Imaging and photodynamic therapy: mechanisms, monitoring, and optimization.
about
Killing hypoxic cell populations in a 3D tumor model with EtNBS-PDTDeconvoluting heme biosynthesis to target blood-stage malaria parasitesBeyond the Barriers of Light Penetration: Strategies, Perspectives and Possibilities for Photodynamic TherapyPhotodynamic therapy: one step ahead with self-assembled nanoparticlesHybrid nanoparticles for combination therapy of cancerThe heme biosynthesis pathway is essential for Plasmodium falciparum development in mosquito stage but not in blood stagesEmerging applications of porphyrins in photomedicineEarly assessment of tumor response to photodynamic therapy using combined diffuse optical and diffuse correlation spectroscopy to predict treatment outcome.Controlled light field concentration through turbid biological membrane for phototherapy.Triphase interface synthesis of plasmonic gold bellflowers as near-infrared light mediated acoustic and thermal theranostics.Intraoperative optical imaging and tissue interrogation during urologic surgery.Prediction of tumor recurrence and therapy monitoring using ultrasound-guided photoacoustic imaging.Flow induces epithelial-mesenchymal transition, cellular heterogeneity and biomarker modulation in 3D ovarian cancer nodules.Shedding light on nanomedicine.Application of optical imaging and spectroscopy to radiation biologyUnique diagnostic and therapeutic roles of porphyrins and phthalocyanines in photodynamic therapy, imaging and theranosticsA way to stable, highly emissive fluorubine dyes: tuning the electronic properties of azaderivatives of pentacene by introducing substituted pyrazines.Multimodal interventional molecular imaging of tumor margins and distant metastases by targeting αvβ3 integrinPancreatic cancer-associated Cathepsin E as a drug activator.In vivo selective cancer-tracking gadolinium eradicator as new-generation photodynamic therapy agentBifunctional polypyridyl-Ru(II) complex grafted onto gadolinium-based nanoparticles for MR-imaging and photodynamic therapy.Photoinduced intercalation and coordination of a dirhodium complex to DNA: dual DNA binding.Water-Insoluble Photosensitizer Nanocolloids Stabilized by Supramolecular Interfacial Assembly towards Photodynamic Therapy.Methylene blue photodynamic therapy induces selective and massive cell death in human breast cancer cells.Dual stimuli polysaccharide nanovesicles for conjugated and physically loaded doxorubicin delivery in breast cancer cells.A Theranostic Agent Combining a Two-Photon-Absorbing Photosensitizer for Photodynamic Therapy and a Gadolinium(III) Complex for MRI Detection.Low-cost photodynamic therapy devices for global health settings: Characterization of battery-powered LED performance and smartphone imaging in 3D tumor modelsDesign of Tumor Acidity-Responsive Sheddable Nanoparticles for Fluorescence/Magnetic Resonance Imaging-Guided Photodynamic TherapyA tissue factor-cascade-targeted strategy to tumor vasculature: a combination of EGFP-EGF1 conjugation nanoparticles with photodynamic therapy.Photoexpulsion of surface-grafted ruthenium complexes and subsequent release of cytotoxic cargos to cancer cells from mesoporous silica nanoparticles.Image-guided combination chemotherapy and photodynamic therapy using a mitochondria-targeted molecular probe with aggregation-induced emission characteristicsA supramolecular nanovehicle toward systematic, targeted cancer and tumor therapy.Controllable Photodynamic Therapy Implemented by Regulating Singlet Oxygen EfficiencySynthesis, photophysical, electrochemical, tumor-imaging, and phototherapeutic properties of purpurinimide-N-substituted cyanine dyes joined with variable lengths of linkersPhotosensitizer-doped conjugated polymer nanoparticles for simultaneous two-photon imaging and two-photon photodynamic therapy in living cells.Verteporfin-based photodynamic therapy overcomes gemcitabine insensitivity in a panel of pancreatic cancer cell lines.Liposomal nanostructures for photosensitizer delivery.Reaction of the m-THPC triplet state with the antioxidant Trolox and the anesthetic Propofol: modulation of photosensitization mechanisms relevant to photodynamic therapy?Combination of oral vitamin D3 with photodynamic therapy enhances tumor cell death in a murine model of cutaneous squamous cell carcinoma.Distribution of phthalocyanines and Raman reporters in human cancerous and noncancerous breast tissue as studied by Raman imaging.
P2860
Q27324380-5DC6B02D-71A7-4C1D-AD89-3CB1B8EE2F16Q27973107-6C909064-5E48-4083-93BF-A66D019077F7Q28079955-4568D2AD-E8B8-4326-8C3B-7636D947FC86Q28083513-56E60365-E6DA-41BE-80BC-75EF77CF204EQ28086815-7F0693AD-62C3-40C2-AC4D-776B4B0E302AQ30040508-E69F7A6D-3044-4E6B-8247-D225413E9D67Q30355707-6B015ABF-042E-4C64-9FBF-07A943A7F536Q30358075-F73B5B19-C065-471A-BD15-DA74D1B47D8FQ30408510-2829D6B5-15AA-4EAB-B589-F3FD80B9AAC3Q30411585-EE2B8F67-2E48-495C-A02D-82EAB3F7E320Q30421672-EBE05B39-DCF7-48D8-90A6-0778AEED08CEQ30422124-FF3ADD4C-03CE-4665-974C-FB345FB53E54Q30446755-84533845-F5E2-43C6-AC0D-A501C6101AD7Q30447871-DCBCC012-9F49-409B-9CAB-AA3DF04797D5Q30455958-D416063E-12A3-4CEF-8855-6C53E63EEC3EQ30462417-96446EDA-2F5A-49FF-881F-4AB93972612FQ30485356-B82D133F-238B-4F09-8405-8CCC332E81F3Q30528396-F1974588-89F0-4508-8FC2-F17972B1F37BQ30539289-DC96F7E6-46A8-4074-9DF9-C5F7555F08C1Q30612171-D74687A9-2CF3-4343-B411-6F76147876C6Q30655635-62714759-DF65-4986-B1B0-E4012462635DQ30806098-D33DC319-74FD-422B-B14A-73E39C9532F1Q30839743-579F0ED7-2907-401B-BC7F-61E78FADAD74Q30842073-F9B27922-7B7F-47F9-BEAB-2DA26419B4AAQ30913776-CB8BBB3B-5F26-4C6D-82EB-A85CD7CC7198Q31038537-EDBB04E1-D5C5-4145-8170-A4B784D08159Q33443634-FB5C1A8D-95F6-4224-8B67-63F48B5599DAQ33588234-8B98DF33-A7CE-402D-9ACC-934672EE51C8Q33762064-EB087F16-A734-4EF5-8B23-3AFF171FE060Q33862903-944D6F02-B8C3-4BFB-BEB1-9B7131838ABFQ33882184-1D4D9476-B3C3-4AD0-A989-3C88975C85ADQ33893363-17EC91CC-8E50-4282-914C-6A7406DC181CQ33914878-00B7389C-5185-459F-9788-B415D47348ABQ34045232-A7C8D6E5-B5FE-492B-B33A-6B5DC47B1613Q34061666-ED4D6AE3-BC4F-42E7-8FCD-6754BA0D1770Q34068126-8C7FD7D1-B1A4-4B7A-A8B2-7CEA124E7BF7Q34068206-6A7412E6-4EE2-4347-900A-D90AB63531BEQ34151225-1D3CCC7F-DE7D-4CDE-8DC3-DAA2DB8943DAQ34293524-EBABED0E-7217-4A87-9F12-E6CEFA2D9D06Q34308872-6B4DA741-8138-4F43-93C3-060F07EA3EE0
P2860
Imaging and photodynamic therapy: mechanisms, monitoring, and optimization.
description
2010 nî lūn-bûn
@nan
2010 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի մայիսին հրատարակված գիտական հոդված
@hy
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
name
Imaging and photodynamic therapy: mechanisms, monitoring, and optimization.
@ast
Imaging and photodynamic therapy: mechanisms, monitoring, and optimization.
@en
type
label
Imaging and photodynamic therapy: mechanisms, monitoring, and optimization.
@ast
Imaging and photodynamic therapy: mechanisms, monitoring, and optimization.
@en
prefLabel
Imaging and photodynamic therapy: mechanisms, monitoring, and optimization.
@ast
Imaging and photodynamic therapy: mechanisms, monitoring, and optimization.
@en
P2093
P2860
P50
P356
P1433
P1476
Imaging and photodynamic therapy: mechanisms, monitoring, and optimization.
@en
P2093
Bryan Q Spring
Conor L Evans
Jonathan P Celli
Kimberley S Samkoe
Sarika Verma
Tayyaba Hasan
P2860
P304
P356
10.1021/CR900300P
P577
2010-05-01T00:00:00Z