微胶囊技术用于芦荟多糖分离的研究
|
摘要
芦荟多糖是芦荟主要活性成分,具有抗肿瘤、抗辐射、提高机体免疫力等功效。目前芦荟多糖提取仍然是以传统的水提醇沉法为主,这成为制约芦荟产业发展的“瓶颈”。本研究根据芦荟多糖和芦荟蒽醌类化合物分子大小的差异,利用微胶囊半透膜性质将芦荟多糖和芦荟蒽醌类化合物分离,从而将芦荟活性多糖提取在微胶囊内,最大程度的保持芦荟多糖的生物活性。研究内容主要包括微胶囊模型的建立和将所建立模型应用于芦荟多糖分离。
1.从蕃拉芦荟中提取了芦荟粗多糖(包含芦荟蒽甙),作为微胶囊模型建立时的模型药物。成功制各出表面光滑、球性好、尺寸分布均匀的海藻酸钙微胶囊。
2.研究了海藻酸钠浓度、氯化钙浓度、固化时间三个因素对海藻酸钙微胶囊分离芦荟多糖的影响。结果显示:在海藻酸钠浓度>2%,氯化钙浓度>1.5%,固化时间>30分钟时,芦荟蒽甙的渗出率达到95%以上,而芦荟多糖的渗出率在20%以下。所得海藻酸钙微胶囊在经过蒸馏水浸泡24小时后,芦荟蒽甙虽完全渗出,但芦荟多糖的渗出率也较大。因此在海藻酸钙凝胶珠基础上又制备了ACA微胶囊。比较了ACA微胶囊和海藻酸钙微胶囊在经过24小时浸泡后芦荟多糖的渗出率。结果表明:海藻酸钙凝胶珠在经过复膜制成ACA微胶囊后,其芦荟多糖的渗出率有显著的降低。故在海藻酸钠浓度介于2~3%,氯化钙浓度介于1.5~2%,固化时间>30分钟时所制备的海藻酸钙凝胶珠可以用于芦荟多糖的分离,进一步制成ACA微胶囊以降低芦荟多糖渗出率。
3.将所建立的模型应用于新鲜芦荟多糖分离。经测定,芦荟多糖的渗出率为10.7%。因此,本研究建立的模型可以用于芦荟多糖的分离,为芦荟深加工提供了理论基础和技术措施。
Aloe, a member of the lily(liliaceae) family, has been used medicinally for thousands of years. Aloe polysaccharides are the subjective ingredient of aloe. Aloe polysaccharide have immune boosting, antitumour, anti-radiation properties. It limits the development of aloe industry that aloe polysaccharides extract by traditional method. In this study, we utilize microcapsule technology to extract aloe polysaccharide. Aloe polysaccharide can be wrapped in the microcapsule because of the difference in molecule size between aloe polysaccharides and aloe lectins. The experiment includes establishing technical pattern of microcapsule and utilizing it to extract polysaccharides from aloe juice.
Firstly, aloe polysaccharides and aloe lectins are extracted from aloe which be used as a model product. Small size narrow distribution gel beads with a smooth surface and good sphericity were successfully obtained
Secondly, the factors in experiment such as alginate, calcium and time were studied. Results showed aloe lectins infiltrate over 95% and aloe polysaccharides infiltrate below 20% when alginate is greater than 2%, calcium is greater than 1.5% and time is greater than 30 minute. Aloe polysaccharides infiltrate a lot when calcium alginate microcapsule immersed over 24 hours. Therefore, we make alginate-chitosan-alginate(ACA)microcapsule and compare aloe polysaccharides and aloe lectins infiltration when calcium alginate and ACA microcapsule immersed over 24 hours. Results showed that aloe polysaccharides and aloe lectins infiltration decreased with ACA microcapsule . Calcium alginate microcapsule may extract aloe polysaccharides when alginate at 2-3%, calcium at 1.5-2% and time is greater than 30 minutes. ACA microcapsule can slow aloe polysaccharides infiltration.
Lastly, microcapsule model were applied for extracting aloe polysaccharides from aloe juice. The aloe polysaccharides infiltrate at 10.7%. Therefore, the microcapsule model can applied for aloe polysaccharides extraction.
1.从蕃拉芦荟中提取了芦荟粗多糖(包含芦荟蒽甙),作为微胶囊模型建立时的模型药物。成功制各出表面光滑、球性好、尺寸分布均匀的海藻酸钙微胶囊。
2.研究了海藻酸钠浓度、氯化钙浓度、固化时间三个因素对海藻酸钙微胶囊分离芦荟多糖的影响。结果显示:在海藻酸钠浓度>2%,氯化钙浓度>1.5%,固化时间>30分钟时,芦荟蒽甙的渗出率达到95%以上,而芦荟多糖的渗出率在20%以下。所得海藻酸钙微胶囊在经过蒸馏水浸泡24小时后,芦荟蒽甙虽完全渗出,但芦荟多糖的渗出率也较大。因此在海藻酸钙凝胶珠基础上又制备了ACA微胶囊。比较了ACA微胶囊和海藻酸钙微胶囊在经过24小时浸泡后芦荟多糖的渗出率。结果表明:海藻酸钙凝胶珠在经过复膜制成ACA微胶囊后,其芦荟多糖的渗出率有显著的降低。故在海藻酸钠浓度介于2~3%,氯化钙浓度介于1.5~2%,固化时间>30分钟时所制备的海藻酸钙凝胶珠可以用于芦荟多糖的分离,进一步制成ACA微胶囊以降低芦荟多糖渗出率。
3.将所建立的模型应用于新鲜芦荟多糖分离。经测定,芦荟多糖的渗出率为10.7%。因此,本研究建立的模型可以用于芦荟多糖的分离,为芦荟深加工提供了理论基础和技术措施。
Aloe, a member of the lily(liliaceae) family, has been used medicinally for thousands of years. Aloe polysaccharides are the subjective ingredient of aloe. Aloe polysaccharide have immune boosting, antitumour, anti-radiation properties. It limits the development of aloe industry that aloe polysaccharides extract by traditional method. In this study, we utilize microcapsule technology to extract aloe polysaccharide. Aloe polysaccharide can be wrapped in the microcapsule because of the difference in molecule size between aloe polysaccharides and aloe lectins. The experiment includes establishing technical pattern of microcapsule and utilizing it to extract polysaccharides from aloe juice.
Firstly, aloe polysaccharides and aloe lectins are extracted from aloe which be used as a model product. Small size narrow distribution gel beads with a smooth surface and good sphericity were successfully obtained
Secondly, the factors in experiment such as alginate, calcium and time were studied. Results showed aloe lectins infiltrate over 95% and aloe polysaccharides infiltrate below 20% when alginate is greater than 2%, calcium is greater than 1.5% and time is greater than 30 minute. Aloe polysaccharides infiltrate a lot when calcium alginate microcapsule immersed over 24 hours. Therefore, we make alginate-chitosan-alginate(ACA)microcapsule and compare aloe polysaccharides and aloe lectins infiltration when calcium alginate and ACA microcapsule immersed over 24 hours. Results showed that aloe polysaccharides and aloe lectins infiltration decreased with ACA microcapsule . Calcium alginate microcapsule may extract aloe polysaccharides when alginate at 2-3%, calcium at 1.5-2% and time is greater than 30 minutes. ACA microcapsule can slow aloe polysaccharides infiltration.
Lastly, microcapsule model were applied for extracting aloe polysaccharides from aloe juice. The aloe polysaccharides infiltrate at 10.7%. Therefore, the microcapsule model can applied for aloe polysaccharides extraction.
引文
Artur Bartkowiak,DavidHunkeler. Alginate2oligochitosan microcapsul Ⅱ:Control of mechanical resistance and permeability of the membrane[J].Chem Mater,2000,12:206-212
Bhesh R Bhandari, Bruce R D' Arcy, Indra Padukka. Encapsulation of lemon oil by paste method using (-cyclodextrin:Encapsulation efficiency and profile of oil volatiles[J]. J Agric Food Chem, 1999,47:5194-5197
Chol H J, Lee Y H, Kim C A. Microencapsulated polyaniline particais for electroeological materials[J].J Mater Sci Lett,2000,19:533-535
Daly M M, Keown R, Knorr D W. Preparation of capsules from chitosan and alginic acid esters for increased wall permeability[P].US Patent 480-707,1989
Denuziere A, Ferrier D, Domard A. Physicochemical and biological aspects of the interactions between chitosan and GAG'S[J]. Carbohydr Polym ,1996,29:317-321
Egger S,Brown G Set al.Hematopoietic augmentation by a beta-(1,4) -linked mannan[J].Cancer Immunology Immunotherapy, 1996,43:195-205
Farhad R, Claudine A, A njaneyaluY V. Structural studies of the D2glucomanan iso lated from AIoe vahombe. Carbohyd.Res. 1983,116:166
Finch C A. Polymers for microcapsule wall[J].1985,22:752-756
Gombotz Wayne R, Healy Michael S, Brown Larry R. Very low temperature casting of controlled release microspheres[P].WO Patent13780,1990
Gowda, C.,B.Neelisiddaiah,and J.V.Anjaneyalu, 1987:Structural studies of polusaccharides from. Aloevera. Carbohyd Res.72:201-205
Harnisavljevec-Jakovljevic.M.and J. Miljkovic-Stojanovic,1981: Structural study of anacidichydrolysis.Glas. Hem.Drus Belgrad,46(4):269-273
Harnisavljevic2Jakovljevic M. and J. M iljkovic2Sto janovic. Structural study of an acidic polysaccharide iso lated from Aloe arbo rescens M ill. I. Periodate oxidation and partial acid hydro lysis. Glas. Hem. D rus. Belgrad, 1981, 46(4):269
Hong K, Park S. Melamine resin microcapsules containing fragrant oil: synthesis and characterization[J].Mater Chemy Phys, 1999,58:128-131
Hunkeler.Polymers for bioartificial organs[J].Trends Polym Sci,1997,5(9):286-293
Imanishi K,Suzuki I.Induction of nonspecific cellmediated cytotoxic reactivity from non-immune spleen cells treated with Aloctin A[J].Internaitonal Journal of Immunopharmacology,1986,(8):781-787
Karaca K,Sharma J M et al. Nitric oxide production by chicken macrophages activated by acemannan,acomplex carbohydrate extracted from Aloe vera[J].International Journal off mmunopharmacology, 1995,17:18-188
Latyshey V N. Naumov A G.. Chirkin S A. Mechaniams releasing coolant lubricants from microcapsule during friction between metailic surfaces[J]. Trenie Iznos, 1999,20(4):433-438
Linna Z,Ian R T.Activation of a mouse macrophagecell line by acemannan:The major carbohydrate fraction from Aloe vera gel[J].Immunopharmacology, 1996,35:119-128
Mandal C.and Amalendu DAS,1980: Struscure of the D-galactani solated from AloebarbandensisMiller.Carbohyd.Res manishi K Aloctin A.An active substance of Aloe arborescens Miller as an immunomodulator[J].Phytotherapy Research, 1993,(7):S20-S22
Matthew H W, Salley S O, Peterson W D, et al. Complex coacerrate microcapsules for mammalian cell culture and artificial organ development [J]. Biotechnol Prog,1993, 9:510-519
McAnalley B H,McDaniel H R.Demonstration of in viro antiviral action of acemannan(ACE-M)against multiple viruses including the HIV virus.Proceedings of the Ⅳ International Conference on AIDS,1988.158
McDaniel H R.A clinical pilot study using Carnsyn (Aloe vera concentrate) treatment of AIDS patients [J].American Journal of Clinical Pathology,1987,88:68-72
Michel P, Pignon T et al.Prospective study of the immunomodulator properties of i.m.administered 'ALVA' extract in patients with solid tumors under a course of chemical immunosuppressive therapy[J].Archives Institut Pasteur Madagascar, 1989,56:253-259
Nixon J P.Prepatation of microcapsule with possible pharmaceutical use[J]. Endeavour, 1985,9(3):123-128
Pugh N,Ross S A et al.Characterization of Aloeride,a new high-molecular-weight polysaccharide from Aloe vera with potent immunostimulatory[J].Journal of Agriculture and Food Chemistry,2001,49:1030-1034
Pulse T L, Uhig E.A significant improvement in a clinical pilot study utilizing nutritional supplements,essential fatty acids and stabilized Aloe vera juice in 29 HIV seropositive, ARC and AIDS patients[J].Journal of Advancement in Medicine, 1990,(3):209-230
Q iu z H, Ken J, M ark W, et al. Modified A Ioe barbad ensis po lysaccharide with immuno regulatory activity [J]1P lanta Med,2000,60(2): 1522-1561
Ramamoorthy L,Kemp M C et al.Acemannan,a-(1,4)-acylated mannan, induces nitrc oxide production in macrophage cell line RAW264.7[J]. Molecular Pharmacology, 1996,50:878-884
Sa2Won Lee, Moon2Hee Kim, Chong2Kook Kim. Encapsulation of ethanol by spray drying technique :Effects of sodium lauryl sulfate [J].Int J Pharm ,1999,187:193-198
Saito H.Purification of active substances of Aloe arborescens Miller and their biological and pharmacological activity[J]. Phytotherapy Research, 1993,(7): 14-19
Shwu Jen Chang, Chen Hsen Lee, Yng Jin Wang. Microcapsules prepared from alginate and a photosensitive poly(L 21ysine)[J].J Bio2 mater Sci Polym Edn, 1999,10(5): 531-542
Strickland F M,Pellley R P et al.Prevention of ultraviolet radiation-induced suppression of contact and delayed hypersensitivity by Aloe barbadensis gel extract[J].Journal of Investigative Dermatology, 1994, 102(2):197-204
t'Hart L A,van Enckevort P Het al.Two functionally and chemically distinct immunomodulatory compounds in the gel of Aloe vera[J].Journal of Ethno-pharmacology, 1988,23:61-71
Thies C. Microcapsulation[J].Encyclopedia of Polyni Sci&Engng. 1987,9:724-725
Winters W D.Immunoreactive lectins in leaf gel from Aloe barbadensisMiller[J].PhytotherapyResearch, 1993,(7):S23-S25
Yagi,A.K.Makino, I.Nishioka and Y, Kuchino, 1997:Aloe mannan, Polysaccharides from
Aloe arbore-scens Planta.Med.31:17-20
Yates K M,Rosenberg C K et al.Pilot study of the effect of acemannan in cats infected with feline immunodeficiency virus[J].Veterinary Immunology and Immunopathology, 1992,35(1):177-189
Yoshioka T, Hirano Y, Shioya T, et al. Encapsulation of mammalian cell with chitosan2CMC capsule[J]. Biotechnol Bioeng,1990,35:66
董彩婷,杨青,肖元梅等.芦荟多糖抗突变作用的试验研究.华西医大学报,2002,33(3):477-478
方承志,张曼琳.鱼油微胶囊食品的开发与研究.广西轻工业,1998,(4):27-30
付颖丽,雄鹰等.海藻酸钠/壳聚糖微胶囊固定化大肠杆菌的研究.生物工程学报,2002,18(2):239-241
高丽娟.芦荟多糖的含量测定.化学世界,2003,44(1):19-20
高一翔.中国芦荟凝胶多糖的研究.北京联合大学学报,1993,7(1):7-10
宫朋,王富辉,杨长树。木立芦荟粗多糖对免疫功能的影响.人参研究,2000,2:28-29
关雄泰,陈日炎.中国芦荟胶的提取工艺.热带作物研究,1993,1:43-44
郭胜伟,蔡宝昌.分光光度法2比色法对芦荟乙醇提取液脱苦前后总蒽醌含量比较的研究.南京中医药大学学报(自然科学版),2000,16(4):221-222
何东保,石毅等.壳聚糖—海藻酸钠协同相互作用及其凝胶化的研究.武汉大学学报:理学版,2002,48(2):193-196
黄仁杰.海藻酸钙凝胶小球的含昔测定及溶出考察.海峡药学,2002,14(3):29-31
黄韶奋.芦荟的起源、分布、生物特性及其他。热带作物科技。1987,(6):23-26
贾绍华等.芦荟多糖对S180小鼠红细胞免疫功能的影响.哈尔滨商业大学学报,2002,18(6):608-610
贾绍华,张秀娟等.库拉索芦荟多糖对S_(180)小鼠红细胞膜脂流动性的影响.哈尔滨商业大学学报(自然科学版),2002,18(5):499-501
焦玉英,王环.芦荟多糖及其测定.食品研究与开发,1997,18(41:42-45
李保国,华泽钊等.高压静电场制备微胶囊的研究.上海理工大学学报,2000,22(3):189-193
李沙,汤小东等.阿霉素海藻酸钠—壳聚糖微囊的释药及其体内外抗癌作用.中华
临床医学杂志(北京),2003,4(9):1-5
李沙,李馨儒等.海藻酸钠—壳聚糖微囊的制备及载药性质的研究.中华临床医药杂志,2002,3(14):1-3
李云政,秦海元.国内外芦荟应用研究进展.化工进展,2000,19(2):19-22
林新.浅谈芦荟药品的开发.福建林业科技,1999,26(3):195-201
刘群,薛伟明等.海藻酸钠.壳聚糖微胶囊膜强度的研究.高等学校化学学报,2002,23(7):1417-1420
马萍,祝力等.海藻酸钙凝胶微丸作为口服缓释给药载体的研究.沈阳药科大学学报,2001,18f61:406-408
马萍,孙淑英.一种薪的缓释载体-海藻酸钙凝胶小球的研究概况.国外医药.合成药,生化药,制剂分册,1998,19(3):190-192
倪同汗.日用化学工业,1997(2):33-39
彭海生,张秀娟,贾绍华.芦荟多糖对荷瘤小鼠肿瘤细胞钠泵的影响.哈尔滨商业大学学报,2003,19(1):6-8
舒晓正,朱康杰.壳聚糖.海藻酸钠微囊对蛋白质控制释放的研究.功能高分子学报,1999,12(4):423-426,430
宋健,陈磊,李效军等编著.微胶囊化技术及应用[M],化学工业出版社,2001
孙达远,郭茂祥,罗艺.芦荟冷冻粉中多糖利甙的纯化、分离和鉴定.海南大学学报自然科学版,2002,20(2):116-119
孙多先 陈益清 吕景辉 王强 刘珺.海藻酸—壳聚糖—海藻酸离子取代凝胶离子的取代性能.分析化学,2003,31(6).739-741
孙乾,曲绍春,于晓风等.术立芦荟粗多糖的抗衰老作用的研究.人参研究,2001,13(2):34-36
汪建明,周红刚,倪君献.芦荟多糖制取方法的初步研究.食品研究与开发,2002,23(3):21-24
王俊玲,张丽芳等.芦荟多糖的提取及总糖含量的测定.海峡药学,2002,14(5):67-69
王莉,包旭,陈淑杰,杜俊蓉,朱玲等.巴巴多斯芦荟多糖提取物对小鼠免疫功能的影响.华西药学杂志,1999,14(4):234—235
王莉,包旭,岑小波,蔡绍晖,长谷川高明.巴巴多斯芦荟多糖对内毒素化大鼠和正常高龄大鼠血清及肝组织过氧化脂质的影响.华西药学杂志,2002,17(1):
21—22
王青华,秦海元等.分光光度法测定芦荟活性多糖.昆明理工大学学报,2002,27(2):21-23
王蜀秀,温远影,王雷等,芦荟多糖的研究.植物学报,1989,31(5):389-392
王显伦.锐孔法制各微胶囊技术研究.郊州粮食学院学报,1995,016(004):21-26
王勇,解玉冰.壳聚糖/海藻酸钠生物微胶囊的研究进展.生物工程进展,1999,19(2):13-16
王宗伟,黄兆胜.芦荟多糖对小鼠放射损伤的防护作用研究.广州食品工业科技,2002,18:23—25
吴彩娥,闫师杰等.锐孔法制作核桃油微胶囊的研究.食品工业科技,2002,23(2):18-20
吴广枫,汤坚.芦荟多糖制备方法的研究.食品与发酵工业,2002,28(6):57-60
吴广枫,汤坚.芦荟多糖的纯化与体外抗氧化活性的研究.食品科学,2002,9:129—132
肖崇厚.中药化学,上海科学技术出版社出版,1999
许强,刘汉灵,王孝英.木瓜蛋白酶微胶囊特性的研究[J].广西化工,1999,28(3):15-17
杨继远,袁仲芦荟化学成分的保健功效与产品开发.农牧产品开发,2001,4:6-8
张河哲,吴子生等.利用海藻酸钙胶囊提取醋酸.高等学校化学学报,1992,13(10):1307-1309
张可达,徐冬梅等.微胶囊化方法.功能高分子学报,2001,14(4):474-480
张惟杰.糖复合物生化研究技术,浙江大学出版社1994
赵寿经.芦荟的国内外应用现状及开发前景.特产研究.2000,22(2):56-59
钟正贤,周桂芬.芦荟多糖对实验性胃溃疡作用的初步观察.中草药,1995,26(2):83-85
周菊萍,陈军.逐瘀扶正胶囊中蒽醌类成分的含量测定.江苏药学与临床研究,2002,10(4):29-30
Bhesh R Bhandari, Bruce R D' Arcy, Indra Padukka. Encapsulation of lemon oil by paste method using (-cyclodextrin:Encapsulation efficiency and profile of oil volatiles[J]. J Agric Food Chem, 1999,47:5194-5197
Chol H J, Lee Y H, Kim C A. Microencapsulated polyaniline particais for electroeological materials[J].J Mater Sci Lett,2000,19:533-535
Daly M M, Keown R, Knorr D W. Preparation of capsules from chitosan and alginic acid esters for increased wall permeability[P].US Patent 480-707,1989
Denuziere A, Ferrier D, Domard A. Physicochemical and biological aspects of the interactions between chitosan and GAG'S[J]. Carbohydr Polym ,1996,29:317-321
Egger S,Brown G Set al.Hematopoietic augmentation by a beta-(1,4) -linked mannan[J].Cancer Immunology Immunotherapy, 1996,43:195-205
Farhad R, Claudine A, A njaneyaluY V. Structural studies of the D2glucomanan iso lated from AIoe vahombe. Carbohyd.Res. 1983,116:166
Finch C A. Polymers for microcapsule wall[J].1985,22:752-756
Gombotz Wayne R, Healy Michael S, Brown Larry R. Very low temperature casting of controlled release microspheres[P].WO Patent13780,1990
Gowda, C.,B.Neelisiddaiah,and J.V.Anjaneyalu, 1987:Structural studies of polusaccharides from. Aloevera. Carbohyd Res.72:201-205
Harnisavljevec-Jakovljevic.M.and J. Miljkovic-Stojanovic,1981: Structural study of anacidichydrolysis.Glas. Hem.Drus Belgrad,46(4):269-273
Harnisavljevic2Jakovljevic M. and J. M iljkovic2Sto janovic. Structural study of an acidic polysaccharide iso lated from Aloe arbo rescens M ill. I. Periodate oxidation and partial acid hydro lysis. Glas. Hem. D rus. Belgrad, 1981, 46(4):269
Hong K, Park S. Melamine resin microcapsules containing fragrant oil: synthesis and characterization[J].Mater Chemy Phys, 1999,58:128-131
Hunkeler.Polymers for bioartificial organs[J].Trends Polym Sci,1997,5(9):286-293
Imanishi K,Suzuki I.Induction of nonspecific cellmediated cytotoxic reactivity from non-immune spleen cells treated with Aloctin A[J].Internaitonal Journal of Immunopharmacology,1986,(8):781-787
Karaca K,Sharma J M et al. Nitric oxide production by chicken macrophages activated by acemannan,acomplex carbohydrate extracted from Aloe vera[J].International Journal off mmunopharmacology, 1995,17:18-188
Latyshey V N. Naumov A G.. Chirkin S A. Mechaniams releasing coolant lubricants from microcapsule during friction between metailic surfaces[J]. Trenie Iznos, 1999,20(4):433-438
Linna Z,Ian R T.Activation of a mouse macrophagecell line by acemannan:The major carbohydrate fraction from Aloe vera gel[J].Immunopharmacology, 1996,35:119-128
Mandal C.and Amalendu DAS,1980: Struscure of the D-galactani solated from AloebarbandensisMiller.Carbohyd.Res manishi K Aloctin A.An active substance of Aloe arborescens Miller as an immunomodulator[J].Phytotherapy Research, 1993,(7):S20-S22
Matthew H W, Salley S O, Peterson W D, et al. Complex coacerrate microcapsules for mammalian cell culture and artificial organ development [J]. Biotechnol Prog,1993, 9:510-519
McAnalley B H,McDaniel H R.Demonstration of in viro antiviral action of acemannan(ACE-M)against multiple viruses including the HIV virus.Proceedings of the Ⅳ International Conference on AIDS,1988.158
McDaniel H R.A clinical pilot study using Carnsyn (Aloe vera concentrate) treatment of AIDS patients [J].American Journal of Clinical Pathology,1987,88:68-72
Michel P, Pignon T et al.Prospective study of the immunomodulator properties of i.m.administered 'ALVA' extract in patients with solid tumors under a course of chemical immunosuppressive therapy[J].Archives Institut Pasteur Madagascar, 1989,56:253-259
Nixon J P.Prepatation of microcapsule with possible pharmaceutical use[J]. Endeavour, 1985,9(3):123-128
Pugh N,Ross S A et al.Characterization of Aloeride,a new high-molecular-weight polysaccharide from Aloe vera with potent immunostimulatory[J].Journal of Agriculture and Food Chemistry,2001,49:1030-1034
Pulse T L, Uhig E.A significant improvement in a clinical pilot study utilizing nutritional supplements,essential fatty acids and stabilized Aloe vera juice in 29 HIV seropositive, ARC and AIDS patients[J].Journal of Advancement in Medicine, 1990,(3):209-230
Q iu z H, Ken J, M ark W, et al. Modified A Ioe barbad ensis po lysaccharide with immuno regulatory activity [J]1P lanta Med,2000,60(2): 1522-1561
Ramamoorthy L,Kemp M C et al.Acemannan,a-(1,4)-acylated mannan, induces nitrc oxide production in macrophage cell line RAW264.7[J]. Molecular Pharmacology, 1996,50:878-884
Sa2Won Lee, Moon2Hee Kim, Chong2Kook Kim. Encapsulation of ethanol by spray drying technique :Effects of sodium lauryl sulfate [J].Int J Pharm ,1999,187:193-198
Saito H.Purification of active substances of Aloe arborescens Miller and their biological and pharmacological activity[J]. Phytotherapy Research, 1993,(7): 14-19
Shwu Jen Chang, Chen Hsen Lee, Yng Jin Wang. Microcapsules prepared from alginate and a photosensitive poly(L 21ysine)[J].J Bio2 mater Sci Polym Edn, 1999,10(5): 531-542
Strickland F M,Pellley R P et al.Prevention of ultraviolet radiation-induced suppression of contact and delayed hypersensitivity by Aloe barbadensis gel extract[J].Journal of Investigative Dermatology, 1994, 102(2):197-204
t'Hart L A,van Enckevort P Het al.Two functionally and chemically distinct immunomodulatory compounds in the gel of Aloe vera[J].Journal of Ethno-pharmacology, 1988,23:61-71
Thies C. Microcapsulation[J].Encyclopedia of Polyni Sci&Engng. 1987,9:724-725
Winters W D.Immunoreactive lectins in leaf gel from Aloe barbadensisMiller[J].PhytotherapyResearch, 1993,(7):S23-S25
Yagi,A.K.Makino, I.Nishioka and Y, Kuchino, 1997:Aloe mannan, Polysaccharides from
Aloe arbore-scens Planta.Med.31:17-20
Yates K M,Rosenberg C K et al.Pilot study of the effect of acemannan in cats infected with feline immunodeficiency virus[J].Veterinary Immunology and Immunopathology, 1992,35(1):177-189
Yoshioka T, Hirano Y, Shioya T, et al. Encapsulation of mammalian cell with chitosan2CMC capsule[J]. Biotechnol Bioeng,1990,35:66
董彩婷,杨青,肖元梅等.芦荟多糖抗突变作用的试验研究.华西医大学报,2002,33(3):477-478
方承志,张曼琳.鱼油微胶囊食品的开发与研究.广西轻工业,1998,(4):27-30
付颖丽,雄鹰等.海藻酸钠/壳聚糖微胶囊固定化大肠杆菌的研究.生物工程学报,2002,18(2):239-241
高丽娟.芦荟多糖的含量测定.化学世界,2003,44(1):19-20
高一翔.中国芦荟凝胶多糖的研究.北京联合大学学报,1993,7(1):7-10
宫朋,王富辉,杨长树。木立芦荟粗多糖对免疫功能的影响.人参研究,2000,2:28-29
关雄泰,陈日炎.中国芦荟胶的提取工艺.热带作物研究,1993,1:43-44
郭胜伟,蔡宝昌.分光光度法2比色法对芦荟乙醇提取液脱苦前后总蒽醌含量比较的研究.南京中医药大学学报(自然科学版),2000,16(4):221-222
何东保,石毅等.壳聚糖—海藻酸钠协同相互作用及其凝胶化的研究.武汉大学学报:理学版,2002,48(2):193-196
黄仁杰.海藻酸钙凝胶小球的含昔测定及溶出考察.海峡药学,2002,14(3):29-31
黄韶奋.芦荟的起源、分布、生物特性及其他。热带作物科技。1987,(6):23-26
贾绍华等.芦荟多糖对S180小鼠红细胞免疫功能的影响.哈尔滨商业大学学报,2002,18(6):608-610
贾绍华,张秀娟等.库拉索芦荟多糖对S_(180)小鼠红细胞膜脂流动性的影响.哈尔滨商业大学学报(自然科学版),2002,18(5):499-501
焦玉英,王环.芦荟多糖及其测定.食品研究与开发,1997,18(41:42-45
李保国,华泽钊等.高压静电场制备微胶囊的研究.上海理工大学学报,2000,22(3):189-193
李沙,汤小东等.阿霉素海藻酸钠—壳聚糖微囊的释药及其体内外抗癌作用.中华
临床医学杂志(北京),2003,4(9):1-5
李沙,李馨儒等.海藻酸钠—壳聚糖微囊的制备及载药性质的研究.中华临床医药杂志,2002,3(14):1-3
李云政,秦海元.国内外芦荟应用研究进展.化工进展,2000,19(2):19-22
林新.浅谈芦荟药品的开发.福建林业科技,1999,26(3):195-201
刘群,薛伟明等.海藻酸钠.壳聚糖微胶囊膜强度的研究.高等学校化学学报,2002,23(7):1417-1420
马萍,祝力等.海藻酸钙凝胶微丸作为口服缓释给药载体的研究.沈阳药科大学学报,2001,18f61:406-408
马萍,孙淑英.一种薪的缓释载体-海藻酸钙凝胶小球的研究概况.国外医药.合成药,生化药,制剂分册,1998,19(3):190-192
倪同汗.日用化学工业,1997(2):33-39
彭海生,张秀娟,贾绍华.芦荟多糖对荷瘤小鼠肿瘤细胞钠泵的影响.哈尔滨商业大学学报,2003,19(1):6-8
舒晓正,朱康杰.壳聚糖.海藻酸钠微囊对蛋白质控制释放的研究.功能高分子学报,1999,12(4):423-426,430
宋健,陈磊,李效军等编著.微胶囊化技术及应用[M],化学工业出版社,2001
孙达远,郭茂祥,罗艺.芦荟冷冻粉中多糖利甙的纯化、分离和鉴定.海南大学学报自然科学版,2002,20(2):116-119
孙多先 陈益清 吕景辉 王强 刘珺.海藻酸—壳聚糖—海藻酸离子取代凝胶离子的取代性能.分析化学,2003,31(6).739-741
孙乾,曲绍春,于晓风等.术立芦荟粗多糖的抗衰老作用的研究.人参研究,2001,13(2):34-36
汪建明,周红刚,倪君献.芦荟多糖制取方法的初步研究.食品研究与开发,2002,23(3):21-24
王俊玲,张丽芳等.芦荟多糖的提取及总糖含量的测定.海峡药学,2002,14(5):67-69
王莉,包旭,陈淑杰,杜俊蓉,朱玲等.巴巴多斯芦荟多糖提取物对小鼠免疫功能的影响.华西药学杂志,1999,14(4):234—235
王莉,包旭,岑小波,蔡绍晖,长谷川高明.巴巴多斯芦荟多糖对内毒素化大鼠和正常高龄大鼠血清及肝组织过氧化脂质的影响.华西药学杂志,2002,17(1):
21—22
王青华,秦海元等.分光光度法测定芦荟活性多糖.昆明理工大学学报,2002,27(2):21-23
王蜀秀,温远影,王雷等,芦荟多糖的研究.植物学报,1989,31(5):389-392
王显伦.锐孔法制各微胶囊技术研究.郊州粮食学院学报,1995,016(004):21-26
王勇,解玉冰.壳聚糖/海藻酸钠生物微胶囊的研究进展.生物工程进展,1999,19(2):13-16
王宗伟,黄兆胜.芦荟多糖对小鼠放射损伤的防护作用研究.广州食品工业科技,2002,18:23—25
吴彩娥,闫师杰等.锐孔法制作核桃油微胶囊的研究.食品工业科技,2002,23(2):18-20
吴广枫,汤坚.芦荟多糖制备方法的研究.食品与发酵工业,2002,28(6):57-60
吴广枫,汤坚.芦荟多糖的纯化与体外抗氧化活性的研究.食品科学,2002,9:129—132
肖崇厚.中药化学,上海科学技术出版社出版,1999
许强,刘汉灵,王孝英.木瓜蛋白酶微胶囊特性的研究[J].广西化工,1999,28(3):15-17
杨继远,袁仲芦荟化学成分的保健功效与产品开发.农牧产品开发,2001,4:6-8
张河哲,吴子生等.利用海藻酸钙胶囊提取醋酸.高等学校化学学报,1992,13(10):1307-1309
张可达,徐冬梅等.微胶囊化方法.功能高分子学报,2001,14(4):474-480
张惟杰.糖复合物生化研究技术,浙江大学出版社1994
赵寿经.芦荟的国内外应用现状及开发前景.特产研究.2000,22(2):56-59
钟正贤,周桂芬.芦荟多糖对实验性胃溃疡作用的初步观察.中草药,1995,26(2):83-85
周菊萍,陈军.逐瘀扶正胶囊中蒽醌类成分的含量测定.江苏药学与临床研究,2002,10(4):29-30
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |