Targeted near-IR QDs-loaded micelles for cancer therapy and imaging.
about
Biosensors in Health Care: The Milestones Achieved in Their Development towards Lab-on-Chip-Analysis.Recent advances in application of biosensors in tissue engineeringSurface modified multifunctional nanomedicines for simultaneous imaging and therapy of cancer.Imaging and drug delivery using theranostic nanoparticlesQuantum Dot-Based Nanotools for Bioimaging, Diagnostics, and Drug Delivery.Nanoparticle-based theranostic agentsIn vivo NIR imaging with PbS quantum dots entrapped in biodegradable micelles.Current advances in polymer-based nanotheranostics for cancer treatment and diagnosisSpecific intracellular uptake of herceptin-conjugated CdSe/ZnS quantum dots into breast cancer cellsUtilization of monoclonal antibody-targeted nanomaterials in the treatment of cancer.A hyaluronic acid nanogel for photo-chemo theranostics of lung cancer with simultaneous light-responsive controlled release of doxorubicin.Nanotheranostics--a review of recent publications.Heparin based nanoparticles for cancer targeting and noninvasive imaging.One-step fabrication of polymeric Janus nanoparticles for drug deliveryBiodegradable micelles enhance the antiglioma activity of curcumin in vitro and in vivo.Quantum dot-based nanoprobes for in vivo targeted imaging.Molecular-targeted nanotherapies in cancer: enabling treatment specificity.Quantum dots in cancer therapy.Tapping the potential of quantum dots for personalized oncology: current status and future perspectives.Immunoconjugates and long circulating systems: origins, current state of the art and future directionsSurface-functionalized nanoparticles for biosensing and imaging-guided therapeutics.Graphene-based nanomaterials for nanobiotechnology and biomedical applications.Block copolymer nanoassemblies for photodynamic therapy and diagnosis.Entrapment in phospholipid vesicles quenches photoactivity of quantum dots.Magainin II modified polydiacetylene micelles for cancer therapy.In one harness: the interplay of cellular responses and subsequent cell fate after quantum dot uptake.Near infra-red photoluminescent graphene nanoparticles greatly expand their use in noninvasive biomedical imaging.Synthesis of NAC capped near infrared-emitting CdTeS alloyed quantum dots and application for in vivo early tumor imaging.Drug delivery and imaging with polydiacetylene micelles.Meta-analysis of cellular toxicity for cadmium-containing quantum dots.SERS and integrative imaging upon internalization of quantum dots into human oral epithelial cells.Interaction of TGA@CdTe Quantum Dots with an Extracellular Matrix of Haematococcus pluvialis Microalgae Detected Using Surface-Enhanced Raman Spectroscopy (SERS)Progress of Nanobiomaterials for Theranostic SystemsQuantum dot-loaded PEGylated poly(alkyl cyanoacrylate) nanoparticles for in vitro and in vivo imagingHybrid photoactive nanomaterial composed of gold nanoparticles, pheophorbide-A and hyaluronic acid as a targeted bimodal phototherapyA photosensitizer-conjugated magnetic iron oxide/gold hybrid nanoparticle as an activatable platform for photodynamic cancer therapyHerceptin conjugated PCL-PEG-PCL triblock copolymer for cancer targeting and imaging
P2860
Q26752712-EE1C15B5-30EF-4BCD-9908-1F83DF13CE44Q30432295-FCF5A57B-E5FE-4A99-89F0-B491E310AE3FQ30439353-9AA13F9C-3903-4456-9E3E-71F3F4632198Q30449480-8BC71120-8292-4353-BF47-7A008CF51A89Q31122176-97B84C71-055F-4F0C-93CB-DC521611B1A7Q34130095-C8FCC2C7-21CB-48AD-AD32-122CE110733DQ34139728-313C0AC4-6873-4A05-B6DB-F354D0B54CF6Q34783018-6FAB5373-59AC-4831-B503-FF7E517C4005Q35089775-B24C01CB-D830-4BC9-8FDD-D075C7A8E079Q35578037-52533E37-774C-487A-A66F-D9C15B4F6EF9Q35648261-D6C6143A-8371-4216-AEEF-2CE612CAE063Q36202859-073E9AA5-87E8-4E3C-8C44-445CF1854B57Q36394242-EF74F375-763A-4DC2-8370-0DFAC4ED8F2BQ36638801-36BDB16A-682D-41DC-A88B-8E487E0A2025Q37003820-B46EE86D-A88E-4B5B-BF5A-3CCA17A33C54Q37337213-A7F11C07-CB21-4FB6-A587-FEB58E3EB713Q37954497-8572D3AE-4E15-40E0-B042-B40A1157D467Q37968640-205C5DAD-D385-4F62-B6DE-08B612C30EDAQ37990022-7575F210-30B0-47F5-861D-37B70829597AQ38042256-4B86C617-0838-488B-B957-3AEDC6529B99Q38088165-15F76C8E-37DC-438C-A13E-A623EB558A64Q38145560-4E3BB0D0-2A7F-4329-B9F1-5BAD9251FE66Q38162493-D1E498DA-30BD-4699-BBE1-4DDF3F6B8A2AQ38417217-C5A0DDE5-913A-4897-8DCC-D57D8074E879Q38944026-3B87FC6B-9603-4D84-A6B8-870B79787EC3Q38952176-CE5B28FA-5A91-4539-B3FB-65D44A49B6CBQ39159343-E09D9926-D6B8-48A1-AB34-302E114386D0Q39373444-24BFC8A3-7E29-4A31-96DC-02C2A7577441Q39679695-F784CD5A-EB29-4E3E-8648-0C35345674E9Q39960471-789148E9-6D53-429D-BEA6-CE12FC9B95FEQ51354869-80C7326F-F989-44E9-BC6B-3D5BEC387E22Q57155464-83DA6150-8998-4D15-98A9-CF668F99A699Q57341103-F8F40808-7A52-48A7-93F1-6C18018EB49BQ57676504-8C26DAAD-55AC-4FFB-8413-C443007902DCQ57933623-D744D8FA-E4B7-4FC0-B6CF-EA6A6B224CD5Q57933630-0452E65C-2598-4E31-95A8-77E25219AF2FQ57933636-3060F147-2F47-4894-9A38-853897CF7732
P2860
Targeted near-IR QDs-loaded micelles for cancer therapy and imaging.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
2010年论文
@zh
2010年论文
@zh-cn
name
Targeted near-IR QDs-loaded micelles for cancer therapy and imaging.
@en
Targeted near-IR QDs-loaded micelles for cancer therapy and imaging.
@nl
type
label
Targeted near-IR QDs-loaded micelles for cancer therapy and imaging.
@en
Targeted near-IR QDs-loaded micelles for cancer therapy and imaging.
@nl
prefLabel
Targeted near-IR QDs-loaded micelles for cancer therapy and imaging.
@en
Targeted near-IR QDs-loaded micelles for cancer therapy and imaging.
@nl
P50
P1433
P1476
Targeted near-IR QDs-loaded micelles for cancer therapy and imaging
@en
P2093
Kwang Jae Cho
Yong-kyu Lee
P304
P356
10.1016/J.BIOMATERIALS.2010.03.057
P577
2010-04-20T00:00:00Z