References
- Batrakova EV, Li S, Brynskikh AM, Sharma AK, Li Y, Boska M, Gong N, Mosley RL, Alakhov VY, Gendelman HE, et al. Effects of pluronic and doxorubicin on drug uptake, cellular metabolism, apoptosis and tumor inhibition in animal models of MDR cancers. J Control Release 2010; 143(3)290–301
- Broz P, Benito SM, Saw C, Burger P, Heider H, Pfisterer M, Marsch S, Meier W, Hunziker P. Cell targeting by a generic receptor-targeted polymer nanocontainer platform. J Control Release 2005; 102(2)475–88
- Chen S, Zhao X, Chen J, Chen J, Kuznetsova L, Wong SS, Ojima I. Mechanism-based tumor-targeting drug delivery system validation of efficient vitamin receptor-mediated endocytosis and drug release. Bioconjug Chem 2010; 21(5)979–87
- Croy SR, Kwon GS. Polymeric micelles for drug delivery. Curr Pharm Des 2006; 12(36)4669–84
- Danquah MK, Zhang XA, Mahato RI. Extravasation of polymeric nanomedicines across tumor vasculature. Adv Drug Deliv Rev 2011; 63(8)623–39
- Dinarvand R, Sepehri N, Manoochehri S, Rouhani H, Atyabi F. Polylactide-co-glycolide nanoparticles for controlled delivery of anticancer agents. Int J Nanomed 2011; 6: 877–95
- Duncan R. The dawning era of polymer therapeutics. Nat Rev Drug Discov 2003; 2(5)347–60
- Kabanov A, Nazarova I, Astafieva I, Batrakova E, Alakhov V, Yaroslavov A, Kabanov V. Micelle formation and solubilization of fluorescent probes in poly(oxyethylene-boxypropilene-b-oxyethylene) solutions. Macromolecules 1995; 28: 2303–14
- Langer R. Drug delivery and targeting. Nature 1998; 392: 5–10
- Letchford K, Burt H. A review of the formation and classification of amphiphilic block copolymer nanoparticulate structures: Micelles, nanospheres, nanocapsules and polymersomes. Eur J Pharm Biopharm 2007; 65(3)259–69
- Li X, Tian X, Zhang J, Zhao X, Chen X, Jiang Y, Wang D, Pan W. In vitro and in vivo evaluation of folate receptor-targeting amphiphilic copolymer-modified liposomes loaded with docetaxel. Int J Nanomed 2011; 6: 1167–84
- Lu CT, Zhao YZ, Gao HS, Tian JL, Zhou ZC, Zhao GT, Tang QQ, Jin Z, Xu YY, Huang PT, et al. Comparing encapsulation efficiency and ultrasound-triggered release for protein between phospholipid-based microbubbles and liposomes. J Microencapsul 2010; 27(2)115–21
- Na K. Self-assembled nanoparticles of hydrophobically-modified polysaccharide bearing vitamin H as a targeted anti-cancer drug delivery system. Eur J Pharm Sci 2003; 18(2)165–73
- Oerlemans C, Bult W, Bos M, Storm G, Nijsen JF, Hennink WE. Polymeric micelles in anticancer therapy: Targeting, imaging and triggered release. Pharm Res 2010; 27(12)2569–89
- Patil Y, Sadhukha T, Ma L, Panyam J. Nanoparticle-mediated simultaneous and targeted delivery of paclitaxel and tariquidar overcomes tumor drug resistance. J Control Release 2009; 136(1)21–9
- Patil YB, Toti US, Khdair A, Ma L, Panyam J. Single-step surface functionalization of polymeric nanoparticles for targeted drug delivery. Biomaterials 2009; 30(5)859–66
- Pulkkinen M, Pikkarainen J, Wirth T, Tarvainen T, Haapa-aho V, Korhonen H, Seppälä J, Järvinen K. Three-step tumor targeting of paclitaxel using biotinylated PLA-PEG nanoparticles and avidin-biotin technology: Formulation development and in vitro anticancer activity. Eur J Pharm Biopharm 2008; 70(1)66–74
- Saltan N, Kutlu MH, Hür D, Iscan A, Say R. Interaction of cancer cells with magnetic nanoparticles modified by methacrylamido-folic acid. Int J Nanomed 2011; 6: 477–84
- Schmolka IR. Poloxamers in the pharmaceutical industry. Polymers for controlled drug delivery, PJ Tarcha. CRC Press, Boca Raton, FL 1991; 189–214
- Swanson SD, Kukowska-Latallo JF, Patri AK, Chen C, Ge S, Cao Z, Kotlyar A, East AT, Baker JR. Targeted gadoliniumloaded dendrimer nanoparticles for tumor-specific magnetic resonance contrast enhancement. Int J Nanomed 2008; 3(2)201–10
- Taheri A, Dinarvand R, Nouri FS, Khorramizadeh MR, Borougeni AT, Mansoori P, Atyabi F. Use of biotin targeted methotrexate-human serum albumin conjugated nanoparticles to enhance methotrexate antitumor efficacy. Int J Nanomed 2011; 6: 1863–74
- Xie J, Shen Z, Li KCP, Danthi N. Tumor angiogenic endothelial cell targeting by a novel integrin-targeted nanoparticle. Int J Nanomed 2007; 2(3)479–85
- Yang W, Cheng Y, Xu T, Wang X, Wen LP. Targeting cancer cells with biotin dendrimer conjugates. Eur J Med Chem 2009; 44(2)862–8
- Zhao D, Zhao X, Zu Y, Li J, Zhang Y, Jiang R, Zhang Z. Preparation, characterization, and in vitro targeted delivery of folate-decorated paclitaxel-loaded bovine serum albumin nanoparticles. Int J Nanomed 2010; 5: 669–77
- Zhao YZ, Li X, Lu CT, Xu YY, Lv HF, Dai DD, Zhang L, Sun CZ, Yang W, Li XK, et al. Experiment on the feasibility of using modified gelatin nanoparticles as insulin pulmonary administration system for diabetes therapy. Acta Diabetol 2012; 49: 315–25
- Zhao YZ, Lu CT, Li XK, Tang QQ, Tian XQ, Zhao YP, Zhang Y, Tian JL, Yang W, Ge S, et al. Improving the cardio protective effect of aFGF in ischemic myocardium with ultrasound-mediated cavitation of heparin modified microbubbles: Preliminary experiment. J Drug Target 2012; 20(7)623–31
- Zhao YZ, Sun CZ, Lu CT, Dai DD, Lv HF, Wu Y, Wan CW, Chen LJ, Lin M, Li XK. Characterization and anti-tumor activity of chemical conjugation of doxorubicin in polymericmicelles (DOX-P) in vitro. Cancer Lett 2011; 311(2)187–94