcinoma                    Treat-   Cases   40   25   8   7       ment   %   100   62.5   20   17.5       Group       Control   Cases   30   17   9   4       Group   %   100   56.7   30   13.3                  
 
         [0246]    All 70 patients were definitely diagnosed as having lung cancer by biopsy or brushing in fiberoptic bronchoscopy, operative exploration and cytological examination of sputum to find cancer cells in the tissues.  
       Methods of Treatment  
       [0247]    Patients in both groups underwent radiotherapy with 150-200 cGy  60 Co or 6-8MV electron accelerator, five times a week, in a total dose of 4000 cGy over total mediastinum and 6000 cGy for primary tumors. The dosage varied with a patient&#39;s state of sickness and tolerance.  
         [0248]    Patients in the treatment group was further administered the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention, 1.2-1.6 g. each time, 3 times a day for a course of about two months. The average duration of treatment for patients in the treatment group was 41 days and the longest 68 days. The average duration of treatment for patients in the control group was 59 days and the longest 80 days. Patients in the control group did not take the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention, but received symptomatic supportive treatment.  
       Experimental Results  
       [0249]    1. Therapeutic Effects  
         [0250]    Therapeutic effectiveness was evaluated according to the established criteria of four grades: Complete Remission 20 (CR), Partial Remission (PR), Stableness (S) and Progression (P). Comparison of therapeutic effect between the treatment and control groups is shown in Table 55.  
                                                                                                                             TABLE 55                           Comparison of Therapeutic Effects between the Treatment and Control Groups                Total                   Effective           Cases   CR   PR   S   P   Rate            Group   Case   %   Case   %   Case   %   Case   %   Case   %   Case   %               Treatment   40   100   13   32.5   18   45    8   20   1   2.5   31   77.5       Control   30   100    1    3.3   14   46.7   12   40   3   10   15   50            X 2     11.03   0.02   2.45   0.67   5.75       P   &lt;0.01   &gt;0.05   &gt;0.05   &gt;0.05   &gt;0.05                  
 
         [0251]    Table 55 indicates that the complete remission rate in treatment group (13/40 or 32.5%) was much higher than that in the control group (1/30 or 3.3%). The effective rate (CR+PR) in the treatment group (31/40 or 77.5%) was also much higher than that in the control group (15/30 or 50%).  
         [0252]    At the completion of treatment, major clinical symptoms of the lung cancer patients in both groups were alleviated to some extent. By comparison, improvements in the treatment group were much more prominent. The results are shown in table 56.  
                                                                                                         TABLE 56                           Alleviation of Clinical Symptoms of 70 Lung       Cancer Patients in the Treatment and Control Groups                Treatment N. = 40   Control Group N. = 30                    Before   After   Before   After               Treatment   Treatment   Treatment   Treatment            Symptoms   Case   %   Case   %   Case   %   Case   %   X 2     P               Cough   37   92.5   13   32.5   30   100    27   90   18.4    &lt;0.01       Expectoration   35   87.5   21   52.5   27   90   25   83.3    6.83   &lt;0.01       Chest Pain   19   47.5    8   20   12   40   10   33.3   4   &lt;0.05       Bloody Sputum   19   47.5    3    7.5   14   46.7    6   20   4.5   &lt;0.05       Fever   12   30    3    7.5    7   23.3    6   20    4.65   &lt;0.05                  
 
         [0253]    At the completion of treatment, reduction of hemoglobin, leukocyte and platelet values to a varying extent was noted in patients in both treatment and control groups. Leukocyte count of 5 patients in the control group decreased to less than 40×10 9 /L. No patient in the treatment group had leukocyte level decreased to such an extent. The results are shown in Table 57.  
                                                                                         TABLE 57                           Change in Hemoglobin, Leukocyte and Platelet       Values of Lung Cancer Patients in Both Groups                Treatment Group   Control Group           N. = 40   N. = 30            Para-   Before   After   Before   After               meters   Treatment   Treatment   Treatment   Treatment   X 2     P                    Hemo-   120.5   121.9   126.8   117.9   1.01   &gt;0.05       globin       (g/L)       Leuko-   8.3   6.5   7.8   5.6   2.587   &lt;0.05       cytes       (×10 9 /L)       Platelet   149.7   140.6   155.4   144.1   0.27   &gt;0.05       (×10 9 /L)                  
 
         [0254]    At the completion of treatment, a majority of patients in treatment group gained weight and better appetite, and improved their life quality. However, only a few patients in the control group exhibited these improvements. The results are shown in Table 58.  
                                                                                             TABLE 58                           Increase in Body weight and Food Intake, and       Improvement in Life Quality of Lung Cancer Patients in Both       Groups                Treatment   Control               Group N. = 40   Group N. = 30            Clinical Signs   Case   %   Case   %   X 2     P                    Gain in weight   18/35   51.42   4/30   13.33   7.66   &lt;0.01       Increase of Food Intake   21/32   65.62   1/30   3.33   23.59   &lt;0.01       Improvement in Life   23/37   62.16   9/30   30   5.62   &lt;0.05       Quality                  
 
         [0255]    At the completion of treatment, all immunological parameters of patients in the treatment group increased more than those of patients in the control group, except for IgA. The differences were statistically significant as shown in Table 59.  
                                                                                             TABLE 59                           Increase of Immunological Parameters of Lung       Cancer Patients in Both Groups                Treatment   Control               Group N. = 40   Group N. = 30            Parameters   Case   %   Case   %   X 2     P                    Complement C3   23/31   74.19   8/30   26.67   11.91   &lt;0.01       E Rosette   22/33   66.67   11/30   36.67   4.51   &lt;0.05       Lymphocyte   11/13   84.62   1/10   10.00   7.54   &lt;0.01       Transforming Factor       IgG   20/32   62.50   7/30   23.33   8.13   &lt;0.01       IgA   14/32   43.75   8/30   26.67   1.30   &lt;0.05       IgM   22/32   68.75   12/30   40.00   4.07   &lt;0.05       Macrophage Phagocytic   26/30   86.67   11/28   39.29   12.09   &lt;0.01       Rate (%)       Macrophage Phagocytic   18/29   62.07   9/28   32.14   4.83   &lt;0.05       Index                  
 
         [0256]    At the completion of treatment, the value of liver function, kidney function and carcinoembryonic antigen (CEG) in patients were also compared between the treatment group and the control group. The results showed no statistically significant difference(P&gt;0.05).  
         [0257]    The results of the experiment show that application of radiotherapy combined with the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention has a superior effect than application of radiotherapy alone. They also suggest that the pharmaceutical composition of  Fagopyrum cymosum  (Trev.) Meisn of this invention has a synergistic effect with radiotherapy and can alleviate the toxic and adverse effects of radiotherapy.  
       Reference  
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