Claims
- 1. A method for identifying a composition of Cinnamomi and Poria comprising the steps of:
a) dissolving the composition of Cinnamomi and Poria with an appropriate aqueous solution mixed with an appropriate organic solvent; and b) performing gas chromatographic analysis using a HP-5 5% phenyl methyl siloxane capillary column.
- 2. A method f or identifying a composition of Cinnamomi and Poria comprising the steps of:
a) dissolving the composition of Cinnamomi and Poria with an aqueous solution; and b) separating the dissolved mater with an C 18 column under high pressure liquid chromatography.
- 3. A method for identifying a composition of Cinnamomi and Poria comprising:
a) extracting the composition of Cinnamomi and Poria by an appropriate organic solvent; b) using appropriate standard for liposoluble matter in the composition of Cinnamomi and Poria, as internal control; and c) performing high pressure liquid chromatography using a C18 column.
- 4. A composition of Cinnamomi and Poria comprising the product when subjected to the method of claim 1 produces 7 peaks as shown in FIG. 1.
- 5. A composition of Cinnamomi and Poria comprising the product that when subjected to method of claim 2 produces 13 peaks as shown in FIG. 2.
- 6. A composition comprising the product when subjected to method of claim 3 produces 7 peaks at 210 nm of detective wavelength as shown in FIG. 3.
- 7. A composition comprising the product when subjected to method of claim 3 produces 8 peaks at 242 nm of detective wavelength as shown in FIG. 4.
- 8. A composition comprising the product when subjected to the method of claim 1 produces a fingerprint as tabulated herein:
- 9. A composition comprising the product that when subjected to the method of claim 2 produces a fingerprint as tabulated herein:
- 10. A composition comprising the product that when subjected to the method of claim 3 at 210 nm of detective wavelength produces a fingerprint as tabulated herein:
- 11. A composition comprising the product that when subjected to the method of claim 3 at 242 nm of detective wavelength produces a fingerprint as tabulated herein:
- 12. A composition as in claim 4 and claim 8, wherein: the retention time (RT) ratios of the 7 peaks in comparison with cinnamaldehyde are 0.757, 1.275, 1.290, 1.449, 1.704, 2.146 and 3.061 respectively; the area ratios of peak 1 and peaks 3-7 in comparison with cinnamaldehyde are 1.183, 0.696, 5.565, 0.093, 0.164, 0.115 respectively; and the range of the retention time ratios of the 7 peaks in comparison with cinnamaldehyde are 0.770-0.745, 1.280-1.270, 1.295-1.285, 1.455-1.440, 1.710-1.700, 2.150-2.140 and 3.070-3.055 respectively; and the range of the area ratios of peak 1 and peaks 3-7 in comparison with cinnamaldehyde are 1.740˜0.690, 1.110˜0.350, 8.080˜3.460, 0.140˜0.060, 0.255˜0.080 and 0.160˜0.070 respectively.
- 13. A composition as in claim 5 and claim 9, wherein: the retention time (RT) ratios of the 13 peaks in comparison with paeoniflorin are 0.261, 0.349, 0.584, 0.915, 1.076, 1.118, 1.162, 1.196, 1.268, 1.312, 1.420, 2.107 and 2.389 respectively; the area ratios of the 13 peaks in comparison with paeoniflorin are 0.645, 0.103, 0.128, 0.212, 0.089, 0.046, 0.052, 0.083, 0.076, 0.211, 0.404, 0.149 and 0.981 respectively; and the range of the retention time ratios of the 13 peaks in comparison with paeoniflorin are 0.275-0.250, 0.360-0.340, 0.600-0.560, 0.920-0.910, 1.085-1.070, 1.125-1.110, 1.175-1.155, 1.210-1.180, 1.285-1.250, 1.330-1.295, 1.450-1.400, 2.170-2.060 and 2.465-2.340 respectively; and the range of the area ratios of the 13 peaks in comparison with paeoniflorin are 0.750-0.460, 0.160-0.070, 0.230-0.065, 0.250-0.170, 0.130-0.065, 0.060-0.035, 0.080-0.030, 0.105-0.055, 0.090-0.065, 0.255-0.140, 0.470-0.310, 0.195-0.130 and 1.475-0.680 respectively.
- 14. A composition as in claim 6 and claim 10, wherein: the retention time (RT) ratios of the 7 peaks at 210 nm of detective wavelength in comparison with pachymic acid are 0.367, 0.408, 0.897, 0.980, 1.019, 1.143 and 1.305 respectively; the area ratios of the 7 peaks in comparison with pachymic acid are 0.322, 0.580, 0.280, 0.752, 0.286, 4.650 and 0.959 respectively; and the range of the retention time ratios of the 7 peaks in comparison with pachymic acid are 0.375-0.355, 0.420-0.395, 0.905-0.890, 0.985-0.975, 1.025-1.015, 1.150-1.135 and 1.315-1.295 respectively; and the range of the area ratios of the 7 peaks in comparison with pachymic acid are 0.540-0.180, 0.900-0.410, 0.350-0.220, 0.940-0.600, 0.410-0.210, 5.950-2.900 and 1.450-0.575 respectively.
- 15. A composition as in claim 6 and claim 11, wherein: the retention time (RT) ratios of the 8 peaks at 242 nm of detective wavelength in comparison with polyporenic acid C are 0.520, 0.566, 0.686, 1.128, 1.557, 1.763, 2.133 and 3.033 respectively; the area ratios of the 8 peaks in comparison with polyporenic acid C are 0.155, 0.184, 1.385, 0.481, 0.181, 1.414, 0.630, and 0.463 respectively; and the range of the retention time ratios of the 8 peaks in comparison with polyporenic acid C are 0.530-0.510, 0.570-0.560, 0.690-0.680, 1.135-1.125, 1.585-1.525, 1.800-1.720, 2.190-2.070 and 3.105-2.950 respectively; and the range of the area ratios of the 8 peaks in comparison with polyporenic acid C are 0.185-0.120, 0.230-0.140, 1.950-0.900, 0.530-0.430, 0.240-0.150, 1.700-1.250, 0.840-0.480, 0.680-0.160 respectively.
- 16. A composition comprising:
a). 1.3-1.9% paeoniflorin; and b). 0.7-1.1% Paeonol.
- 17. The composition of claim 6 extracted from Ramulus Cinnamomi, Poria, Cortex Moutan, Radix Paeoniae Alba and Semen Persicae.
- 18. The composition of claim 7 wherein the Ramulus Cinnamomi, Poria, Cortex Moutan, Radix Paeoniae Alba and Semen Persicae are obtained from cultivated plants.
- 19. A method for obtaining a composition of Cinnamomi and Poria comprising steps of:
a) obtaining, pruning, washing and cutting the plant parts: stem of Cinnamomum cassia Presl (Fam. Lauraceae), fungus of Poria cocos (Schw.) Wolf (Fam. Polyporaceae), Root of Paeonia suffruticosa Andr. (Fam. Ranunculaceae). and fruit of Prunus persica (L.) Batsch or Prunus davidiana (Carr.) Franch. (Fam. Rosaceae); b) drying the said plants to form 5 medicinal materials: Ramulus Cinnamomi, Poria Cortex, Moutan Radicis, Radix Paeonize Alba and Semen Persicae; c) Smashing Ramulus Cinnamomi, Semen Persicae and Moutan Radicis into coarse powders and chopping Radix Paeonize Alba into slice; d) Sterilizing the Poria Cortex before granulating 50% of its formula weight into fine powder and filtering the powder; e) putting full amount of powder of Cortex Moutan through a process of hot reflux in water and collecting its distillate; (residue and fluid reserved) f) filtering and vacuum drying said distillate to obtain crude Paeonol; g) dissolving the curde paeonol into 95% alcohol; Slowly adding the solution into saturated water solution of β-cyclodextrin while agitating it at thermostatic 80° C. to form a mixture A; h) exhausted filtering mixture A; washing the residue with anhydrous alcohol and letting it dried, a clathrate A is obtained; i) distilling full amount of Ramulus Cinnamomi in water for four hours and collecting its volatile matter; (residue and fluid reserved) j) dissolving the volatile matter into 95% alcohol; slowly adding the solution into saturated water solution of β-cyclodextrin while agitating it at thermostatic 45° C. to form a mixture B; k) exhausted filtering mixture B; washing the residue with anhydrous alcohol and letting it dried, a clathrate B is obtained; l) mixing residues from step (f) and (j) with full amount of Radix Paeonize Alba, Semen Persicae, 50% of Poria Cortex and 90% alcohol; extracting the mixture, filtering the extract and recovering alcohol from the filtered extract; (residue reserved) m) adding water in residue from step (m), distilling it and filtering the water extract; n) mixing water extract from step (n), alcohol extract from step (m), fluid from step (f) and step (j); enriching the mixture to form a creamed extractive; o) mixing the creamed extractive with Poria Cortex powder from step (e); grinding the mixture into fine powder after vacuum drying it to form a granule; p) mixing the fine powder with some 60% alcohol and starch gum; Granulating the powder to 30 meshes; q) mixing certain amount of silicon dioxide with clathrate A from step (i) and clathrate B from step (l); and r) mixing the mixture from step (r) with the granule from step (p) to obtain a final granule—the composition of Cinnamomi and Poria.
- 20. A method for obtaining a composition of Cinnamomi and Poria composition as in claim 19 further comprising the steps of:
I. in step (e) filtering the powder with a 100 meshes sift; II. in step (f) soaking Cortex Moutan in water for four hours before distillation; III. in step (g) vacuum drying the distillate at below 55° C. and the concentration of crude paeonol should be no less than 80%; IV. in step (i) and (l) continuously agitating the mixtures at thermostatic 80° C. (mixture A) and 45° C. (mixture B) for another 3 hours and storing it for 24 hours in a refrigerator before it is filtered; drying the clathrates to less than 2% moisture; V. in step (j) soaking Ramulus Cinnamomi in water for six hours before distillation and testing the presence of cinnamaldegyde in the volatile matter; VI. in step (m) extracting the mixture twice for two hours each in 3 times weight of residues and medicinal materials of 90% alcohol; VII. in step (n) distilling the residue from step (m) twice for two hours each in 4 times weight of the residues of water; VIII. in step (o) enriching the mixture in vacuum at temperature below 55° C. to a relative density of no less than 1.27 (75-80° C.); IX. in step (p) vacuum drying the powder at below 55° C.; X. in step (q) vacuum drying the powder at below 55° C.; XI. in step (r) mixing the clathrates, with silicon dioxide in a high performance mixer; and XII. mass balance in formula and above-mentioned respective steps should be at ±5%.
- 21. The method of claim 19, wherein the creamed extractive from step (o) is no less than 1.27 in relative density; component of paeoniflorin is 1.8%-2.7%; and limit of heavy metal is 5 ppm.
- 22. The method of claim 19, wherein the fine powder from step (p) is no more than 5.0% in moisture; component of paeoniflorin is 1.4%-2.2%; and limit of heavy metal is 5 ppm.
- 23. The method of claim 19, wherein the clathrates is no more than 2.0% in moisture; Paeonol and cinnamaldehyde tests are positive; and limit of heavy metal is 5 ppm.
- 24. The method of claim 19, wherein the final granule from step (s) is no more than 4.0% in moisture; cinnamaldehyde tests is positive; component of paeoniflorin is 1.3%-1.9%; component of Paeonol is 0.7%-1.1%; and limit of heavy metal is 10 ppm.
- 25. The composition comprising the product produced by the method of claim 19, 20, 21, 22, 23 or 24.
- 26. A method for determination of total paeoniflorin and total paeonol in a Cinnamomi and Poria composition comprising steps of:
a) preparing the assay comprising the steps of:
I. accurately weighing a suitable amount of standard paeoniflorin; dissolving it in chromatographically pure methanol to form a standard solution containing 0.9 mg. of standard paeoniflorin per 1 ml; II. dilute said standard solution of paeoniflorin to 18.0 μg./ml standard solution before using; III. accurately weighing a suitable amount of standard paeonol; dissolving it in chromatographically pure methanol to form a standard solution containing 0.3 mg. of standard paeonol per 1 ml; IV. dilute said standard solution of paeonol to 6.0 μg./ml standard solution before using; V. accurately weighing approximately 0.5 g. of granular of Cinnamomi and Poria composition; and dissolving it with 20 ml. water to form a water solution; VI. putting said solution in ultrasound for 10 minutes for dispersing; VII. extracting the solution in a separating funnel with 30 ml. analytical pure chloroform each time for 5 times; obtaining a solution A by combining the extracts; VIII. distilling solution A on a water bath of 70° C. to a suitable volume; mixing it with analytically pure chloroform to a constant volume of 50 ml in a measuring flask; VII. accurately sucking 5 ml. of the 50 ml. solution from step (VI); mixing it with analytically pure chloroform to a constant volume of 50 ml; and filtrating the diluted solution with 0.45 μm. filtration membrane to obtain a sample solution I; VIII. extracting the water solution left from step (V) with analytical pure water saturated n-butanol 30 ml. each time for 5 times; combining the extracts; IX. mixing the combination from step (VIII) with analytical pure water saturated n-butanol to a constant volume of 200 ml in a measuring flask to obtain solution B; IX. distilling to dry 50 ml solution B on a water bath; dissolving the residue with chromatographically pure methanol to a constant volume of 25 ml in a measuring flask; and X. accurately sucking 5 ml. of the 25 ml. solution from step (IX); mixing it with chromatographically pure methanol to a constant volume of 25 ml; filtrating the diluted solution with 0.45 μm. filtration membrane to obtain sample solution II. b) using methanol solution of paeoniflorin (18.0 μg/ml) and methanol solution of paeonol (6.0 μg/ml) obtained from steps (II) and (IV) as the standard solutions; and c) performing HPLC assay under following conditions:
I. spectrum column: ALLtech-426 C18 5 μm., 4.6×250 mm; II. detector: ALLtech UVIS-201; pump: ALLtech-426 HPLC pump; injection valve: 7725i with 10 μl volume; III. column temperature: room temperature; flow rate 1 ml/min; IV. injection volume: 10 μl; V. detective wavelength: 230 nm (paeoniflorin) and 274 (paeonol); VI. mobile phase: methanol-water 35:65 (paeoniflorin) 60:40 (paeonol); and VII. number of theoretical plates: base on peak of paeoniflorin, the number of theoretical plates should be no less than 5000; base on peak of paeonol, the number of theoretical plates should be no less than 1500. d). performing HPLC assay with following steps:
I. injecting 10 μl. sample solution I (for paeonol) or sample solution II (for paeoniflorin) into HPLC to perform chromatography under given circumstance; and II. measuring area of the peaks to calculate the relative components of paeoniflorin and paeonol in the Cinnamomi and Poria composition.
- 27. The method of claim 26, wherein paeoniflorin is used as the standard to determine the amount of paeoniflorin in a Cinnamomi and Poria composition.
- 28. The method of claim 26, wherein paeonol is used as the standard to determine the amount of paeonol in a Cinnamomi and Poria composition.
- 29. A pharmaceutical composition comprising an effective amount of the composition of claims 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17 or 18 and a pharmaceutically acceptable carrier.
- 30. The formulation of claim 29, wherein the formulation is a pill, capsule, granule, tablet, suspension, injection, syrup, or tincture.
- 31. A method for relaxing the smooth muscles of excessively contracting uterine in a subject by directly inhibiting the contraction frequency, range and overall activity of the smooth muscles of uterine comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 32. A method for reducing the whole blood viscosity in a subject by inhibiting the agglutination of the blood platelet and inhibiting the release of blood platelet comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 33. A method for regulating inflammatory functions in a subject by inhibiting the inflammatory reactions of various kinds comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 34. A method for inducing an analgesic effects onto pains of various kinds in a subject comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 35. A method for treating primary and secondary dysmenorrhea of various kinds of degrees in a subject comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 36. A method for alleviating clinical symptoms in a subject suffering from primary and secondary dysmenorrhea of various kinds comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 37. A method for treating dysfunctional uterine bleeding caused by irregular shedding of uterine endometrim in a subject comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 38. A method for alleviating clinical symptoms in a subject suffering from dysfunctional uterine bleeding caused by irregular shedding of uterine endometrim comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 39. A method for treating chronic pelvic inflammations and inflammatory lower abdomen masses in a subject comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 40. A method for alleviating clinical symptoms in a subject suffering from chronic pelvic inflammations and inflammatory lower abdomen masses comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 41. A method for treating small intramural hysteromyoma in a subject comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 42. A method for alleviating clinical symptoms in a subject suffering from small intramural hysteromyoma comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 43. A method for alleviating the symptoms of Profuse or prolonged menstruation, excess of blood clots during menstrual period, vague pain, distending pain at lower abdomen and lower lumber, large amount of leulorrhea, heavy and distending anus or anemia in a subject suffering from dysfunctional uterine bleeding, primary and secondary dysmenorrhea, chronic pelvic inflammations, inflammatory lower abdomen masses or small intramural hysteromyoma comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 44. A method for improving abnormal indexes in blood rheology in a subject comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 45. A method for decreasing dim purpuric spots in tongue in a subject comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 46. A method for improving faint wrist pulse in a subject comprising administering to the subject an effective amount of the pharmaceutical composition of claim 29.
- 47. A pharmaceutical composition for treating gynecological blood stasis, cardio-cerebral vascular diseases, respiratory system and urinary system diseases comprising the following materials in weight proportion:
- 48. A method for obtaining a composition comprising: distilling a required amount of Cortex Moutan with water through a process of hot reflux and collecting its distillate, filtering and drying said distillate after its cooling down to obtain crude Paeonol; mixing the residues with required amount of Ramulus Cinnamomi, Radix Paeonize Alba, Semen Persicae and 50% of Poria Cortex, adding alcohol to the mixture and extract, extracting the mixture, filtering the extract to obtain an alcohol extract; adding water to residue from the alcohol extraction, extracting and filtering it to obtain a water extract; Mixing the alcohol extract, water extract and solution from distilling of Cortex Moutan, enriching the mixture to a creamed extract; and granulating the rest 50% of Poria Cortex into fine powder, mixing the fine powder with the creamed extract, granulating the mixture after vacuum drying, mixing the granule with crude Paeonol; and filling the mixture in to capsules to form the product.
- 49. The composition of claim 47, wherein the composition is featured as 3 times weight of 90% alcohol for the alcohol added in the mixture and 4 times weight of water for the water added in the mixture.
- 50. The composition of claim 49, wherein the alcohol extraction is 2 hours each time and the water extraction is 2 hours each time.
- 51. The composition comprising the product produced by the method of claim 47, 48, 49 or 50 for treating diseases of gynecological blood stasis.
- 52. The indication of claim 51, whereas the method of producing drug for treating diseases of gynecological blood stasis is the method of producing drug for treating hysteromyoma.
- 53. The indication of claim 51, whereas the method of producing drug for treating diseases of gynecological blood stasis is the method of producing drug for treating pelvic inflammations.
- 54. The indication of claim 51, whereas the method of producing drug for treating diseases of gynecological blood stasis is the method of producing drug for treating dysmenorrhea.
- 55. The indication of claim 51, whereas the method of producing drug for treating diseases of gynecological blood stasis is the method of producing drug for treating irregular menstruation.
- 56. The indication of claim 51, whereas the method of producing drug for treating diseases of gynecological blood stasis is the method of producing drug for treating bleeding diseases of women.
- 57. The composition comprising the product produced by the method of claim 47, 48, 49 or 50 for treating diseases of cardio-cerebral vascular diseases.
- 58. The indication of claim 57, whereas the method of producing drug for treating cardio-cerebral vascular diseases is the method of producing drug for treating hypertension.
- 59. The indication of claim 57, whereas the method of producing drug for treating cardio-cerebral vascular diseases is the method of producing drug for treating heart diseases.
- 60. The composition comprising the product produced by the method of claim 47, 48, 49 or 50 for treating diseases of respiratory system diseases.
- 61. The composition comprising the product produced by the method of claim 47, 48, 49 or 50 for treating diseases of urinary system diseases.
Parent Case Info
[0001] This application is a Continuation-In-Part application of Patent Cooperation Treaty Application No. PCT/CN00/00273, filed Sep. 13, 2000, the content of which is incorporated herein to this application by reference.
Continuations (1)
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Number |
Date |
Country |
Parent |
09951070 |
Sep 2001 |
US |
Child |
10403187 |
Mar 2003 |
US |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
PCT/CN00/00273 |
Sep 2000 |
US |
Child |
09951070 |
Sep 2001 |
US |