Covalently linked Au nanoparticles to a viral vector: potential for combined photothermal and gene cancer therapy.
about
Hybrid nanoparticles for detection and treatment of cancerNanotechnology applications in urology: a reviewVirus-Based Nanoparticles as Versatile NanomachinesThermo-optical analysis and selection of the properties of absorbing nanoparticles for laser applications in cancer nanotechnology.Physical energy for drug delivery; poration, concentration and activation.Gold nanoparticles: From nanomedicine to nanosensing.In vivo fiber-based multicolor photoacoustic detection and photothermal purging of metastasis in sentinel lymph nodes targeted by nanoparticles.Golden carbon nanotubes as multimodal photoacoustic and photothermal high-contrast molecular agentsEnhanced optical breakdown in KB cells labeled with folate-targeted silver-dendrimer composite nanodevices.Advances in small animal mesentery models for in vivo flow cytometry, dynamic microscopy, and drug screeningPhotothermal flow cytometry in vitro for detection and imaging of individual moving cells.Thermal scalpel to target cancer.Laser-induced explosion of gold nanoparticles: potential role for nanophotothermolysis of cancer.Photothermal lens detection of gold nanoparticles: theory and experiments.Fabrication of ZnPc/protein nanohorns for double photodynamic and hyperthermic cancer phototherapy.LANTCET: elimination of solid tumor cells with photothermal bubbles generated around clusters of gold nanoparticles.Experimental and theoretical studies of light-to-heat conversion and collective heating effects in metal nanoparticle solutionsThe Photodynamic Effect of Different Size ZnO Nanoparticles on Cancer Cell Proliferation In VitroSynergistic Effect of Functionalized Nickel Nanoparticles and Quercetin on Inhibition of the SMMC-7721 Cells Proliferation.Zinc oxide nanoparticles for selective destruction of tumor cells and potential for drug delivery applications.Immuno gold nanocages with tailored optical properties for targeted photothermal destruction of cancer cells.Size- and time-dependent alteration in metabolic activities of human hepatic cytochrome P450 isozymes by gold nanoparticles via microsomal coincubationsBiocompatible conjugated polymer nanoparticles for efficient photothermal tumor therapy.Broadening the versatility of lentiviral vectors as a tool in nucleic acid research via genetic code expansionAn in vivo study of a gold nanocomposite biomaterial for vascular repairPhotothermal therapeutic application of gold nanorods-porphyrin-trastuzumab complexes in HER2-positive breast cancerBiomedical applications of plasmon resonant metal nanoparticles.Drug-loaded nanoparticle systems and adult stem cells: a potential marriage for the treatment of malignant glioma?Detecting and treating cancer with nanotechnology.Gold nanostructures as a platform for combinational therapy in future cancer therapeutics.Gastrin releasing protein receptor specific gold nanorods: breast and prostate tumor avid nanovectors for molecular imagingVirus-Surface-Mimicking Surface Clustering of AuNPs onto DNA-Entrapped Polymeric Nanoparticle for Enhanced Cellular Internalization and Nanocluster-Induced NIR Photothermal Therapy.Design of virus-based nanomaterials for medicine, biotechnology, and energy.Simultaneous enhancement of photothermal stability and gene delivery efficacy of gold nanorods using polyelectrolytesLimitations of Adenoviral Vector-Mediated Delivery of Gold Nanoparticles to Tumors for Hyperthermia Induction.Polymer-functionalized nanoparticles: from stealth viruses to biocompatible quantum dots.Virus engineering: functionalization and stabilization.The application of nanoparticles in gene therapy and magnetic resonance imaging.Bio-inspired, bioengineered and biomimetic drug delivery carriers.Gold and iron oxide hybrid nanocomposite materials.
P2860
Q26849404-8D7CDA83-12CF-43AD-8EFD-137B7FD51CE6Q27009446-0426A359-3080-4B1A-B553-3EB8A204E2A5Q28068538-3A465F8D-C82D-470B-8C97-830550ADF4D0Q30409640-66FE7ADA-6B65-4C3B-8940-7F1028AC14C9Q30412855-1F2C396F-DE63-46DE-806F-E36AFB5025E4Q30447539-7FD9679B-93FF-4093-8F5B-C966DD25FB8AQ30454388-654E5D03-6396-426F-901F-CF37EEFFA77FQ30454396-6D443AB5-942D-4357-88D8-47F084B0D52BQ30471052-7E5D7A4C-DD58-4DA7-B33B-F2370F692B0EQ33269368-A8FC7D3E-3B57-4CBA-839C-2138E61267D4Q33275538-EC4B5858-664D-418C-AD28-A9299DF127C2Q33278525-077FEF99-B745-4577-B2FE-C38E4143A41DQ33294986-8B24B0B0-7E3D-4927-81AA-16927A0EDAF9Q33306628-4728AB65-91F4-44D3-896E-516A6B4067B6Q33371687-0F331510-9549-4C43-9D62-20471FDD48B3Q33371962-9D4C2859-A3C0-4B96-8880-63582B8BB0E1Q33405583-7E1C7969-4510-43DC-A365-A5C8F58BFB9DQ33947386-448BBFF6-8DA8-4C71-94EA-AB4F3519DBA9Q33947419-0B851BF8-E19D-4E4C-B655-050577BFBB94Q34076571-5FC64942-DF32-4C38-95B8-FA1BB13269F5Q34578609-1B1F561A-AE9D-456A-B2DD-0A77BFC6F842Q34702776-16D04BB1-4B45-40F7-9394-1A1DA64E9A88Q35390454-2F9EEE7E-C811-4058-870E-B6F2F20F89D1Q35770576-11C5C9CE-0D20-4212-8E78-0A4DF1F27307Q35865191-597981A1-11F0-4462-BD58-02289DC33214Q36268850-5D96F892-5DF7-42EC-BAE1-1724E9C78813Q36917894-A56F88B3-4DB9-4A08-ABC7-62885E45ECBAQ37029367-02C2ECB5-4537-4805-9CFE-43BA6BB8A3F5Q37089855-EBCAF6D7-CD5C-48C3-B1F1-D97178D7C31BQ37129853-862CE9AF-3C1D-43A8-8D2A-9867C86AC70DQ37236396-8A6B3D9C-B98A-4747-BD03-45993A4D4996Q37279372-66EB1A8B-A80D-4086-996B-D46F099F21CBQ37346447-0ACA0E2B-9A9A-423E-9D57-CEA480EA35F8Q37404861-99844549-2F63-40DB-8FEF-03252CD07ABEQ37438361-6D9E557F-2017-4DA2-B5EC-A83C330AB977Q37643742-282BB8F5-6AF9-4A1F-AF49-7307F0E3B546Q37798083-B84C344A-3238-4493-B324-80BD18BDC133Q37864251-B5568459-BDB6-408C-972D-B6AC1B0E4CCFQ37896455-89FA1C37-1AFD-43CC-A57A-54FA12A3CCD9Q37950832-2C43778A-886B-4156-AFFF-DFE79205C65B
P2860
Covalently linked Au nanoparticles to a viral vector: potential for combined photothermal and gene cancer therapy.
description
2006 nî lūn-bûn
@nan
2006 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
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
name
Covalently linked Au nanoparti ...... ermal and gene cancer therapy.
@ast
Covalently linked Au nanoparti ...... ermal and gene cancer therapy.
@en
type
label
Covalently linked Au nanoparti ...... ermal and gene cancer therapy.
@ast
Covalently linked Au nanoparti ...... ermal and gene cancer therapy.
@en
prefLabel
Covalently linked Au nanoparti ...... ermal and gene cancer therapy.
@ast
Covalently linked Au nanoparti ...... ermal and gene cancer therapy.
@en
P2093
P50
P356
P1433
P1476
Covalently linked Au nanoparti ...... ermal and gene cancer therapy.
@en
P2093
C Leigh Millican
David E Nikles
Duane T Johnson
Guy Perkins
Hitesh Bagaria
Jennifer L Leddon
Joshua M Brown
Mariam Stoff-Khalili
Meredith A Preuss
Robbert J Kok
P304
P356
10.1021/NL0500555
P407
P577
2006-04-01T00:00:00Z