Safety and Tumor Specificity of Cetuximab-IRDye800 for Surgical Navigation in Head and Neck Cancer
about
Stromal Targets for Fluorescent-Guided Oncologic SurgeryBeyond the Barriers of Light Penetration: Strategies, Perspectives and Possibilities for Photodynamic TherapyReal-time near-infrared fluorescence imaging using cRGD-ZW800-1 for intraoperative visualization of multiple cancer types.In Vivo Activation of Duocarmycin-Antibody Conjugates by Near-Infrared LightDelta-Opioid Receptor (δOR) Targeted Near-Infrared Fluorescent Agent for Imaging of Lung Cancer: Synthesis and Evaluation In Vitro and In Vivo.Peptide-Based Optical uPAR Imaging for Surgery: In Vivo Testing of ICG-Glu-Glu-AE105A Bright Future for Precision Medicine: Advances in Fluorescent Chemical Probe Design and Their Clinical ApplicationCurrent and Emerging Clinical Applications of Multispectral Optoacoustic Tomography (MSOT) in OncologyConfocal laser endomicroscopy in head and neck malignancies using FITC-labelled EpCAM- and EGF-R-antibodies in cell lines and tumor biopsies.Intraoperative mapping of sentinel lymph node metastases using a clinically translated ultrasmall silica nanoparticleFluorescence imaging to localize head and neck squamous cell carcinoma for enhanced pathological assessment.Photonanomedicine: a convergence of photodynamic therapy and nanotechnology.Intraoperative imaging of folate receptor alpha positive ovarian and breast cancer using the tumor specific agent EC17Fluorescent Affibody Molecule Administered In Vivo at a Microdose Level Labels EGFR Expressing Glioma Tumor Regions.Determining the Performance of Fluorescence Molecular Imaging Devices Using Traceable Working Standards With SI Units of Radiance.uPAR-targeted optical near-infrared (NIR) fluorescence imaging and PET for image-guided surgery in head and neck cancer: proof-of-concept in orthotopic xenograft model.Diverse Applications of Nanomedicine.Label-free reflectance hyperspectral imaging for tumor margin assessment: a pilot study on surgical specimens of cancer patients.Current status and future perspectives of fluorescence-guided surgery for cancer.Hybrid intraoperative imaging techniques in radioguided surgery: present clinical applications and future outlook.Detection of Head and Neck Cancer in Surgical Specimens Using Quantitative Hyperspectral Imaging.Characterizing the detection threshold for optical imaging in surgical oncology.A Modular Dual Labeling Scaffold That Retains Agonistic Properties for Somatostatin Receptor Targeting.Sensitivity and Specificity of Cetuximab-IRDye800CW to Identify Regional Metastatic Disease in Head and Neck Cancer.Regulatory Aspects of Optical Methods and Exogenous Targets for Cancer Detection.Monoclonal antibody-based optical molecular imaging probes; considerations and caveats in chemistry, biology and pharmacology.Beyond the margins: real-time detection of cancer using targeted fluorophores.Optical Surgical Navigation for Precision in Tumor Resections.Trends in Surgical Research in Head and Neck Cancer.Harnessing Integrative Omics to Facilitate Molecular Imaging of the Human Epidermal Growth Factor Receptor Family for Precision Medicine.Sensitive in vivo Visualization of Breast Cancer Using Ratiometric Protease-activatable Fluorescent Imaging Agent, AVB-620.Selection of optimal molecular targets for tumor-specific imaging in pancreatic ductal adenocarcinoma.Urokinase-type plasminogen activator receptor (uPAR), tissue factor (TF) and epidermal growth factor receptor (EGFR): tumor expression patterns and prognostic value in oral cancer.In Search for Optimal Targets for Intraoperative Fluorescence Imaging of Peritoneal Metastasis From Colorectal Cancer.Characterizing the Utility and Limitations of Repurposing an Open-Field Optical Imaging Device for Fluorescence-Guided Surgery in Head and Neck Cancer Patients.Fluorescence detection, enumeration and characterization of single circulating cells <i>in vivo</i>: technology, applications and future prospects.Near-infrared-conjugated humanized anti-carcinoembryonic antigen antibody targets colon cancer in an orthotopic nude-mouse model.Folate receptor-targeted molecular imaging improves identification of malignancy during pulmonary resection: a case report.Improved resection and prolonged overall survival with PD-1-IRDye800CW fluorescence probe-guided surgery and PD-1 adjuvant immunotherapy in 4T1 mouse model.Development and evaluation of a connective tissue phantom model for subsurface visualization of cancers requiring wide local excision.
P2860
Q26774497-D41A6DD4-61AF-4722-941B-C966E9F368D1Q28079955-C49DB45F-7B01-430F-9479-32231B903E60Q33591441-9CD6A395-0034-43A3-84D4-D29FE857CA19Q33612435-0B8B85A2-2B51-4E80-94B0-5373F96C8FF2Q33925013-D7438747-B184-40D0-A7E9-7FC38030E8E5Q35909379-C1CB2FB6-51F8-475D-B136-306300104460Q35942615-23DE96E3-446A-47C5-A7D4-5245388470ECQ36025049-DC0B82EA-3C50-4A71-8768-B09658D63E5EQ36255253-6FEAFEC6-3236-438D-AF75-61AF537D7064Q36994123-04E23BB2-A25D-43A6-A823-76669858569EQ37002080-F94759E5-ECE2-4A8F-9317-63ED693DE57FQ37115994-D460C728-EF15-4851-BFD3-6AD057E8CEA5Q37362630-B50F07E4-FDDB-45AF-BBCC-B8A66B3BAA5CQ37553428-B9882326-00F2-4AC0-A008-02391805BA39Q37638369-2C1AEE48-BDF3-4D3C-84A4-3F3B578A31AEQ37716562-8A7A0BE7-326E-4CF7-8D8A-FA8289DDB27BQ37728142-1DCC8759-3857-4460-9457-FFE25BA91876Q38604233-71E11826-2354-438B-B9B7-963A0FF3AF31Q38633227-8A9B4770-D263-479B-8C75-85C7217A1926Q38643124-AF0E0E4F-D36F-4D46-BE8B-CB4E2E7FF2C2Q38671331-83BD370B-7D5D-428F-BFD3-20A8C8B2E028Q38699840-8119AF36-02DB-4FD0-8E38-B4BF41BA5091Q38749965-51D7A574-0DB5-4338-A465-5DA66810C051Q38818115-F3274B4D-9E0D-4D1E-8430-69235C9E1AF3Q38827744-A6AB6D2D-2E3D-4DDB-96B6-D360C42A0389Q38860216-36961AA4-0E37-438A-AD1A-5C2E053F9AFDQ39091749-4D888EA3-C4D0-4D96-9640-DCC61867A652Q39167489-3627A4CC-3DC2-4B37-BD19-3DAD16082ED2Q39333682-0C9A0F1B-D746-4865-B538-F412443E65C8Q39389369-2C397EDA-CEFC-4223-BACC-2AE5317D9835Q41239304-CCEDD554-AB3B-40C2-8912-6F1071AE621EQ41344580-F67DA44B-3BA5-4203-BA31-8660FCD1ADAFQ41542151-17310DFE-B4B1-4E74-91B6-3FBE8B49388CQ41560167-E00ED041-A097-44D2-928B-0DAD353307BDQ42324522-86836F88-17F4-40B0-AD62-86BB53E2624AQ45305333-C1DB2004-3B9B-48E2-A31D-0365B3012053Q46229896-50A1DA46-355A-4C65-B304-965A47E1484FQ47094497-0708737B-FF3A-42AC-A8A9-F527B40C43D3Q47160054-CF91F427-C8CA-4FC5-A13F-57687252A8CCQ47222617-CBA9F9F5-9215-4A45-9F1F-56AA4DCB1020
P2860
Safety and Tumor Specificity of Cetuximab-IRDye800 for Surgical Navigation in Head and Neck Cancer
description
2015 nî lūn-bûn
@nan
2015 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
Safety and Tumor Specificity o ...... gation in Head and Neck Cancer
@ast
Safety and Tumor Specificity o ...... gation in Head and Neck Cancer
@en
Safety and Tumor Specificity o ...... gation in Head and Neck Cancer
@nl
type
label
Safety and Tumor Specificity o ...... gation in Head and Neck Cancer
@ast
Safety and Tumor Specificity o ...... gation in Head and Neck Cancer
@en
Safety and Tumor Specificity o ...... gation in Head and Neck Cancer
@nl
prefLabel
Safety and Tumor Specificity o ...... gation in Head and Neck Cancer
@ast
Safety and Tumor Specificity o ...... gation in Head and Neck Cancer
@en
Safety and Tumor Specificity o ...... gation in Head and Neck Cancer
@nl
P2093
P2860
P50
P3181
P1476
Safety and Tumor Specificity o ...... gation in Head and Neck Cancer
@en
P2093
Anthony B Morlandt
Cecelia E Schmalbach
Eben L Rosenthal
Esther de Boer
Garima Agarwal
Jason M Warram
Joshua S Richman
Lisa K Clemons
Lisle M Nabell
Margie Brandwein-Gensler
P2860
P304
P3181
P356
10.1158/1078-0432.CCR-14-3284
P407
P577
2015-04-22T00:00:00Z