Development of multifunctional nanoparticles for targeted drug delivery and noninvasive imaging of therapeutic effect.
about
Toxicology of nanomaterials used in nanomedicineInterventional Nanotheranostics of Pancreatic Ductal AdenocarcinomaRibosome-inactivating proteins: from plant defense to tumor attackAn introduction to molecular imaging in radiation oncology: a report by the AAPM Working Group on Molecular Imaging in Radiation Oncology (WGMIR)Rapid Detection Strategies for the Global Threat of Zika Virus: Current State, New Hypotheses, and LimitationsToxic effects of iron oxide nanoparticles on human umbilical vein endothelial cellsNanotechnology-Based Drug Delivery Systems for Melanoma Antitumoral Therapy: A ReviewFunctionalized magnetic nanowires for chemical and magneto-mechanical induction of cancer cell deathCarbon nanomaterials combined with metal nanoparticles for theranostic applications.Stimuli-Responsive Materials for Controlled Release of Theranostic Agents.Surface modified multifunctional nanomedicines for simultaneous imaging and therapy of cancer.Integration of biosensors and drug delivery technologies for early detection and chronic management of illnessCell-specific transmembrane injection of molecular cargo with gold nanoparticle-generated transient plasmonic nanobubbles.Plasmonic nanobubble-enhanced endosomal escape processes for selective and guided intracellular delivery of chemotherapy to drug-resistant cancer cells.Improved cellular specificity of plasmonic nanobubbles versus nanoparticles in heterogeneous cell systems.Magnetomotive molecular nanoprobes.The in vivo performance of plasmonic nanobubbles as cell theranostic agents in zebrafish hosting prostate cancer xenograftsTunable plasmonic nanobubbles for cell theranosticsPlasmonic nanobubbles as tunable cellular probes for cancer theranosticsImpact of hydrogel nanoparticle size and functionalization on in vivo behavior for lung imaging and therapeuticsRadiofrequency field-induced thermal cytotoxicity in cancer cells treated with fluorescent nanoparticlesTargeted drug delivery in pancreatic cancerPolysilsesquioxane nanoparticles for targeted platin-based cancer chemotherapy by triggered releaseMagnetic iron oxide nanoparticles for biomedical applications.Nanoparticle-mediated systemic delivery of siRNA for treatment of cancers and viral infections.Self-assembled Targeting of Cancer Cells by Iron(III)-doped, Silica NanoparticlesTargeted delivery of a cisplatin prodrug for safer and more effective prostate cancer therapy in vivo.Smart multifunctional nanostructure for targeted cancer chemotherapy and magnetic resonance imaging.Multifunctional, stimuli-sensitive nanoparticulate systems for drug deliveryFacile synthesis of biocompatible gold nanoparticles from Vites vinefera and its cellular internalization against HBL-100 cells.Peptide-mediated targeting of liposomes to TrkB receptor-expressing cells.Targeted nanoparticles for image-guided treatment of triple-negative breast cancer: clinical significance and technological advancesThe nanomedicine revolution: part 1: emerging concepts.The nanomedicine revolution: part 3: regulatory and safety challenges.Advanced materials and processing for drug delivery: the past and the future.Interaction of cowpea mosaic virus nanoparticles with surface vimentin and inflammatory cells in atherosclerotic lesions.Superparamagnetic iron oxide nanoparticles: amplifying ROS stress to improve anticancer drug efficacy.Nanotechnology and Pediatric Cancer: Prevention, Diagnosis and TreatmentExperimental design and instability analysis of coaxial electrospray process for microencapsulation of drugs and imaging agents.Nanomaterial standards for efficacy and toxicity assessment.
P2860
Q23914977-118C8FDB-6785-4E33-B9A5-272F113E7923Q26744830-A479AB81-2C94-4C64-9ACE-96A8CCE29380Q26828935-1F653414-DD8E-40FE-996E-59C45871505CQ27002845-0EAD3DDC-B4A7-4445-A107-28113488CE30Q27928011-D7530EFD-E011-4B41-9611-BB5DCA92EB90Q28383790-B138B660-8547-4DD2-9CA9-E5C6D5329936Q28394719-364D3339-263A-40F3-8AAD-38EBF0DD300AQ28821261-EC54BBF3-783E-4A79-9635-BCEFA4847F23Q30392147-C8237934-63A5-4E18-B5C7-B6910804AEFEQ30406730-4C7A1437-BEC7-49AF-8E8A-27FA62AEC5EBQ30439353-51999792-E9AE-44F5-B734-4107C38002F6Q30451853-309DEE4D-8472-452B-966E-3E68E230C732Q30452811-6236D366-BDAF-43A2-B034-569D23B3B9A1Q30458534-1D27D8A2-42C3-428C-AF8B-40177E935C34Q30468502-EAB30D8C-8339-482B-8416-BD51093501B2Q30468740-6D272404-4CCA-48E9-BF13-0A56740D674DQ30473892-601C7FD8-52E9-4BDF-BFA2-064EF8B01FADQ30475863-207511AD-73EE-4D0B-86F3-076B70079293Q30476207-251EB936-D071-435C-BCA5-624B00B48446Q33583948-1EB08303-FED6-42FA-8F38-76EA02586C0DQ33610377-5BE4DAF1-CA27-4387-9566-B3CE9166614CQ33625651-486A9839-0017-4FEC-876C-5937354C6E50Q33693052-30AA9519-8BBD-4FC5-992A-C87B08EB5635Q33852478-7D05A854-EFC7-462A-8FA5-1F591266A4B1Q33935474-A9365B4D-87FD-4120-9356-3369402C69FEQ34427093-915D3732-8DE3-45B2-BFC8-CAF3F95A85E3Q34550075-D9CDE129-B0A9-485C-B2E2-A788DF7B74FBQ35590324-ADB1C7C9-187B-401E-A027-ACB6DB27877EQ35809872-AD101559-FFBD-48A6-9F6A-73DC3FD7D64CQ35979600-E2CC2A4D-EE96-4FB2-9BAB-731D915A3EB8Q36119579-EE3AAC7B-B503-4CAF-8F09-B109948CB90EQ36157045-58677644-2A29-465B-BDE4-12258C3C0B35Q36292618-1FB8D85D-0D32-4086-B566-C17FEAC03593Q36401768-7AEC5055-CD95-4978-8277-6AABA517CDE6Q36589333-5B944B20-9DB6-4C02-9AE0-4967A8E28553Q36596084-BAF235EE-EDDC-4250-B078-DBD60BA145CCQ36619072-2E854E93-F181-43D4-9038-51FF6268857AQ36654099-623AD686-DA56-4A48-B121-5D86FD6FE838Q37034796-2A232550-D7E9-490C-8D55-850063FDD236Q37668451-FECD4970-661D-442E-B9AB-FCC37831A44D
P2860
Development of multifunctional nanoparticles for targeted drug delivery and noninvasive imaging of therapeutic effect.
description
2009 nî lūn-bûn
@nan
2009 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի մարտին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Development of multifunctional ...... imaging of therapeutic effect.
@ast
Development of multifunctional ...... imaging of therapeutic effect.
@en
type
label
Development of multifunctional ...... imaging of therapeutic effect.
@ast
Development of multifunctional ...... imaging of therapeutic effect.
@en
prefLabel
Development of multifunctional ...... imaging of therapeutic effect.
@ast
Development of multifunctional ...... imaging of therapeutic effect.
@en
P2093
P2860
P1476
Development of multifunctional ...... imaging of therapeutic effect.
@en
P2093
Hari Krishna Sajja
Michael P East
Shuming Nie
Y Andrew Wang
P2860
P356
10.2174/157016309787581066
P577
2009-03-01T00:00:00Z