Upconversion nanoparticles for photodynamic therapy and other cancer therapeutics
about
Upconversion nanoparticles: design, nanochemistry, and applications in theranosticsTargeted nanotechnology for cancer imaging.PLGA nanoparticle encapsulation reduces toxicity while retaining the therapeutic efficacy of EtNBS-PDT in vitroRecent Advances of Light-Mediated Theranostics.Recent Advances on Inorganic Nanoparticle-Based Cancer Therapeutic AgentsBeyond the Barriers of Light Penetration: Strategies, Perspectives and Possibilities for Photodynamic TherapyCurrent progress in gene delivery technology based on chemical methods and nano-carriersA new near infrared photosensitizing nanoplatform containing blue-emitting up-conversion nanoparticles and hypocrellin A for photodynamic therapy of cancer cells.In vitro photodynamic therapy based on magnetic-luminescent Gd2O3:Yb,Er nanoparticles with bright three-photon up-conversion fluorescence under near-infrared light.Perspectives on the application of nanotechnology in photodynamic therapy for the treatment of melanomaNovel ZnO:Ag nanocomposites induce significant oxidative stress in human fibroblast malignant melanoma (Ht144) cellsThree-dimensional controlled growth of monodisperse sub-50 nm heterogeneous nanocrystals.Silane modified upconversion nanoparticles with multifunctions: imaging, therapy and hypoxia detectionScintillating Nanoparticles as Energy Mediators for Enhanced Photodynamic TherapyPhotodynamic Therapy Induced Enhancement of Tumor Vasculature Permeability Using an Upconversion Nanoconstruct for Improved Intratumoral Nanoparticle Delivery in Deep TissuesTargeted photo-chemo therapy of malignancy on the chest wall while cardiopulmonary avoidance based on Fe3O4@ZnO nanocomposites.Nanoscintillator-mediated X-ray inducible photodynamic therapy for in vivo cancer treatment.Experimental demonstration of photon upconversion via cooperative energy pooling.Current advances in lanthanide ion (Ln(3+))-based upconversion nanomaterials for drug delivery.Stimuli-responsive cancer therapy based on nanoparticles.Potential nanotechnologies and molecular targets in the quest for efficient chemotherapy in ovarian cancer.Lanthanide-doped luminescent nano-bioprobes for the detection of tumor markers.Smart multifunctional drug delivery towards anticancer therapy harmonized in mesoporous nanoparticles.Nanocomposite-Based Photodynamic Therapy Strategies for Deep Tumor Treatment.Recent Advances in Upconversion Nanoparticles-Based Multifunctional Nanocomposites for Combined Cancer Therapy.Cancer drug delivery in the nano era: An overview and perspectives (Review)Efficacy Dependence of Photodynamic Therapy Mediated by Upconversion Nanoparticles: Subcellular Positioning and Irradiation Productivity.Overcoming the Achilles' heel of photodynamic therapy.Two-photon excitation nanoparticles for photodynamic therapy.Lanthanide Ion Doped Upconverting Nanoparticles: Synthesis, Structure and Properties.Photochemical internalization of bleomycin and temozolomide--in vitro studies on the glioma cell line F98.Erythrocyte membrane-coated NIR-triggered biomimetic nanovectors with programmed delivery for photodynamic therapy of cancer.On The Latest Three-Stage Development of Nanomedicines based on Upconversion Nanoparticles.Positron emission tomography and nanotechnology: A dynamic duo for cancer theranostics.Reactive oxygen species generating systems meeting challenges of photodynamic cancer therapy.Lanthanide-doped upconversion nanoparticles electrostatically coupled with photosensitizers for near-infrared-triggered photodynamic therapy.Multifunctional core-shell structured nanocarriers for synchronous tumor diagnosis and treatment in vivo.Recent applications of the combination of mesoporous silica nanoparticles with nucleic acids: development of bioresponsive devices, carriers and sensors.Dual antibacterial activities of a chitosan-modified upconversion photodynamic therapy system against drug-resistant bacteria in deep tissue.Neuroendocrine Tumor-Targeted Upconversion Nanoparticle-Based Micelles for Simultaneous NIR-Controlled Combination Chemotherapy and Photodynamic Therapy, and Fluorescence Imaging.
P2860
Q26830008-B24FF13C-5779-43BE-9477-9B1027F7E7DFQ27010317-EA49895D-75D8-4267-9646-A37F6802D873Q27348681-8A78396A-1398-4D35-9C99-E8A349C8C91FQ28077517-AAD109EC-F2B6-4DA8-A771-98B92F918D60Q28079607-8F3D24EB-CCAD-461A-81E7-F4FA109ACB48Q28079955-CB3D9964-E9E8-4C2E-9C99-F6EEA107C855Q28659480-AF058E26-03CE-4504-87AE-4368412D5554Q30678244-27483F2F-A576-4C2D-9D13-8FB8B9FC893AQ30988182-F966F2F2-0103-4958-ACD1-EA736BEAF8E7Q34123491-9020F0E0-621C-4F69-85DD-D7FC70E00B90Q35183270-28B447F4-22D9-4F31-AA85-0F0F9DDA3594Q35888418-23FFC2D4-B5FD-4B8B-A5C4-C3EFF7F63E6DQ35938952-6B7F0774-F6A8-4529-BEA7-6D21453D016AQ36839885-4EDBF328-D280-4EF0-A5EB-44B36672CD52Q36970360-D42F2FBD-8CBA-4B6D-A21E-E7A34F08CB16Q37392786-DDAAA779-E34D-40BD-905A-3AFD91FAE78CQ37584064-861FC71F-2E76-4D6D-9733-F19AE04313F5Q37707988-B9C2F9D3-4712-4A4F-BFD8-23FFAB6736FAQ38225630-471B43B6-9EB1-4DCB-A1CD-9CF8F11B4FB1Q38233457-47F6D152-770A-4C01-8F80-A59277A8D7E0Q38258602-7385DB1A-B7DE-460C-9035-5D6566151198Q38297320-FDF4079E-994B-4830-B43C-69AA1587DEFEQ38563960-9026E4E8-41D2-445D-AC40-A5F9F90A5806Q38591548-7869513F-4AFF-402D-B66A-2C8A2EC6A01FQ38617240-D26C316B-4920-404A-AB58-90CAE96B95D5Q38669454-20AD8241-5606-412E-81B3-6F6FBA7A30B7Q38773967-E0CB6355-B5FF-47FD-A909-06720281320DQ38813185-FC8DD379-FA6F-43E1-841D-37B39854CD06Q38814198-606DAD04-8A97-4B8D-9309-89DC92BC266FQ38848360-7FC6D3BD-0B7B-462C-B835-078E0FE08770Q38862359-3404B9E4-7D72-4D13-AC8C-E45B5BC682FFQ38876534-5A315EE3-42B5-4976-8E6F-51049F841358Q38887908-EEA15DFC-D057-4E7B-94F7-A859DDA16241Q38926681-D29A57B3-30E0-4C7C-BFE1-D8E523D49712Q38976861-151B68C5-76D5-4F87-AF91-05B52D116036Q38984326-112556AB-2D72-43D7-8698-743E7655B6B6Q39063392-DCAA4F77-3FCE-49F3-ABCD-FFEDDC2590D7Q39096024-89DC12FE-480F-4E44-9824-0764EE409825Q40307493-445BBE0A-C1F2-4827-B4EE-397B6660C50BQ42011249-B7246ADD-9BE1-4B02-9894-E03E076DBB45
P2860
Upconversion nanoparticles for photodynamic therapy and other cancer therapeutics
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
2013年论文
@zh
2013年论文
@zh-cn
name
Upconversion nanoparticles for photodynamic therapy and other cancer therapeutics
@ast
Upconversion nanoparticles for photodynamic therapy and other cancer therapeutics
@en
type
label
Upconversion nanoparticles for photodynamic therapy and other cancer therapeutics
@ast
Upconversion nanoparticles for photodynamic therapy and other cancer therapeutics
@en
prefLabel
Upconversion nanoparticles for photodynamic therapy and other cancer therapeutics
@ast
Upconversion nanoparticles for photodynamic therapy and other cancer therapeutics
@en
P2860
P921
P356
P1433
P1476
Upconversion nanoparticles for photodynamic therapy and other cancer therapeutics
@en
P2093
Liang Cheng
P2860
P304
P356
10.7150/THNO.5284
P5008
P577
2013-03-25T00:00:00Z