Quantitative modeling of Cerenkov light production efficiency from medical radionuclides
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Versatile Nanosystem-Based Cancer Theranostics: Design Inspiration and Predetermined RoutingCerenkov luminescence imaging: physics principles and potential applications in biomedical sciences.Probability method for Cerenkov luminescence tomography based on conformance error minimizationQuantitative imaging of disease signatures through radioactive decay signal conversion.Clinical Cerenkov luminescence imaging of (18)F-FDGPositron emission tomographic imaging of copper 64- and gallium 68-labeled chelator conjugates of the somatostatin agonist tyr3-octreotate.Preliminary investigations on the determination of three-dimensional dose distributions using scintillator blocks and optical tomography.Molecular targeted α-particle therapy for oncologic applications.Cherenkov luminescence measurements with digital silicon photomultipliers: a feasibility study.Positron lymphography: multimodal, high-resolution, dynamic mapping and resection of lymph nodes after intradermal injection of 18F-FDG.Nuclear molecular imaging with nanoparticles: radiochemistry, applications and translation.Preliminary Therapy Evaluation of (225)Ac-DOTA-c(RGDyK) Demonstrates that Cerenkov Radiation Derived from (225)Ac Daughter Decay Can Be Detected by Optical Imaging for In Vivo Tumor Visualization.Optimization of microfluidic PET tracer synthesis with Cerenkov imaging.Cherenkov radiation fluence estimates in tissue for molecular imaging and therapy applications.Negative contrast Cerenkov luminescence imaging of blood vessels in a tumor mouse model using [68Ga]gallium chloride.Redshifted Cherenkov Radiation for in vivo Imaging: Coupling Cherenkov Radiation Energy Transfer to multiple Förster Resonance Energy Transfers.Cerenkov imaging - a new modality for molecular imagingEmerging advances in nanomedicine with engineered gold nanostructures.Review of biomedical Čerenkov luminescence imaging applications.Cerenkov Luminescence Imaging for Radiation Dose Calculation of a ⁹⁰Y-Labeled Gastrin-Releasing Peptide Receptor Antagonist.Utilizing the power of Cerenkov light with nanotechnology.A GAMOS plug-in for GEANT4 based Monte Carlo simulation of radiation-induced light transport in biological media.Near-Infrared Quantum Dot and 89Zr Dual-Labeled Nanoparticles for in Vivo Cerenkov Imaging.Optical emission of 223 Radium: in vitro and in vivo preclinical applications.Cerenkov Radiation-Induced Photoimmunotherapy with 18F-FDG.
P2860
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P2860
Quantitative modeling of Cerenkov light production efficiency from medical radionuclides
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2012 nî lūn-bûn
@nan
2012 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2012年の論文
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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
name
Quantitative modeling of Cerenkov light production efficiency from medical radionuclides
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Quantitative modeling of Cerenkov light production efficiency from medical radionuclides
@en
Quantitative modeling of Cerenkov light production efficiency from medical radionuclides
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Quantitative modeling of Cerenkov light production efficiency from medical radionuclides
@ast
Quantitative modeling of Cerenkov light production efficiency from medical radionuclides
@en
Quantitative modeling of Cerenkov light production efficiency from medical radionuclides
@nl
prefLabel
Quantitative modeling of Cerenkov light production efficiency from medical radionuclides
@ast
Quantitative modeling of Cerenkov light production efficiency from medical radionuclides
@en
Quantitative modeling of Cerenkov light production efficiency from medical radionuclides
@nl
P2093
P2860
P1433
P1476
Quantitative modeling of Cerenkov light production efficiency from medical radionuclides
@en
P2093
Andreas H Hielscher
Bradley J Beattie
Daniel L J Thorek
John L Humm
Keith S Pentlow
P2860
P304
P356
10.1371/JOURNAL.PONE.0031402
P407
P577
2012-02-20T00:00:00Z