Real-time monitoring of in vivo acute necrotic cancer cell death induced by near infrared photoimmunotherapy using fluorescence lifetime imaging.
about
Photoimmunotherapy of gastric cancer peritoneal carcinomatosis in a mouse modelNear-infrared photoimmunotherapy: a comparison of light dosing schedules.Near infrared photoimmunotherapy in the treatment of disseminated peritoneal ovarian cancer.Near infrared photoimmunotherapy for lung metastases.Dual imaging-guided photothermal/photodynamic therapy using micellesQuantitative evaluation of malignant gliomas damage induced by photoactivation of IR700 dye.Real-time monitoring of microdistribution of antibody-photon absorber conjugates during photoimmunotherapy in vivo.In vivo validation of quantitative frequency domain fluorescence tomography.Mitochondria-targeted Triphenylamine Derivatives Activatable by Two-Photon Excitation for Triggering and Imaging Cell ApoptosisPhototheranostics of CD44-positive cell populations in triple negative breast cancer.Combination photoimmunotherapy with monoclonal antibodies recognizing different epitopes of human epidermal growth factor receptor 2: an assessment of phototherapeutic effect based on fluorescence molecular imagingMR imaging biomarkers for evaluating therapeutic effects shortly after near infrared photoimmunotherapy.Lowering photosensitizer doses and increasing fluences induce apoptosis in tumor bearing miceAlterations of filopodia by near infrared photoimmunotherapy: evaluation with 3D low-coherent quantitative phase microscopy.Near-infrared fluorescent probes in cancer imaging and therapy: an emerging field.Immunogenic cancer cell death selectively induced by near infrared photoimmunotherapy initiates host tumor immunity.Photoimmunotherapy: comparative effectiveness of two monoclonal antibodies targeting the epidermal growth factor receptor.Antibody-based imaging strategies for cancer.Selective Cell Elimination from Mixed 3D Culture Using a Near Infrared Photoimmunotherapy Technique.Cellular and Mitochondrial Dual-Targeted Organic Dots with Aggregation-Induced Emission Characteristics for Image-Guided Photodynamic Therapy.Analyzing abundance of mRNA molecules with a near-infrared fluorescence technique.Photoimmunotheranostic agents for triple-negative breast cancer diagnosis and therapy that can be activated on demand.Viral transduction of the HER2-extracellular domain expands trastuzumab-based photoimmunotherapy for HER2-negative breast cancer cells.Avoiding thermal injury during near-infrared photoimmunotherapy (NIR-PIT): the importance of NIR light power density.Molecular imaging of tumor photoimmunotherapy: Evidence of photosensitized tumor necrosis and hemodynamic changes.Monoclonal antibody-fluorescent probe conjugates for in vivo target-specific cancer imaging: toward clinical translation.Interstitial near-infrared photoimmunotherapy: effective treatment areas and light doses needed for use with fiber optic diffusers.
P2860
Q27324488-3477F1F7-D584-4B0E-95DC-DEAF8ED028AFQ33798738-BCBC08BB-CEA7-416B-9006-45C0327B9904Q34978414-26873BD3-6057-4A10-8B9E-F038D49C9E8BQ35869270-668F1480-AA03-40C6-AAC4-A931970ABDCEQ36057256-89774363-02FC-4349-BC5B-4D3C03516694Q36202012-21D466FE-78A4-44E0-9C3A-ABC0975D99D6Q36397548-6C5FD20A-1776-458E-9E88-BF6A424AB979Q36475311-EE97410D-4F35-4752-9E4C-2FE6738375E5Q36657146-1D821A68-D9EF-4A08-AAD6-21D410E43CFEQ37006182-42C7330B-E568-4E2B-AA70-715ABC1F841CQ37046550-68FC054C-94FC-4796-96C9-83B6449F3F98Q37086258-18503D51-215F-4F93-B084-FB143A06C0A5Q37103182-E7BC113C-295B-4133-8443-0CF35B554377Q37103203-582312FA-3C74-4C24-8C90-26BBAA2FEEF3Q37641848-FFCC7852-2A21-4C2E-AC2C-3A2932128743Q37705851-024E4BE4-DC07-4B7D-9E0D-9DF2C4CA9541Q37732381-A035D835-0E3B-4069-A9CD-CDE45315CB5DQ38218986-A35D6EF9-98E7-49BD-A1D6-2C35C1EBB4D5Q38782633-8F1F169A-C861-4854-A2CF-21980ED6DA15Q38826875-36046C24-9D6B-4101-8397-B68A13B49E82Q39299170-49BB0304-F199-494D-B542-819B8E7361C1Q40602973-26ABDE3E-BFB5-4973-AF86-D8A4F58CA3C5Q42174238-6884E899-FA57-4507-A670-06AE02E81E2CQ49164007-F6BFCA02-EFF7-48E2-915C-19619EA51E5AQ49385229-32847FFF-895B-4ECA-99AE-26D4C5E3FB2FQ51017246-F186B733-09C0-48D6-B2B6-2BE0B221C2BCQ55092129-3AC00874-8A96-480D-A6F3-15EC18DDF918
P2860
Real-time monitoring of in vivo acute necrotic cancer cell death induced by near infrared photoimmunotherapy using fluorescence lifetime imaging.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Real-time monitoring of in viv ...... fluorescence lifetime imaging.
@ast
Real-time monitoring of in viv ...... fluorescence lifetime imaging.
@en
type
label
Real-time monitoring of in viv ...... fluorescence lifetime imaging.
@ast
Real-time monitoring of in viv ...... fluorescence lifetime imaging.
@en
prefLabel
Real-time monitoring of in viv ...... fluorescence lifetime imaging.
@ast
Real-time monitoring of in viv ...... fluorescence lifetime imaging.
@en
P2093
P2860
P1433
P1476
Real-time monitoring of in viv ...... fluorescence lifetime imaging.
@en
P2093
Hisataka Kobayashi
Kohei Sano
Makoto Mitsunaga
Peter L Choyke
Takahito Nakajima
P2860
P304
P356
10.1158/0008-5472.CAN-12-1298
P407
P577
2012-07-16T00:00:00Z