Development of curcumin and docetaxel CO-LOADED actively targeted PLGA nanoparticles to overcome blood brain barrier

[1]  D. Quintanar-Guerrero,et al.  Rapamycin-loaded polysorbate 80-coated PLGA nanoparticles: Optimization of formulation variables and in vitro anti-glioma assessment , 2019, Journal of Drug Delivery Science and Technology.

[2]  Mahdi Adabi,et al.  Preparation of curcumin-loaded PLGA nanoparticles and investigation of its cytotoxicity effects on human glioblastoma U87MG cells , 2018, Biointerface Research in Applied Chemistry.

[3]  C. Pouton,et al.  Suggested Procedures for the Reproducible Synthesis of Poly(d,l-lactide-co-glycolide) Nanoparticles Using the Emulsification Solvent Diffusion Platform , 2018, Current nanoscience.

[4]  F. Kandemir,et al.  Chemoprotective effects of curcumin on doxorubicin-induced nephrotoxicity in wistar rats: by modulating inflammatory cytokines, apoptosis, oxidative stress and oxidative DNA damage , 2018, Archives of physiology and biochemistry.

[5]  Peng Li,et al.  Synergistic chemopreventive effects of curcumin and berberine on human breast cancer cells through induction of apoptosis and autophagic cell death , 2016, Scientific Reports.

[6]  M. Riyazuddin,et al.  Formulation optimization of Docetaxel loaded self-emulsifying drug delivery system to enhance bioavailability and anti-tumor activity , 2016, Scientific Reports.

[7]  M. K. Das,et al.  Curcumin-docetaxel co-loaded nanosuspension for enhanced anti-breast cancer activity , 2016, Expert opinion on drug delivery.

[8]  G. Zhai,et al.  Oral bioavailability of curcumin: problems and advancements , 2016, Journal of drug targeting.

[9]  M. Diederich,et al.  Celecoxib prevents curcumin‐induced apoptosis in a hematopoietic cancer cell model , 2015, Molecular carcinogenesis.

[10]  Hong Ren,et al.  Curcumin inhibits lung cancer invasion and metastasis by attenuating GLUT1/MT1-MMP/MMP2 pathway. , 2015, International journal of clinical and experimental medicine.

[11]  M. Shakibaei,et al.  Curcumin potentiates antitumor activity of 5-fluorouracil in a 3D alginate tumor microenvironment of colorectal cancer , 2015, BMC Cancer.

[12]  C. Hascicek,et al.  Formulation and Optimization of Nonionic Surfactants Emulsified Nimesulide-Loaded PLGA-Based Nanoparticles by Design of Experiments , 2014, AAPS PharmSciTech.

[13]  D. L. Cooper,et al.  Design and Optimization of PLGA-Based Diclofenac Loaded Nanoparticles , 2014, PloS one.

[14]  R. Sirianni,et al.  PLGA Nanoparticles Formed by Single- or Double-emulsion with Vitamin E-TPGS , 2013, Journal of visualized experiments : JoVE.

[15]  M. Colombo,et al.  Intracellular drug release from curcumin-loaded PLGA nanoparticles induces G2/M block in breast cancer cells. , 2013, Biomacromolecules.

[16]  K. Ulubayram,et al.  Brain targeting of Atorvastatin loaded amphiphilic PLGA-b-PEG nanoparticles , 2013, Journal of microencapsulation.

[17]  You Ling,et al.  Temozolomide loaded PLGA-based superparamagnetic nanoparticles for magnetic resonance imaging and treatment of malignant glioma. , 2012, International journal of pharmaceutics.

[18]  C. Cho,et al.  Practical preparation procedures for docetaxel-loaded nanoparticles using polylactic acid-co-glycolic acid , 2011, International journal of nanomedicine.

[19]  S. Ostad,et al.  Docetaxel immunonanocarriers as targeted delivery systems for HER 2-positive tumor cells: preparation, characterization, and cytotoxicity studies , 2011, International journal of nanomedicine.

[20]  Shuang Huang,et al.  Curcumin improves MMC-based chemotherapy by simultaneously sensitising cancer cells to MMC and reducing MMC-associated side-effects. , 2011, European journal of cancer.

[21]  Y. Kawashima,et al.  Intracellular drug delivery using polysorbate 80-modified poly(D,L-lactide-co-glycolide) nanospheres to glioblastoma cells , 2011, Journal of microencapsulation.

[22]  R. Béliveau,et al.  Curcumin inhibits tumor growth and angiogenesis in glioblastoma xenografts. , 2010, Molecular nutrition & food research.

[23]  Y. Kawashima,et al.  Cellular uptake mechanisms and intracellular distributions of polysorbate 80-modified poly (D,L-lactide-co-glycolide) nanospheres for gene delivery. , 2010, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[24]  Serge Eifes,et al.  Chemopreventive potential of curcumin in prostate cancer , 2010, Genes & Nutrition.

[25]  N. K. Jain,et al.  Long circulating PEGylated poly(d,l-lactide-co-glycolide) nanoparticulate delivery of Docetaxel to solid tumors , 2008 .

[26]  M. Botta,et al.  Paclitaxel And Docetaxel Resistance: Molecular Mechanisms and Development of New Generation Taxanes , 2007, ChemMedChem.

[27]  B Ruozi,et al.  PLA/PLGA nanoparticles for sustained release of docetaxel. , 2006, International journal of pharmaceutics.

[28]  Michael C. Park,et al.  Interstitial Docetaxel (Taxotere), Carmustine and Combined Interstitial Therapy: a Novel Treatment for Experimental Malignant Glioma , 2006, Journal of Neuro-Oncology.

[29]  P. Couvreur,et al.  Nanoparticles in cancer therapy and diagnosis. , 2002, Advanced drug delivery reviews.

[30]  A. Ludwig,et al.  Biocompatible stabilizers in the preparation of PLGA nanoparticles: a factorial design study. , 2002, International journal of pharmaceutics.

[31]  M C Davies,et al.  Detection and determination of surface levels of poloxamer and PVA surfactant on biodegradable nanospheres using SSIMS and XPS. , 1999, Journal of controlled release : official journal of the Controlled Release Society.

[32]  Jen-kun Lin,et al.  Stability of curcumin in buffer solutions and characterization of its degradation products. , 1997, Journal of pharmaceutical and biomedical analysis.

[33]  Y. Capan,et al.  Synthesis of Small-Sized Mesoporous Silica Nanoparticles by Experimental Design and Characterization for Further Drug Delivery , 2019 .

[34]  E. Jabbarzadeh,et al.  The use of natural products to target cancer stem cells. , 2017, American journal of cancer research.

[35]  S. Ara,et al.  Research on curcumin: A meta-analysis of potentially malignant disorders. , 2016, Journal of cancer research and therapeutics.

[36]  R. Thomas,et al.  Paclitaxel loaded hyaluronic acid nanoparticles for targeted cancer therapy: in vitro and in vivo analysis. , 2015, International journal of biological macromolecules.

[37]  Luís Alexandre Pedro de Freitas,et al.  Curcumin reduces cisplatin-induced neurotoxicity in NGF-differentiated PC12 cells. , 2013, Neurotoxicology.

[38]  N. Vermeulen,et al.  Cytotoxicity and cytoprotective activities of natural compounds. The case of curcumin. , 1996, Xenobiotica; the fate of foreign compounds in biological systems.

[39]  C. Rock,et al.  Bmc Complementary and Alternative Medicine Dose Escalation of a Curcuminoid Formulation , 2022 .