Abstract:
This invention teaches the use of  Solidago virgaurea  for treating and preventing H5N1 avian influenza, influenza virus, and HIV/AIDS. An herbal stock solution was extracted from the natural plant  Solidago virgaurea . The herbal extract had anti-H5N1 avian influenza, anti-influenza, and anti-HIV/AIDS properties. Pharmaceutical compositions of  Solidago virgaurea  were prepared by adding excipients, adjuvants or carriers to this plant extract.

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS  
       [0001]     This application is a continuation of International Patent Application No. PCT/CN2007/002084 with an international filing date of Jun. 7, 2007, designating the United States, now pending, and further claims priority benefits to Chinese Patent Application No. 200610127149.1 filed on Sep. 7, 2006, and to Chinese Patent Application No. 200610127150.4 filed on Sep. 7, 2006. The contents of the aforementioned specifications are incorporated herein by reference. 
     
    
     BACKGROUND OF THE INVENTION  
       [0002]     1. Field of the Invention  
         [0003]     This invention relates to the use of  Solidago virgaurea  in the treatment and prevention of viral infections and the lowering of the concentration of viruses in a animal, e.g., a human. More specifically this invention relates to the use of  Solidago virgaurea  in the treatment and prevention of the H5N1 avian influenza and to lowering of the concentration of the H5N1 avian influenza virus in a animal, e.g., a human. This invention also relates to the use of  Solidago virgaurea  in the treatment and prevention of AIDS and to lowering of the concentration of HIV in a animal, e.g., a human.  
         [0004]     2. Description of the Related Art  
         [0005]     Influenza A virus subtype H5N1, also known as A(H5N1) or simply H5N1, is a subtype of the Influenza A virus which can cause illness in humans and many other animal species. A bird-adapted strain of H5N1, called HPAI A(H5N1) for “highly pathogenic avian influenza virus of type A of subtype H5N1”, is the causative agent of H5N1 flu, commonly known as “avian influenza” or “bird flu”. Influenza is a commonly occurring disease that has not been overcome till now, and the difficulty of treating influenza lies in the ongoing mutations of the virus. Because humans are facing the threat of mutation of H5N1 highly pathogenic avian influenza, there is an urgent need to develop effective drugs that can resist influenza virus ongoing mutations and that of various other types of influenza viruses.  
         [0006]     It has been only about 20 years since the discovery of AIDS, yet the high lethality and virulence of HIV has resulted in infections of over 38 million people and has caused death of over 25 million people worldwide. At present, there are more than ten thousands of new persons infected by AIDS virus daily. Even though the medical profession and the governments throughout the world are doing their best to study and prevent AIDS, so far no effective cure for HIV/AIDS have been found. The common opinion of the AIDS experts at the 16 th  World HIV/AIDS Assembly is that the scientific research field of AIDS lacks an essential breakthrough. Therefore, the development of effective drugs for treating and preventing HIV/AIDS continues to be an urgent priority.  
         [0007]     According to pharmacopoeia records, the use of  Solidago virgaurea  in the Chinese traditional medicine is mainly to dispel wind, remove heat, subdue swelling, detoxicate, treat coldness and headache, sore throat, jaundice, pertussis, children infantile convulsion, traumatic injury, sores of the back, and tinea manuum. Moreover,  Solidago virgaurea  has apparent bacteriostatic and bacteriocidal properties with respect to  staphylococcus aureus , pneumococcus,  pseudomonas aeruginosa, shigella flexneri , etc.  
       SUMMARY OF THE INVENTION  
       [0008]     This invention presents a new use of  Solidago virgaurea  pure plant herbal preparation for treating and preventing viral infections.  
         [0009]     Specifically, in one embodiment of the invention, provided is a method for treating and/or preventing H5N1 avian influenza or influenza with  Solidago virgaurea  with pharmaceutical compositions comprising  Solidago virgaurea.    
         [0010]     In another embodiment of the invention, provided is a method for treating and/or preventing AIDS with  Solidago virgaurea  or with pharmaceutical compositions comprising  Solidago virgaurea.    
         [0011]     In certain classes of the embodiments, a pharmaceutical composition useful for treating and/or preventing a viral infection comprises 50-100%  Solidago virgaurea  (w/w) and 50-100% of pharmaceutically acceptable excipients.  
         [0012]     In certain classes of the embodiments, the virus is H5N1 avian influenza or influenza virus.  
         [0013]     In certain classes of the embodiments, the virus is HIV.  
         [0014]     In other aspects, provided is a method of manufacturing a pharmaceutical preparation comprising  Solidago virgaurea  useful in the treatment and/or prevention of viral infections, comprising placing whole  Solidago virgaurea  and solvent with a weight ratio of 1:50-100 into an extractor, boiling for 10-30 minutes, obtaining an herbal stock solution, filtering, and purifying the solution according to conventional methods.  
         [0015]     In certain classes of this embodiment the solvent is water.  
         [0016]     In certain classes of this embodiment the solvent is an alcohol, and particularly, ethanol.  
         [0017]     In certain classes of the embodiments, a pharmaceutical composition useful for treating and/or preventing a viral infection comprises by weight 50-90% of  Solidago virgaurea  and 10-50% of glycyrrhiza.  
         [0018]     In certain classes of the embodiments, a pharmaceutical composition useful for treating and/or preventing a viral infection comprises by weight: 50-90% of  Solidago virgaurea,  5-25% of honeysuckle and 5-25% of radix isatidis.  
         [0019]     The pharmaceutical compositions of the invention are in the form of oral liquids, granules, decoction pieces, capsules, sprays, dropping pills, injections, or freeze dried powders.  
         [0020]     The pharmaceutical compositions of the invention are made into granules, capsules or herb decoction pieces through micron-milling technology, or the materials are made into herb tea packages through milling with common disintegrator, wherein the weight ratio of  Solidago virgaurea  is 50-100%.  
         [0021]     The pharmaceutical compositions of the invention are made into injection preparations, freeze dried powders, decoction pieces, oral liquids, granules, sprays, capsules or dropping pills after the liquid extraction of the supercritical CO 2 , wherein the weight ratio of  Solidago virgaurea  is 50-100% 
     
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0022]      FIG. 1  shows experimental toxicity results with HH2A and HH2B;  
         [0023]      FIG. 2  shows the addition conditions of each hole in the formal experiment;  
         [0024]      FIG. 3  shows the experimental results for resisting SIV virus in vitro with HH2A and HH2B. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0025]     Conventional purification methods of  Solidago virgaurea  are as follows.  
         [0026]     (1) The common apparatus for the purification of technology of the water extract: sedimentation tank, centrifuge, ultrafilter and ultrafiltration membrane etc.  
         [0027]     (2) Technology process: According to the theory that solid particle can be separated from the liquid in the liquid medium by natural sedimentation due to the gravity, in the sedimentation separation technology, put the water extract into the sedimentation tank standing for a period of time, and then extract the upper pellucid liquid with siphon, also temperature reduction and the addition of sedimentation agent—electrolyte (such as alum) can be used to achieve high efficiency and high quality if necessary.  
         [0028]     The existing micron-milling wall-braking technique:  
         [0029]     It is completed by the use of the device combining the nanometer milling and wall-broken technologies called “air flow pulverizer” developed by Angli Natural Drug Engineering Technology Ltd. of Shanghai Jiaotong University.  
         [0030]     The said theory is that: after the materials enter the milling room of air flow pulverizer in which there are several milling nozzles, the supersonic flow of the milling nozzles gets the milled materials impacted by the high-speed air flow and the mutual collision among the powders, and due to the high speed air flow and strong impact force, the milling effect can reach 0.5-10 micron-size particles (500 nm-10000 nm) and realize physical plant cell wall breaking to make the human body absorb the effective materials completely.  
         [0031]     The existing supercritical CO 2  liquid extraction technique:  
         [0032]     It is completed by “1000 L automatic large scale supercritical units” developed by Shenyang DongYu Corp. with high extraction capability, high extraction rate and controllable quality. The said theory is that: the critical temperature and pressure of CO 2  are respectively 31.05° C. and 7.38 MPa, and CO 2  has double characteristics of gas and liquid when above the critical point. It is approximate to gas with similar viscosity to gas; as well it is approximate to liquid with similar density to liquid, but much larger diffusion coefficient than liquid. Meanwhile, it is a good solvent, and can dissolve many materials by the mutual function and diffusion function among the molecular. At the same time, in the regions higher than the critical point, pressure has a little change, which can cause great changes of its density so as to bring larger changes of the solubility. Therefore, supercritical CO 2  can dissolve the materials in the matrix, forming the supercritical CO 2  load phase, then reducing the pressure of the carrier gas or rising temperature, the solubility of supercritical CO 2  is reduced, and these materials are deposited to be separated from CO 2  (resolution) so as to realize the extraction and separation goal.  
         [0033]     The used method and effective dose of the drugs in this invention for treating H5N1 avian influenza or influenza virus or treating AIDS virus are listed as follows:  
         [0034]     The oral dose of the said herbal stock solution is 2-4 times per day and 100-300 ml per time for the adults.  
         [0035]     For the said oral liquid, the oral dose is 2-4 times per day and 10-20 ml per time for adults.  
         [0036]     For the granule, capsules or decoction pieces, the dose is 3-4 times per day and 2-6 g per time for adults.  
         [0037]     For the injection, the dose is twice per day and 5-10 ml per time for adults.  
         [0038]     For the dropping pill, the dose is three times per day and 8 pills per time for adults.  
         [0039]     For the spray sprayed in the mouth, the dose is several times per day.  
         [0040]     The use method and effective dose of the drugs for treating H5N1 avian influenza or influenza virus or treating AIDS virus in this invention are same with above.  
         [0041]     According to the records in page 8 to page 9 of the Dictionary of Traditional Chinese drugs (first volume) (edited by the Jiangsu New College of Medicine), the  Solidago virgaurea  is a composite plant; its whole herb or the whole herb with root are usually used; it is bitter and cool taste. The whole herb  Solidago virgaurea  contains hydroxybenzene ingredient, tannin, volatile oil, saponin, and flavonoids, etc. Its main functions are mainly in dispelling wind and cleaning heat, subduing swelling and detoxication, treating cold and headache, sore throat, jaundice, pertussis, children infantile convulsion, traumatic injury, carbuncle on the back and tinea manuum. Moreover, it has obvious killing and inhibition functions on  staphylococcus aureus , pneumococcus,  pseudomonas aeruginosa  and  shigella flexneri  etc.  
         [0042]     The medical efficiency of  Solidago virgaurea  is in dispelling wind and cleaning heat, diminishing inflammation and detoxicating; its pharmacological functions can reach liver and gallbladder meridians with cool medical property.  
         [0043]     Glycyrrhiza can purge fire, detoxify and moisten lung to stop coughing; its pharmacological functions can reach all the twelve meridians; it has mild medical nature and can be in concordance with other drugs.  
         [0044]     The medical efficiency of honeysuckle is in cleaning heat and detoxicating, diminishing inflammation and alleviating pain; its pharmacology functions into lung, stomach and colorectal meridians; and cold medical property.  
         [0045]     The medical efficiency of radix isatidis is in cooling blood and clearing fire, diminishing inflammation and analgesia; its pharmacology functions into heart and lung meridians; and cold medical property.  
         [0046]     The combination of  Solidago virgaurea  and glycyrrhiza can regulate the medical property of  Solidago virgaurea  and enhance the adaptability.  
         [0047]     The compatibility of  Solidago virgaurea  with honeysuckle and radix isatidis can improve the attending efficiency and increase the broad-spectrum property.  
         [0048]     This inventor further provides experiments to prove the effect of  Solidago virgaurea  in the application of preparing drugs for treating and preventing H5N1 avian influenza or influenza virus.  
         [0049]     This inventor with decades of clinical experiences validates that the herbal stock solution not only has obvious killing and inhibition functions on H5N1 avian influenza or influenza virus, but also has very good variation resistance.  
         [0050]     This invented drug is used for treating and preventing H5N1 avian influenza or influenza virus, wherein the efficiency rate is above 90%.  
         [0051]     The following statistical reports of clinical observation in curative effect are used to further validate the effects of this invention.  
         [0052]     1. Clinical Data:  
         [0053]     Treating and preventing various types of influenza:  
         [0054]     1) Using  Solidago virgaurea  extract with concentration of 1:100 to treat 513 cases with influenza A, 2-4 times of oral administrations for patients, 300 ml per time for adults and about 20-300 ml for children according to their ages. Wherein, 399 cases were cured within one day, accounting for 77.8%; 92 cases were cured within two days, accounting for 17.9%; 22 cases were cured within three days, accounting for 4.3%. The total effective rate was 100%.  
         [0055]     2) Using  Solidago virgaurea  extract with concentration of 1:100 to treat 253 cases with influenza B, 2-4 times of oral administrations for patients, 300 ml per time for adults and about 20-300 ml for children according to the age. Wherein, 165 cases were cured within one day, accounting for 65.2%; 46 cases were cured within two days, accounting for 18.2%; 25 cases were cured within three days, accounting for 9.9%; 17 cases were inefficient, accounting for 6.7%. The total effective rate was 93.3%.  
         [0056]     3) Using  Solidago virgaurea  extract with concentration of 1:100 to treat 116 cases with influenza C, 2-4 times of oral administrations for patients, 300 ml per time for adults and about 20-300 ml for children according to the age. 51 cases were cured within one day, accounting for 44%; 27 cases were cured within two days, accounting for 23.3%; 28 cases were cured within three days, accounting for 24.1%; 10 cases were inefficient, accounting for 8.6%. The total effective rate was 91.4%.  
         [0057]     4) During the period of influenza, 1291 healthy persons took  Solidago virgaurea  extraction with the concentration of 1:100 to prevent the influenza virus infection, one time per day, 60-150 ml for adults and 20-80 ml for children. The results proved that the effective prevention rate was 100%.  
         [0058]     Treating undefined pneumonia: On December 2003 and September 2004, 2 cases with undefined pneumonia were cured using  Solidago virgaurea  extract with concentration of 1:100. The patients were both adults; they were the patients in ICU in Zhejiang Tongde Hospital and the First Affiliated Hospital of Zhejiang Medical University, respectively; they both had sustaining hyperpyrexia (above 39° C.) for more than seven days with rapid disease development, appearing pulmonary hemorrhage, pleural effusions, dyspnea and pulmonary signs of consolidation; SARS virus infection was excluded with laboratory RNA and PCR detections, however, virus could be extracted from tracheal exsuction materials of the patients; the chest image detected serious lung infusion, showing consolidation image of lungs with large ground-glass shape. Both hospitals sent “Notice of Critical Illness”. Under this condition, patient relatives asked for help via relations.  Solidago virgaurea  extract was used with the concentration of 1:100 to treat these two patients, 3-4 times per day, 300-500 ml per time and sequential administration for three days. The body temperature of the patients reduced to below 37.8° C. within two days with rapid spirit recovery; the life signs obviously became better, and then entered the pneumonia recovery period in the common sickroom. They left hospital after about 15 days with good prognosis.  
         [0059]     Treating and preventing H5N1 avian influenza: On 13 Jan. 2004, a large number of chicken died in the farm in Dongting village, Guangde county, Anhui province. Using the goldenrod extract with the concentration of 1:60 to cure 584 infected chickens from 16 January, 40-60 ml of oral dose for each chicken, adding another administration after two hours; feeding 242 healthy chicken respectively with the fine feedstuff mixed in a ratio of 1:4 with the goldenrod extract with the concentration of 1:100, and with the fine feedstuff mixed in a ratio of 1:10 with the goldenrod powder. According to the observation results after two hours, four hours, ten hours, 30 hours, 60 hours and five days, except 26 chicken died during initial administration period (within five minutes), other chicken all recovered with normal activities; the effective rate was above 95%; all healthy chicken were protected efficiently, and protection effective rate was up to 100%. The participating workers and chicken farm workers drank a cup of 300 ml  Solidago virgaurea  extract with the concentration of 1:100 to prevent virus infection, and they all retain health at the end of experiment (At the beginning of February, the National Disease Controlling Center determined that the epidemic broken out in Guangde country of Anhui was H5N1 highly pathogenic avian influenza).  
         [0060]     2. The diagnosis basis is GB 15994-1995 Diagnosis Criteria for Influenza and GB/T18936-2003 Diagnosis Technique for Highly Pathogenic Avian Influenza.  
         [0061]     3. The treatment methods: treating influenza: 10 g  Solidago virgaurea  is boiled in 1000 ml water for ten minutes, the obtained 900 ml herbal stock solution in this invention is taken by patients; 2-4 times per day, and 300 ml per time. Treating avian influenza with 10 g  Solidago virgaurea  plus 600 ml water, oral administration for 2-4 times per day, 40-60 ml per time.  
         [0062]     4. The evaluation standards for curative effect: 1) patients feel better: body temperature reduces to below 37.5° C., dry cough is alleviated, with smooth breath; Cure: body temperature changes to normal, dry cough disappears; pneumonia recovers well, with normal breath. 2) The spirits of ill avian get well, with normal activities.  
         [0063]     5. Curative effect observation: After the administration for three days, the spirit and mood of patients got better, with normal body temperature and well prognosis; finally the patients were cured. The ill avian had good spirits and appetites after five-day observation.  
         [0064]     6. Conclusion: using the herbal in this invention to treat and prevent H5N1 influenza or influenza virus, the effective rate is above 90%.  
         [0065]     This inventor further provides experiments to prove the effects of  Solidago virgaurea  in the application of preparing drugs for treating and preventing HIV virus.  
         [0066]     By the studies of inventor for several years and the validation of the laboratory in AIDS Research Center of Tropical Medicine Institute in Guangzhou University of TCM in China, the herbal stock solution in this invention had obvious HIV virus resistance.  
         [0067]     According to double-blind requirements, the invented herb is to mix  Solidago virgaurea  and water in the ratio of 1:120, and then to prepare two samples of HH2A (decoction for ten minutes) and HH2B (decoction for thirty minutes) with very low concentrations according to the decocting extraction concentration time; these two samples were sent to AIDS Research Center of Tropical Medicine Institute in Guangzhou University of TCM in China for the pharmacodynamics studies of AIDS virus strain called SIV virus.  
         [0068]     The test report of the Anti-AIDS virus strain SIV in vitro is shown as follows:  
         [0069]     Inspection Date: Mar. 24, 2006  
         [0070]     Reporting Date: May 25, 2006  
         [0071]     Delivery Unit: 17-3-1-601 in Caihe east region of Hangzhou city, Zhejiang province  
         [0072]     Delivery Specimens: medical solutions HH2A and HH2B.  
         [0073]     Delivery Objective: to detect the activity of the anti-SIVmac cuvette with the delivery medical solution specimens via SIVmac-CEM×174 system.  
         [0074]     I. Materials:  
         [0075]     1. The cell lines: CEM×174 is from USA Aarond Diamond AIDS Research Center, and is presented by Beijing Medical Laboratory Animal Institute.  
         [0076]     2. The virus strains: SIVmac is from USA Aarond Diamond AIDS Research Center, and is presented by Beijing Medical Laboratory Animal Institute.  
         [0077]     3. The cell culture fluid: PRMI1640 culture fluid containing 10% of calf serum.  
         [0078]     4. The pending detection samples: medical solutions HH2A and HH2B.  
         [0079]     5. The positive control drug: AZT produced by CALBIOCHEM, and is for the experiment use in specially.  
         [0080]     6. The rhesus monkey IgG fluorescence: produced by E.Y.  
         [0081]     7. The anti SIV monkey positive serum: the serum of the SIV infected monkeys in the recovery period.  
         [0082]     8. Others: 96-hole cell culture plate, and 24-hole cell culture plate.  
         [0083]     II. Experimental Methods:  
         [0084]     1. The toxicity experiment of the samples to be detected on CEM×174 cell lines:  
         [0085]     1) Dilution of the samples to be detected: on the basis of the original concentration of the samples to be detected, diluting the drug for 10 multiples using RPMI1640 culture fluid containing 10% of calf serum before the experiment.  
         [0086]     2) Toxicity determination of CEM×174 cells: The drugs were diluted with serial twice-dilution from the 1:10 diluted solution, those are 1:10, 1:20, 1:40, 1:80, 1:160, 1:320, 1:640 and 1:1280. The diluted samples to be detected were put into 96-hole cell culture plate, with 100 μl per hole. Add 3.0×10 5 /ml CEM×174 cells, with 100 ul per hole. Place them in the saturate incubator containing 5% CO 2  saturated humidity at 37° C. for culture, and then the results were observed after four days.  
         [0087]     3) The determination of the toxicity experiments results (See  FIG. 1 ).  
         [0088]     The toxicity determination basis: taking cell death and growth conditions as the determination basis, ++++, +++, ++, + and − represent as follows, respectively:  
         [0089]     ++++: The grown cells all died;  
         [0090]     +++: Most of the grown cells died and a few of them had temporary splitting;  
         [0091]     ++: The proliferated cells were about 50% less than cell control holes, wherein there were many dead cells;  
         [0092]     +: The proliferated cells were about 25% less than cell control holes;  
         [0093]     −: The cells grew well and had no obvious differences compared with the cell control holes.  
         [0094]     2. The formal experiment: done by 24-hole plate, and double holes for each item. The experiment is repeated for twice.  
         [0095]     (1) Diluting the drug using a series of nontoxic concentration, diluting the virus according to the experiment requirements, configuring the cells to be 3×10 5 /ml cell suspension, adding various reagents (drugs, virus, cells, culture fluids) to the holes by the listed order in  FIG. 2 , in addition setting AZT positive drug and SIV control hole. Putting in the saturate humidity incubator containing 5% CO 2  at the temperature of 37° C., changing the medical solution with original dilution once every three days, and determining the results when CPE in the SIV control hole appearing +++−++++ after six to seven days.  
         [0096]     (2) Firstly, observe CPE of the experimental plate: Culture the supernatant fluid to determine the titer of virus through serial twice-dilution, and calculate the descending amounts of the virus yield; wash the other cells with PBS, smear, and then calculate the fluorescence positive cell amounts by using the indirect immunofluorescence method.  
         [0097]     (3) The determination indexes for results:  
         [0098]     1)  
           T   ⁢   he     ⁢           ⁢   positive   ⁢           ⁢   cell   ⁢           ⁢   ratio   ⁢           ⁢   of   ⁢           ⁢   virus   ⁢           ⁢   antigens   ⁢           ⁢   %     =                   (         The   ⁢           ⁢   fluorescence   ⁢           ⁢   cells   ⁢           ⁢   in   ⁢           ⁢   the   ⁢           ⁢   virus   ⁢           ⁢   control   ⁢           ⁢   holes     ⁢           &amp;     -     The   ⁢           ⁢   fluorescent   ⁢           ⁢   cells   ⁢           ⁢   in   ⁢           ⁢   the   ⁢             ⁢             ⁢   drug   ⁢           ⁢   holes   ⁢           ⁢   %       )       (     The   ⁢           ⁢   fluorescent   ⁢           ⁢   cells   ⁢           ⁢   in   ⁢           ⁢   the   ⁢           ⁢   virus   ⁢           ⁢   control   ⁢           ⁢   holes   ⁢           ⁢   %     )               
 
         [0099]     2) Calculating the reduction of virus yield by log 10, and comparing the experimental holes and the virus control holes. If the virus tilter in the experimental holes reduced for one dilution, that is the virus yield reduced for 0.3 log 10, while if the experimental holes reducing for two dilutions, that is the virus yield reduced for 0.6 log 10, and others are analogized. For example: the virus tilter in the experimental holes is 1:320, the virus tilter in the virus control holes is 1:2560, then the virus yield in the experimental holes is determined to reduce for 0.9 log 10.  
         [0100]     3) Cytopathic effect (CPE): fusing cells, it is + with at most 25% per field; it is ++ with at most 50% per filed; it is ++ with at most 75% per filed; and it is ++++ with at most 75% per field.  
         [0101]     4) The result determination  
         [0102]     To determine by taking the inhibition rate of the fluorescence positive cells and the reduction of the virus yield as mutual references, while the CPE extent is just for reference.  
         [0103]     No inhibition: the inhibition rate of fluorescence positive cells is less than 30%, while the reduction of the virus yield is less than 0.6 log 10.  
         [0104]     Mild inhibition: the inhibition rate of fluorescence positive cells is at least 30%, while the reduction of the virus yield is at least 0.6 log 10.  
         [0105]     Moderate inhibition: the inhibition rate of fluorescence positive cells is at least 50%, while the reduction of the virus yield is at least 1.2 log 10.  
         [0106]     High inhibition: the inhibition rate of fluorescence positive cells is at least 60%, while the reduction of the virus yield is at least 2.1 log 10.  
         [0107]     III. Experimental Results (See  FIG. 3 .)  
         [0108]     Seen from the results in  FIG. 3 , the target sample HH2A had mild inhibition effect on SIV in vitro after forty time dilution, but it lost the anti-SIV effect when it was diluted four times to 1:160; HH2B with the concentration of 1:10 had mild toxicity effect on CEM×174 cells, also this concentration showed approximately moderate anti-SIV effect, but this medical solution could not bear the dilution, and lost anti-SIV effect when its concentration ratio was 1:40.  
         [0109]     Research Conclusions: Based on the experiments above, as long as the proportion of  Solidago virgaurea  and water was reduced from 1:120, or extraction method was changed using the presently most advanced supercritical CO 2  fluid extraction new technology for instance, then extractions with high concentrations were gained, reaching the ideal anti-AIDS virus effect satisfying the practice, thus realizing the objective to treat and prevent AIDS.  
       EXAMPLES  
       [0110]     The following examples are used to further explain this invention.  
       Example 1  
       [0111]     100 g  Solidago virgaurea  and 5,000 ml water were transferred into the extractor, after boiling for 10 minutes, 4,800 ml of the herbal stock solution was obtained. Oral liquids or decoction pieces could be prepared according to the conventional method after filtering and concentrating.  
       Example 2  
       [0112]     100 g  Solidago virgaurea  and 10,000 ml water were transferred into the extractor, after boiling for 25 minutes, 9,500 ml of the herbal stock solution was obtained. Oral liquids or decoction pieces could be prepared according to the conventional method after filtering and concentrating.  
       Example 3  
       [0113]     90 g  Solidago virgaurea,  10 g glycyrrhiza and 5,000 ml water were transferred into the extractor, after boiling for 30 minutes and filtering, 4400 ml of the herbal stock solution was obtained.  
       Example 4  
       [0114]     50 g  Solidago virgaurea,  25 g honeysuckle, 25 g radix isatidis and 5,000 ml water were transferred into the extractor, after boiling for 30 minutes and filtering, 4,400 ml of the herbal stock solution was obtained.  
       Example 5  
       [0115]     100 g  Solidago virgaurea  was used to prepare granules, capsules or decoction pieces in this invention after ultrafine milling according to the conventional method.  
       Example 6  
       [0116]     90 g  Solidago virgaurea  and 10 g glycyrrhiza were used to prepare granules, capsules or decoction pieces in this invention after ultrafine milling according to the conventional method.  
       Example 7  
       [0117]     50 g  Solidago virgaurea,  25 g honeysuckle and 25 g radix isatidis were used to prepare granules, capsules or decoction pieces in this invention after ultrafine milling according to the conventional method.  
       Example 8  
       [0118]     100 g  Solidago virgaurea  was used to prepare injections, granules, sprays, capsules or dropping pills in this invention after supercritical CO 2  fluid extraction according to the conventional method.  
       Example 9  
       [0119]     90 g  Solidago virgaurea  and 10 g glycyrrhiza were used to prepare injection, granules, sprays, capsules or dropping pills in this invention after supercritical CO 2  fluid extraction according to the conventional method.  
       Example 10  
       [0120]     50 g  Solidago virgaurea,  25 g honeysuckle and 25 g radix isatidis were used to prepare injection, granules, sprays, capsules or dropping pills in this invention after supercritical CO 2  fluid extraction according to the conventional method.