Prevention of metastasis in a 4T1 murine breast cancer model by doxorubicin carried by folate conjugated pH sensitive polymeric micelles.
about
Efficacy of polyMPC-DOX prodrugs in 4T1 tumor-bearing miceDoxorubicin-mediated radiosensitivity in multicellular spheroids from a lung cancer cell line is enhanced by composite micelle encapsulationDoxorubicin-conjugated polypeptide nanoparticles inhibit metastasis in two murine models of carcinomaSilibinin and indocyanine green-loaded nanoparticles inhibit the growth and metastasis of mammalian breast cancer cells in vitro.Targeted nanoparticles for image-guided treatment of triple-negative breast cancer: clinical significance and technological advancesInoculated Cell Density as a Determinant Factor of the Growth Dynamics and Metastatic Efficiency of a Breast Cancer Murine ModelAn iTEP-salinomycin nanoparticle that specifically and effectively inhibits metastases of 4T1 orthotopic breast tumors.Utilizing G2/M retention effect to enhance tumor accumulation of active targeting nanoparticles.Treatment of cancer micrometastasis using a multicomponent chain-like nanoparticle.On-command drug release from nanochains inhibits growth of breast tumors.In vitro activity of Paclitaxel-loaded polymeric expansile nanoparticles in breast cancer cells.Breast cancer proteome takes more than two to tango on TRAIL: beat them at their own game.Stimulus-sensitive polymeric nanoparticles and their applications as drug and gene carriers.Stimuli-sensitive synthetic polypeptide-based materials for drug and gene delivery.Stimuli responsive synthetic polypeptides derived from N-carboxyanhydride (NCA) polymerisation.pH- and ion-sensitive polymers for drug delivery.Exploring polymeric micelles for improved delivery of anticancer agents: recent developments in preclinical studies.Delivery of therapeutics using nanocarriers for targeting cancer cells and cancer stem cells.Personalizing Biomaterials for Precision Nanomedicine Considering the Local Tissue Microenvironment.Folate-conjugated nanoparticles as a potent therapeutic approach in targeted cancer therapy.The Implications and Future Perspectives of Nanomedicine for Cancer Stem Cell Targeted Therapies.Suppression for lung metastasis by depletion of collagen I and lysyl oxidase via losartan assisted with paclitaxel-loaded pH-sensitive liposomes in breast cancer.Nanoparticles for imaging and treatment of metastatic breast cancer.Folic acid conjugated ferritins as photosensitizer carriers for photodynamic therapy.In vitro and in vivo investigation of a novel two-phase delivery system of 2-methoxyestradiol liposomes hydrogel.Folate-modified gold nanoclusters as near-infrared fluorescent probes for tumor imaging and therapy.In vivo controlled release and prolonged antitumor effects of 2-methoxyestradiol solid lipid nanoparticles incorporated into a thermosensitive hydrogel.Targeted drug delivery to tumors: myths, reality and possibility.Development of plumbagin-loaded phospholipid-Tween® 80 mixed micelles: formulation, optimization, effect on breast cancer cells and human blood/serum compatibility testing.Microfluidic co-culture devices to assess penetration of nanoparticles into cancer cell mass.Coordinated autophagy modulation overcomes glioblastoma chemoresistance through disruption of mitochondrial bioenergetics.
P2860
Q33598779-AD00ACF3-987D-4933-9B64-1B9D033FB3C4Q34296998-7D17ACC6-C9E3-4004-B1C0-5A6E51BEDF0EQ35602635-169DF9CA-AB2F-48AF-BEBF-87476A58AFB3Q36004680-5EC8F6B5-C381-4A58-81A4-65243524C882Q36157045-FD083538-13E9-4156-BA4E-3CA6B2EB0D82Q36184480-B0098FEC-3133-4B30-A97F-17434B4F095FQ36834993-A94C6B9D-56E1-4E4C-A49F-417409888236Q36980441-3FAC7056-99A9-476D-8819-553E254C2F20Q37415867-6A034502-1A39-44AC-8082-5F61D084CEC3Q37419973-A9656D4B-CC43-4BC3-9034-F4446465C3B7Q37559597-75A134FB-ABFB-4D1E-9779-29F7D00BA349Q38035209-1635F106-6B19-4FFC-A70B-FE6F082A17D8Q38062884-0D672F05-0116-485D-B0D8-09A96A7039A6Q38062891-7AFD7B39-ADB3-4676-989A-75333D364F43Q38103174-C3FF2A9C-705D-4B7B-B469-1B6174FDDAA7Q38127747-ED6A28B3-A992-40FF-B209-AB8CFF4BDF68Q38168377-05C0B9F5-88C5-4B18-AB3C-228BB29BCE1AQ38322466-F5C2A9B3-809A-44DA-B77A-F2B9052B3CA2Q38473948-D6EC4C15-7587-43DE-BE34-08313EBC2A91Q38542764-AC5BE710-B880-47FB-B5D5-4AB65EF5E17BQ38645695-96980382-07B9-402E-B187-6F6F61DCA523Q38804369-3E8DA01F-7D70-4AA9-87A9-BEBB19BF3A7BQ38842983-88A9113E-D4FF-4334-AEC7-7472D887A1CFQ38872171-ACD20518-CFAD-477E-9DF1-AF0D40180397Q39112952-CC7AD17E-02A0-40D2-B2EF-A82AA817D29AQ39289120-F868D8E2-492C-4E44-9AEA-1A85EE3D5EE1Q39340648-2C77E6C8-ED83-4A89-A16D-22D737E5B13FQ40868797-9A48AF93-F5F2-4802-AC6B-3661B3E39F3FQ44794686-28D382FC-D21D-4CDB-9928-BF045995F501Q52397658-3B6A4F62-000D-4C71-B752-407DD844D28FQ55553613-07D48344-9E9E-4A96-85F8-D58A23CB6D99
P2860
Prevention of metastasis in a 4T1 murine breast cancer model by doxorubicin carried by folate conjugated pH sensitive polymeric micelles.
description
2011 nî lūn-bûn
@nan
2011 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Prevention of metastasis in a ...... sensitive polymeric micelles.
@ast
Prevention of metastasis in a ...... sensitive polymeric micelles.
@en
type
label
Prevention of metastasis in a ...... sensitive polymeric micelles.
@ast
Prevention of metastasis in a ...... sensitive polymeric micelles.
@en
prefLabel
Prevention of metastasis in a ...... sensitive polymeric micelles.
@ast
Prevention of metastasis in a ...... sensitive polymeric micelles.
@en
P2093
P2860
P1476
Prevention of metastasis in a ...... sensitive polymeric micelles.
@en
P2093
P2860
P356
10.1016/J.JCONREL.2011.01.021
P407
P577
2011-02-02T00:00:00Z