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[1] A.D. Kinghorn, D.D. Soejarto, Current status of stevioside as a sweetening agent for human use, Economic and medicinal plant research/edited by H. Wagner, Hiroshi Hikino, Norman R. Farnsworth, (1985). [2] S.-J. Wu, L.-T. Ng, Y.-M. Huang, D.-L. Lin, S.-S. Wang, S.-N. Huang, C.-C. Lin, Antioxidant activities of Physalis peruviana, Biological and Pharmaceutical Bulletin, 28 (2005) 963-966. [3] Trần Đình Long, Liakhovkin A. G., M.P. Anh, Cây cỏ ngọt (Stevia rebaudiana Bertoni), NXB Nông nghiệp, (1992). [4] A.D. Kinghorn, Stevia: the genus Stevia, CRC Press, 2003. [5] C.C. Shock, Experimental cultivation of Rebaudi’s stevia in California, Univ. California, Davis Agron. Progr. Rep, 122 (1982). [6] P. Mishra, R. Singh, U. Kumar, V. Prakash, Stevia rebaudiana–A magical sweetener, Global J Biotechnol Biochem, 5 (2010) 62-74. [7] S. Singh, & Rao, G., Stevia: The herbal sugar of 21st Century, Sugar Tech, 71, 7 (2005) 17-24. [8] Nguyễn Văn Tý, Ảnh hưởng của nồng độ dung dịch đồng sulfat đến một số chỉ tiêu sinh lí-sinh hóa và năng suất cây cỏ ngọt trồng trên đất vườn đồi Bắc Thái, (1996) 2829. [9] Quách Đĩnh, Nguyễn Văn Thoa, N.V. Tiếp, Công nghệ sau thu hoạch và chế biến rau quả, NXB KHKT, (1996). [10] S.D. Anton, C.K. Martin, H. Han, S. Coulon, W.T. Cefalu, P. Geiselman, D.A. Williamson, Effects of stevia, aspartame, and sucrose on food intake, satiety, and postprandial glucose and insulin levels, Appetite, 55 (2010) 37-43. [11] S. Ghanta, A. Banerjee, A. Poddar, S. Chattopadhyay, Oxidative DNA damage preventive activity and antioxidant potential of Stevia rebaudiana (Bertoni) Bertoni, a natural sweetener, Journal of agricultural and food chemistry, 55 (2007) 10962-10967. [12] M. Darise, H. Kohda, K. Mizutani, R. Kasai, O. Tanaka, Chemical constituents of flowers of Stevia Rebaudiana Bertoni., Agri Biol Chem 47, (1983) 133-135. [13] J. Brandle, P. Telmer, Steviol glycoside biosynthesis, Phytochemistry, 68 (2007) 1855-1863. [14] U. Wölwer-Rieck, The leaves of Stevia rebaudiana (Bertoni), their constituents and the analyses thereof: a review, Journal of agricultural and food chemistry, 60 (2012) 886-895. [15] Geuns, Jan, Stevia and steviol glycosides, Euprint bvba, 2010. [16] C. Giraldo, L. Marín, D. Habeych, Obtención de edulcorantes de Stevia rebaudiana Bertoni, Revista CENIC Ciencias Biológicas, 36 (2005) 3-10.

77

[17] R. Lemus-Mondaca, A. Vega-Gálvez, L. Zura-Bravo, K. Ah-Hen, Stevia rebaudiana Bertoni, source of a high-potency natural sweetener: A comprehensive review on the biochemical, nutritional and functional aspects, Food Chemistry, 132 (2012) 1121-1132. [18] J. Pól, B. Hohnová, T. Hyötyläinen, Characterisation of Stevia rebaudiana by comprehensive two-dimensional liquid chromatography time-of-flight mass spectrometry, Journal of Chromatography A, 1150 (2007) 85-92. [19] Geuns, Jan MC, Stevioside, Phytochemistry, 64 (2003) 913-921. [20] A. Nepovim, H. Drahosova, P. Valicek, T. Vanek, The effect of cultivation conditions on the content of stevioside in Stevia rebaudiana Bertoni plants cultivated in the Czech Republic, Pharmaceutical and Pharmacological Letters, 8 (1998) 19-21. [21] Trương Hương Lan, Lại Quốc Phong, N.T. Làn, Nguyễn Thị Việt Hà, Phạm Linh Kho, Lê Hồng Dũng, Xác định thành phần dinh dưỡng của lá Cỏ ngọt Việt Nam, Tạp chí Khoa học và Phát triển. Tập, 12 (2014) 73-77. [22] C. Gardana, M. Scaglianti, P. Simonetti, Evaluation of steviol and its glycosides in Stevia rebaudiana leaves and commercial sweetener by ultra-high-performance liquid chromatography-mass spectrometry, Journal of chromatography A, 1217 (2010) 14631470. [23] V. Kochikyan, A. Markosyan, L. Abelyan, A. Balayan, V. Abelyan, Combined enzymatic modification of stevioside and rebaudioside A, Applied Biochemistry and Microbiology, 42 (2006) 31-37. [24] G. Kovylyaeva, G. Bakaleinik, Strobykina, I., Gubskaya, V., Sharipova, R., Al¢fonsov,, L.G. Vieira, Glycosides from Stevia rebaudiana, Chemistry of Natural Compounds, 43 (2007) 81-85. [25] B.H. de Oliveira, J.F. Packer, M. Chimelli, D.A. de Jesus, Enzymatic modification of stevioside by cell-free extract of Gibberella fujikuroi, Journal of biotechnology, 131 (2007) 92-96. [26] Sirshendu De, Sourav Mondal, and Suvrajit Banerjee, I.I.o.T.I. Kharagpur, I. Kharagpur, Stevioside, Technology, Applications and Health, Indian Institute of Technology (IIT) Kharagpur Kharagpur, India, (2013). [27] B. Crammer, R. Ikan, Sweet glycosides from the stevia plant, Chemistry in Britain, 22 (1986) 915. [28] Abou-Arab, A Esmat, A Azza, Abu-Salem, M. Ferial, Physico-chemical assessment of natural sweeteners steviosides produced from Stevia rebaudiana Bertoni plant, African Journal of Food Science, 4 (2010) 269-281. [29] V.V. Panpatil, K. Polasa, Assessment of stevia (Stevia rebaudiana)--Natural sweetener: A review, Journal of Food Science and Technology, 45 (2008) 467. [30] Abou-Arab, Esmat A, Abu-Salem, F. M, Evaluation of bioactive compounds of Stevia rebaudiana leaves and callus, African Journal of Food Science, 4 (2010) 627634.

78

[31] K. Takahashi, S. Shigeta, N. Sato, Stevia extracts for the inhibition of rotavirus, Jpn. Kokai Tokkyo Koho JP 2001106635 (2001). [32] K. Takahashi, S. Shigeta, N. Sato, Stevia rebaudiana Bertoni extraction as antibacterials against Helicobacter pylori,, Jpn. Kokai Tokkyo Koho JP 2001122793, (2001). [33] B. Bogicevic, Oral application of extract of Stevia rebaudiana or its active substances for the elimination of cellulite, , Pct Int. Appl. WO 29005048973, (2005). [34] S. Gregersen, P.B. Jeppesen, K.H. J.J. Holst, Antihyperglycemic effects of stevioside in type diabetic subjets,, Metab., Clin. Exp. (1) 53, (2004) 73. [35] P. Chan, D.E. Xu, J.C. Liu , Y.J. Chen, B. Tomlinson, J.T.C. W.P. Huang, The effect of stevioside on blood pressure and plasma catecholamines in spontaneously hypertensive rats,, Life Sci. (19) 63, (1998) 1679. [36] J.C. Liu, P.K. Kao, P. Chan, Y.H. Hsu, C.C. Hoi, G.S. Lien, M.H. Hsieh, Y.J. Cheng, J.T. Cheng, Mechanism of the antihypertensive effect of stevioside in anesthetized dogs,, Pharmacol. (1) 67, (2003) 14. [37] H. Hanada, H. Senpuku, M. Arakawa, T. Ishizaki, S. Sakuma, Dental drug delivery system agents containing hydroxyapatite, and control of cariogenic bacteria using them, , Jpn. Kokai Tokkyo Koho JP 2004035416, (2004). [38] S. Sugiyama, N. Doi, S. Ejiri, Y. Ishii, Dentifrices containing apatite and polymers,, Jpn. Kokai Tokkyo Koho JP 2001131041, (2001). [39] Y. Suzuki, T. Yokoo, Liquid dentifrice compositions containing cationic bactericides, polyoxyethylene alkyl ethers, and cationic polymers, , Jpn. Kokai Tokkyo Koho JP 2001139433, (2001). [40] E. Takeoka, C. Hamada, O. Suzuki, M. Tajima, Hair growth period extended agent, , Jpn. Kokai Tokkyo Koho JP 10265347 (1998). [41] H. Takada, K. Teraoka, B.H. Kim, Hair growth stimulants containing Stevia and Udo extracts,, Jpn. Kokai Tokkyo Koho JP 2003040790, (2003). [42] B.E. Kim, M.K. Kim, K.T. Kim, R.W. Chang, J.W. Jong, Y.G. Kim, Study on the degradation of dioxin by the Stevia extract, , Organohalogen Comp.54, (2001). [43] Y.G. Kim, A method for preparing dioxin decomposers from Stevia, a dioxin decomposer prepared by the method and a method for decomposing dioxins using it, , PCT Int. Appl. WO 2001040495, (2001). [44] M. Sato, M. Takeuchi, N. Sato, Antihistaminic substance of stevia origin,, U.S. US 5958419, (1999). [45] J. Thomas, M. Glade, Stevia: it’s not just about calories. , Open Obes J 2, , (2010) 101–109. [46] S. Shukla, A. Mehta, V. Bajpai, S. Shukla, In vitro antioxidant activity and total phenolic content of ethanolic leaf extract of Stevia Rebaudiana Bert. , Food Chem Toxicol 47,, (2009) 2338–2343.

79

[47] PGS.PTS. Nguyễn Khắc Quỳnh Cứ, Bài giảng chiết suất dược liệu, Trường Đại học Y Dược thành phố Hồ Chí Minh-Bộ môn Dược liệu, (1998). [48] M.S. Melis, Chronic administration of aqueous extract of Stevia Rebaudiana in rats: renal effects., J. Ethnopharmacol 47,, (1995) 129− 134. [49] M.S. Melis, A.R. Sainati, Effect of calcium and verapamil on renal function of rats during treatment with Stevioside., J. Ethnopharmacol 33, , (1991) 257 −262. [50] M.S. Melis, A.R. Sainati, Participation of prostaglandins in the effect of Stevioside on rat renal function and arterial pressure. , Braz J Med Biol Res 24, , (1991) 1269−1276. [51] W.W.H.O.S.E.o.C.F. Additives., S.G.A.J.F.W.E.C.o. Food, A.W.F.A.S.N.G. WHO., Safety Evaluation of Certain Food Additives. Steviol Glycosides (Addendum). , Joint FAO/WHO Expert Committee on Food Additives. WHO Food Additive Series No. 60. Geneva: WHO., (2009). [52] E.E.F.S. Authority), Scientific opinion on the safety of Steviol glycosides for the proposed uses as a food additive. , EFSA Panel on Food Additives and Nutrient Sources added to Food (ANS). EFSA J 8,, 1537. [53] L.L. Curry, Agency Response Letter GRAS Notice No. , GRN 000287. Washington, DC: Food and Drug Administration. , (2010). [54] F.F.a.A. Organisation), Steviol Glycosides., FAO JECFA Monographs 10. Rome: Food and Agriculture Organisation., (2010). [55] F.F.S.A.N. Zealand), Final Assessment Report, Application A540, Steviol Glycosides as Intense Sweeteners. , Canberra: Food Standards Australia New Zealand., (2008). [56] C. González, M. Tapia, E. Pérez, D. Pallet, M. Dornier, Main properties of steviol glycosides and their potential in the food industry: a review, Fruits, 69 (2014) 127-141. [57] S. Stoyanova, J. Geuns, É. Hideg, W. Van Den Ende, The food additives inulin and stevioside counteract oxidative stress, International journal of food sciences and nutrition, 62 (2011) 207-214. [58] P.D. Richard C. Kraska, DABT, P.D. Robert S. McQuate, P.D. Madhusudan G. Soni, FACN, Gras assessment of high purity steviol glycosides ( 95%) Food Usage Conditions for General Recognition of Safety for Compound Solutions, Inc. Vista, CA, (July 2011). [59] Hoàng Văn Phiệt, Hoàng Thanh Phương, Trương Tất Hiếu, Nguyễn Kim Sơn, Đào Đình Kim, Chiết suất Steviolside từ lá cỏ ngọt,, Tuyển tập các công trình nghiên cứu khoa học 1994-1995, 1995,, 28-29. [60] Tôn Nữ Liên Hương, Võ Hoàng Duy, Dương Mộng Hòa, Đỗ Duy Phúc, và Nguyễn Duy Thanh, CHIẾT XUẤT STEVIOSIDE TỪ CÂY CỎ NGỌT (Stevia rebaudiana Bertoni), Tạp chí Khoa học Đại học Cần thơ, (2015) 73-76.

80

[61] N. Bondarev, O. Reshetnyak, A. Nosov, Peculiarities of diterpenoid steviol glycoside production in in vitro cultures of Stevia rebaudiana Bertoni, Plant Science, 161 (2001) 155-163. [62] T. Morita, I. Fujita, J. Iwamura, Sweetening compound, method of recovery, and use thereof, in, Google Patents, 1978. [63] R.H. Dobberstein, M.S. Ahmed, Extraction, separation and recovery of diterpene glycosides from Stevia rebaudiana plants, in, Google Patents, 1982. [64] N. Kolb, J. Herrera, D. Ferreyra, R. Uliana, Analysis of sweet diterpene glycosides from Stevia rebaudiana: improved HPLC method, Journal of agricultural and food chemistry, 49 (2001) 4538-4541. [65] H. Makapugay, N. Nanayakkara, A.D. Kinghorn, Improved high-performance liquid chromatographic separation of the Stevia rebaudiana sweet diterpene glycosides using linear gradient elution, Journal of Chromatography A, 283 (1984) 390-395. [66] J. Striedner, F.C. Czygan, G. Braunegg, Contributions to the biotechnological production of sweeteners from Stevia rebaudiana Bertoni. I. A method for the serial analysis of diterpene glycosides by HPLC, Engineering in Life Sciences, 11 (1991) 495499. [67] W.S. FUH, B.H. CHIANG, Purification of steviosides by membrane and ion exchange processes, Journal of food science, 55 (1990) 1454-1457. [68] R.H. Giovanetto, Method for the recovery of steviosides from plant raw material, in, Google Patents, 1990. [69] J.D. Payzant, J.K. Laidler, R.M. Ippolito, Method of extracting selected sweet glycosides from the Stevia rebaudiana plant, in, Google Patents, 1999. [70] S. Kumar, Method for recovery of stevioside, in, Google Patents, 1986. [71] S.Q. Zhang, A. Kumar, O. Kutowy, Membrane-based separation scheme for processing sweeteners from stevia leaves, Food Research International, 33 (2000) 617620. [72] U. Kienle, Method of making a natural sweetener based on Stevia rebaudiana, and use thereof, in, Google Patents, 1992. [73] M. Fumio, Stevioside extracted from Stevia containing sweetener., Japanese Patent 55-0007039. , (1980). [74] M.C. Jackson, G.J. Francis, R.G. Chase, High yield method of producing pure rebaudioside A. , US Patent 0083838, (2006). [75] J. Pol, E.V. Ostra, P. Karasek, M. Roth, B. Karolinka, J. Kaslavsky, Comparison of two different solvents employed for pressurized fluid extraction of stevioside from Stevia Rebaudiana: methanol versus water., Anal Bioanal Chem 388, , (2007) 1847–1857. [76] H. Tadaaki, I. Ryoichi, K. Teruo, A method for purifying stevioside., Japanese Patent 51-131900.

81

, (1976). [77] K. Tadashi, K. Masato, Production of Stevia sweetener. , Japanese Patent 07143860., (1995). [78] M. Toyoshige, B. Usei, Sweetener obtained from plant body of variety of Stevia Rebaudiana cultivatable from seed., Japanese Patent 2002-262822., (2002). [79] M. Chhaya, G.C., S. De, O.o.p.p.f.w.e.o.s.u. response, surface methodology. Separation Science and Technology, s.f. publication., Optimization of process parameters for water extraction of stevioside using response surface methodology, , Separation Science and Technology, submitted for publication., (2012). [80] G. Ruihua, S. Jingwen, Y. Xinwei, Method for ultrasonic extraction of stevioside. , Chinese Patent 101798329A., (2010). [81] V. Jaitak, B.S. Bandna, V. Kaul, An efficient microwave‐assisted extraction process of stevioside and rebaudioside‐A from Stevia rebaudiana (Bertoni), Phytochemical Analysis, 20 (2009) 240-245. [82] H. Weiping, J.H. Zhou, Process for extracting sweet diterpene glycosides. , US Patent 6,228,996. , (1999). [83] V.H. Abelyan, V.T. Ghochikyan, A.A. Markosyan, M.O. Adamyan, L.A. Abelyan, Extraction, separation and modification of sweet glycosides from the Stevia Rebaudiana plant. , US Patent 7,838,044 B2., (2010). [84] K. Shinichi, T. Masaaki, F. Masahiro, Purification of stevioside solution. , Japanese Patent 55-120770., (1980). [85] K. Kotaro, O. Tokuo, Extraction and purification of sweetener component from dry leaf of Stevia. , Japanese Patent 62-166861., (1987). [86] T. Taku, O. Yukio, Preparation of stevioside., Japanese Patent 58-028246., (1983). [87] O. Yukio, I. Hajime, T.P.m.o.s.s.J. Taku, P. 58-028247., Purifying method of stevioside solution., Japanese Patent 58-028247. , (1983). [88] P.C. Wankat, Separation Process Engineering. , New York: Prentice-Hall., (2007). [89] G.J. Persinos, Method of producing stevioside. , US Patent 3,723,410, (1973). [90] J. Adduci, D. Buddhasukh, B. Ternai, Improved isolation and purification of stevioside. , J Sci Soc Thai 13, , (1987) 179–183. [91] S.H. Won, C.K. Jin, C.H. Hoon, b.P.p.o.s. Korean, P. B1., Purification process of stevioside. , Korean Patent 1019900005468 B1., (1990). [92] O.D.a.p.o.s.s.c.J. Susumu, P. 55-111768., Decolorization and purification of stevia sweet component., Japanese Patent 55-111768., (1980).

82

[93] J.K. Kumar, G.K. Babu, V.K. Kaul, P.S.P.f.p.o. Ahuja, s.f.S.R.B.I.P.W. 2006/, A1., Process for production of stevioside from Stevia Rebaudiana Bertoni. , International Patent WO 2006/038221 A1., (2006). [94] M. Yang, J. Hua, L. Qin, High purity rebaudioside A and method of extracting same. , US Patent 7,923,541B2., (2011). [95] S. Purakayastha, A. Markosyan, M. Malsagov, Process for manufacturing a sweetener and use thereof., US Patent Application 2010/0227,034., (2010). [96] M. Magomet, T. Tomov, T. Somann, V.H. Abelyan, Process for manufacturing of a sweetener and use thereof., US Patent 7,862,845B2., (2011). [97] C. Chiang, J.C. Evans, J.J. Hahn, Separation of rebaudioside A from Stevia glycosides using chromatography., US Patent 2011/0087011 A1., (2011). [98] J. Liu, K. Zhang, S. Guo, Separation and purification of stevioside and rebaudioside A. , US Patent 2012/0083593A1., (2012). [99] E.P. Moraes, N.R.C.F. Machado, Clarification of Stevia Rebaudiana (Bert.) Bertoni extract by adsorption in modified zeolites. , Acta Scientiar 23 (2001) 1375–1380. [100] R. Rajab, C. Mohankumar, K. Murugan, M. Harish, P.V.P. Mohanam, and toxicity studied of stevioside from Stevia Rebaudiana Bertoni. Toxicol Int 16, 49–54., Purification and toxicity studied of stevioside from Stevia Rebaudiana Bertoni., Toxicol Int 16, (2009) 49–54. [101] Rongfu Shi, Mancai Xu, Zuoqing Shi, Yunge Fan, Xianzhi Guo, Yongning Liu, Chunhong Wang, Binglin He, Synthesis of bifunctional polymeric adsorbent and its application in purification of Stevia glycosides, Reactive and Functional Polymers, 50 (2002) 107-116. [102] J. Liu, C. Ong, S. Li, Subcritical fluid extraction of Stevia sweeteners from Stevia rebaudiana, Journal of chromatographic science, 35 (1997) 446-450. [103] C. Sharma, S. Mondal, G. Majumdar, S. De, Clarification of Stevia extract by ultrafiltration: selection criteria of the membrane and effects of operating conditions, Food and bioproducts processing, 90 (2012) 525-532. [104] F.V. Silva, R. Bergamasco, C.M.G. Andrade, N. Pinheiro, N.R.C.F. Machado, M.H.M. Reis, A.A. de Araujo, S.L. Rezende, Purification process of stevioside using zeolites and membranes, International Journal of Chemical Reactor Engineering, 5 (2007) 1443. [105] M. Reis, F. Da Silva, C. Andrade, S. Rezende, M. Wolf Maciel, R. Bergamasco, Clarification and purification of aqueous stevia extract using membrane separation process, Journal of food process engineering, 32 (2009) 338-354. [106] A. Mustafa, C. Turner, Pressurized liquid extraction as a green approach in food and herbal plants extraction: A review, Analytica chimica acta, 703 (2011) 8-18. [107] W. Kukula-Koch, N. Aligiannis, M. Halabalaki, A.-L. Skaltsounis, K. Glowniak, E. Kalpoutzakis, Influence of extraction procedures on phenolic content and antioxidant activity of Cretan barberry herb, Food chemistry, 138 (2013) 406-413.

83

[108] K. Phillips, Stevia: steps in developing a new sweetener, Developments in sweeteners, 3 (1987) 1-43. [109] H. Sugisawa, T. Kasai, and H. Suzuki, ibid.,, 51 (1977) 175. [110] P. Mauri, G. Catalano, C. Gardana, P. Pietta, Analysis of Stevia glycosides by capillary electrophoresis, Electrophoresis, 17 (1996) 367-371. [111] P. Nishiyama, M. Alvarez, L.G. Vieira, Quantitative analysis of stevioside in the leaves of Stevia rebaudiana by near infrared reflectance spectroscopy, Journal of the Science of Food and Agriculture, 59 (1992) 277-281. [112] C. Yu, K. Xu, Y. Shi, The spectrum model established for measuring the contents of Rebaudioside A and Stevioside quickly in the leaves of Stevia rebaudiana Bertoni, Energy Procedia, 5 (2011) 855-861. [113] V. Jaitak, A. Gupta, V. Kaul, P.S. Ahuja, Validated high-performance thin-layer chromatography method for steviol glycosides in Stevia rebaudiana, Journal of pharmaceutical and biomedical analysis, 47 (2008) 790-794. [114] L. Hearn, P. Subedi, Determining levels of steviol glycosides in the leaves of Stevia rebaudiana by near infrared reflectance spectroscopy, Journal of Food Composition and Analysis, 22 (2009) 165-168. [115] A.U. Jackson, A. Tata, C. Wu, R.H. Perry, G. Haas, L. West, R.G. Cooks, Direct analysis of Stevia leaves for diterpene glycosides by desorption electrospray ionization mass spectrometry, Analyst, 134 (2009) 867-874. [116] PGS. Nguyễn Ngộ, Công nghệ đường mía, Nhà suất bản Bách Khoa - Hà Nội, (2011) 272.

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