KHẢO SÁT ĐỘ BỀN HỆ NHŨ NANO CURCUMIN
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GVHD: TS. Lê Thị Hồng Nhan<br />
Luận văn tốt nghiệp<br />
TÀI LIỆU THAM <strong>KHẢO</strong><br />
[1]. ishita Chattopadhyay, K.B., Uday Bandyopadhyay and Ranajit K. Banerjee,<br />
Turmeric and curcumin: Biological actions and medicinal applications<br />
[2]. Ajay Goel, A.B.K., Bharat B. Aggarwal, curcumin as"curecumin":from<br />
kitchen to clinic. biochemical phramacology, 2008. 75: p. 787-809.<br />
[3]. Stankovic, I., Curcumin. . 2004.<br />
[4]. Talalay, A.T.D.-K.a.P., Relation of structure of curcumin analogs to their<br />
potencies as inducers of Phase 2 detoxification enzymes 1999.<br />
[5]. Vijendra Kumar Mishra, G.M., Shobha Kant Mishra, drownregulation of<br />
telomerase activity may enhanced by nanoparticle mediated curcumin<br />
delivery. journal of nanomaterials and biostructures, 2008. 3: p. 163-169.<br />
[6]. Phan Minh Hạnh, Khảo sát quá trình phối huyền phù curcuminoid trong hệ<br />
nền thạch agar với định hướng sử dụng làm thực phẩm chức năng, Luận<br />
văn tốt nghệp đại học, trường Đại học Bách Khoa TP.HCM, năm 2010.<br />
[7]. Bisht, S., Polymeric nanoparticle-encapsulated curcumin<br />
("nanocurcumin"): a novel strategy for human cancer therapy.<br />
Nanobiotechnology, 2007. 5: p. 3.<br />
[8]. J. Shaikha, D.D.A., V. Beniwal a, D. Singha, M.N.V. Ravi Kumarb,<br />
nanoparticle encapsulation improves oral bioavailability of curcumin by at<br />
least 9-fold when compared to curcumin administered with piperine as<br />
absorption enhancer. Pharmaceutical science, 2009.<br />
[9]. Kevin Letchford, H.B., A review of the formation and classification of<br />
amphiphilic block copolymer nanoparticulate structures:micelles,<br />
nanospheres, nanocapsules and polymersomes. 2006.<br />
[10]. M.Amiji, M., Nanotechnology for cancer therapy. 2007<br />
[11]. Malsch, N.H., Biomedical nanotechnology. 2005.<br />
[12]. Ram B. Gupta, U.B.K. and Nanopartical Technology for Drug Delivery.<br />
2006: Taylor & Francis.<br />
[13]. Sjostrom, B., Structures of nanoparticles prepared from oil-in-water<br />
emulsions. . Pham Res, 1995. 12: p. 39-48.<br />
[14]. Sou, K., et al., Loading of curcumin into macrophages using lipid-based<br />
nanoparticles. . Int J Pharm, 2008. 352: p. 287-93.<br />
[15]. Tiyaboonchai, W., W. Tungpradit, and P. Plianbangchang., Formulation<br />
and characterization of curcuminoids loaded solid lipid nanoparticles. Int J<br />
Pharm, 2007. 337: p. 299-306.<br />
[16]. Nguyễn.Đức.Nghĩa, Hoá học nano. 2007: Nhà xuất bản Hà Nội.<br />
[17]. Lamprecht A, S.U., Lehr C-M, Size-dependent bioadhesion of micro- and<br />
nanoparticulate carriers to the inflamed colonic mucosa. 2001.<br />
[18]. J.E. Kipp, The role of solid nanoparticle technology in the parenteral<br />
delivery of poorly water-soluble drugs, Int J Pharm, 2004<br />
[19]. LanLi, F.B., RazelleKurzrock, Liposome-Encapsulated Curcumin.<br />
American Cancer Society, 2005. 2005(21300).<br />
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