Transport of liposomal and albumin loaded curcumin to living cells: an absorption and fluorescence spectroscopic study.
about
Delivery of antiinflammatory nutraceuticals by nanoparticles for the prevention and treatment of cancerHeterologous production of curcuminoidsThe chemistry of curcumin: from extraction to therapeutic agentAnalysis of the Antiproliferative Effects of Curcumin and Nanocurcumin in MDA-MB231 as a Breast Cancer Cell LineSilk fibroin-derived nanoparticles for biomedical applications.Design of curcumin-loaded PLGA nanoparticles formulation with enhanced cellular uptake, and increased bioactivity in vitro and superior bioavailability in vivo.Differential inhibition of protein translation machinery by curcumin in normal, immortalized, and malignant oral epithelial cells.Multitargeting by curcumin as revealed by molecular interaction studiesCyclodextrin-complexed curcumin exhibits anti-inflammatory and antiproliferative activities superior to those of curcumin through higher cellular uptake.Comparison of two encapsulated curcumin particular systems contained in different formulations with regard to in vitro skin penetration.Oral administration of nano-emulsion curcumin in mice suppresses inflammatory-induced NFκB signaling and macrophage migration.Enhancement of phototoxicity of curcumin in human oral cancer cells using silica nanoparticles as delivery vehicle.Characterization of the host-guest complex of a curcumin analog with β-cyclodextrin and β-cyclodextrin-gemini surfactant and evaluation of its anticancer activity.Visible light is a better co-inducer of apoptosis for curcumin-treated human melanoma cells than UVA.Repair and reconstruction of a resected tumor defect using a composite of tissue flap-nanotherapeutic-silk fibroin and chitosan scaffold.Advanced drug delivery systems of curcumin for cancer chemopreventionCurcumin Modulates Pancreatic Adenocarcinoma Cell-Derived Exosomal Function.Curcumin Protects β-Lactoglobulin Fibril Formation and Fibril-Induced Neurotoxicity in PC12 Cells.Novel dipeptide nanoparticles for effective curcumin deliveryCurcumin inhibits gene expression of receptor for advanced glycation end-products (RAGE) in hepatic stellate cells in vitro by elevating PPARγ activity and attenuating oxidative stressCurcumin Induces Pancreatic Adenocarcinoma Cell Death Via Reduction of the Inhibitors of ApoptosisMolecular changes induced by the curcumin analogue D6 in human melanoma cells.Evaluation of a nanotechnology-based carrier for delivery of curcumin in prostate cancer cells.Curcumin-loaded γ-cyclodextrin liposomal nanoparticles as delivery vehicles for osteosarcoma.Polyethylene glycol-phosphatidylethanolamine (PEG-PE)/vitamin E micelles for co-delivery of paclitaxel and curcumin to overcome multi-drug resistance in ovarian cancer.Differential antioxidant/pro-oxidant activity of dimethoxycurcumin, a synthetic analogue of curcumin.Curcumin nanoformulations: a future nanomedicine for cancer.Why it is necessary to translate curcumin into clinical practice for the prevention and treatment of metabolic syndrome?Recent advances in curcumin nanoformulation for cancer therapy.Curcumin and Osteosarcoma: Can Invertible Polymeric Micelles Help?Curcumin Nanotechnologies and Its Anticancer Activity.Invertible micellar polymer nanoassemblies target bone tumor cells but not normal osteoblast cells."Squalenoylcurcumin" nanoassemblies as water-dispersible drug candidates with antileishmanial activity.Curcumin and Its Role in Chronic Diseases.ApoE enhances nanodisk-mediated curcumin delivery to glioblastoma multiforme cells.Dimethoxycurcumin-induced cell death in human breast carcinoma MCF7 cells: evidence for pro-oxidant activity, mitochondrial dysfunction, and apoptosis.Kinetic profile of amyloid formation in the presence of an aromatic inhibitor by nuclear magnetic resonance.Fabrication and characterization of silk fibroin-derived curcumin nanoparticles for cancer therapy.Micelles of poly(ethylene oxide)-b-poly(epsilon-caprolactone) as vehicles for the solubilization, stabilization, and controlled delivery of curcumin.Study of curcumin behavior in two different lipid bilayer models of liposomal curcumin using molecular dynamics simulation.
P2860
Q24614491-6351EE3A-99CD-4927-8E65-917E0A88D31FQ26824008-C5084243-CC1C-40CC-AD50-57A79F80C9D1Q26852753-7867A83A-9774-4E7B-9BC9-0D55FDF36C6AQ28830199-E0A2BC4E-8C76-4AB4-83BD-89FA7638EC85Q30156091-CB00B2F6-944A-49B0-BFA8-DDD07CFC5598Q33500696-85F9F1CE-FA0A-4608-A51F-F3DC28BC91DDQ33708023-A499CC7A-76C8-43B7-8982-3773CD7CC202Q34042485-2C5AAD49-F40F-4E36-A740-68FC402165F5Q34071871-9C45E4B4-0DDE-42C6-9BD3-0453D2505B7DQ34123008-59E910AE-3D29-4A5C-B716-65EA025FD6E3Q34450324-13FF77DD-D4F4-44E6-BDF3-F09A3F52C7DAQ34786184-4ABBAD0F-1990-4DBD-9605-B90F3C30C836Q34982395-0606DC46-4278-405A-8EB3-0BA87DB4E5B6Q35047434-41C8E262-CF93-41AE-9E61-51580A9F8BEFQ35145969-23CB51A2-A3E2-48C8-AE02-3F1DF8027BC1Q35150975-F80A5581-F69D-470E-AE1D-B49C02077B73Q35692600-063174A4-1B9C-4C2E-A486-3C36115E2595Q35694684-B0190D24-6D62-482D-907F-BEF6745EA284Q36161136-C5B31DC0-AE51-489B-8A41-1A5F1DEF5BE9Q36252773-639E4745-3557-4764-AC67-B9AB31D6A08EQ36373429-69E30AAA-85FD-40CA-B8E9-3595E4AC263EQ36836630-E23CA983-4A04-48A8-9AD4-2E94E79F0C1FQ36900701-3C1099E1-26A2-42BA-B51F-6F587EE2428BQ37090949-71F5E578-CC70-4B98-8546-D4F3824B8C12Q37693751-352B1F41-4E76-4302-B4CB-8BFBE155DA91Q37880108-5F08C71F-3A78-463C-934F-3BB198AE22BBQ37940793-1269E104-DF36-4C29-AACB-CEC0E69C7017Q38067362-E2E3327F-5922-4E6B-9600-4F9DCD33BE87Q38214381-ED900F53-185A-491E-BDC4-304860334454Q38643209-FF630520-8EC8-4AC0-9CEE-4C17D1E3FA09Q38746695-AC62A828-B8E5-4661-A7B0-A66AA1694CC0Q38776975-AE2A0083-44FA-4F8C-A3FA-F0DFB78FBE36Q38927219-01F42B98-B5E5-4D11-9D8B-A10FA7FB1491Q38965184-ABE32DC8-05ED-4F21-ACA0-6577B500518CQ39121388-8B9B0AAB-B1E3-49FD-B968-E7A0C3357FE8Q39436940-5CFDF115-FD6F-4B38-80D3-24CCB6F68274Q39731518-01143705-B167-45CF-B11E-E1767CBA206BQ39839586-F09C6780-F81C-40D8-944C-DD94800EEA5FQ40063196-75283EF9-9E8F-4997-B937-8261CE7512BFQ41157019-151C2CFB-D114-4847-9A6E-0D55395EDAF7
P2860
Transport of liposomal and albumin loaded curcumin to living cells: an absorption and fluorescence spectroscopic study.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Transport of liposomal and alb ...... orescence spectroscopic study.
@en
type
label
Transport of liposomal and alb ...... orescence spectroscopic study.
@en
prefLabel
Transport of liposomal and alb ...... orescence spectroscopic study.
@en
P2093
P1476
Transport of liposomal and alb ...... orescence spectroscopic study.
@en
P2093
Amit Kunwar
Atanu Barik
K Indira Priyadarsini
Ruchi Pandey
P304
P356
10.1016/J.BBAGEN.2006.06.012
P577
2006-07-08T00:00:00Z