Technetium and gallium derived radiopharmaceuticals: comparing and contrasting the chemistry of two important radiometals for the molecular imaging era.
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Clinical applications of Gallium-68Synthesis and characterization of tricarbonyl-Re/Tc(I) chelate probes targeting the G protein-coupled estrogen receptor GPER/GPR30Heteronuclear Gd-(99m)Tc Complex of DTPA-Bis(histidylamide) Conjugate as a Bimodal MR/SPECT Imaging Probe.Underscoring the influence of inorganic chemistry on nuclear imaging with radiometals.Complexes of an alpha thymosin derivative with ¹⁸⁵/¹⁸⁷Re and (⁹⁹m)Tc: structural analysis and initial biological evaluation.trans-K(3)[TcO(2)(CN)(4)].Inorganic chemistry in nuclear imaging and radiotherapy: current and future directions.Synthesis and evaluation of novel Tc-99m labeled probestin conjugates for imaging APN/CD13 expression in vivo.Metallic radionuclides in the development of diagnostic and therapeutic radiopharmaceuticals.Incorporation of gallium-68 into the crystal structure of Prussian blue to form K(68)GaxFe1-x[Fe(CN)6] nanoparticles: toward a novel bimodal PET/MRI imaging agentH(2)azapa: a versatile acyclic multifunctional chelator for (67)Ga, (64)Cu, (111)In, and (177)LuH(4)octapa-trastuzumab: versatile acyclic chelate system for 111In and 177Lu imaging and therapySynthesis and Biological Evaluation of a New Nitroimidazole-99mTc-Complex for Imaging of Hypoxia in Mice Model.Prospective of ⁶⁸Ga-radiopharmaceutical development.Radiometallated peptides for molecular imaging and targeted therapy.99mTc-centered one-pot synthesis for preparation of 99mTc radiotracers.Bisphosphonates as radionuclide carriers for imaging or systemic therapy.Methods for direct alkene diamination, new & old.Radiolabeled peptide-receptor ligands in tumor imaging.Matching chelators to radiometals for radiopharmaceuticals.Single amino acid chelate complexes of the M(CO)3 (+) core for correlating fluorescence and radioimaging studies (M = (99m) Tc or Re).Visualizing the atherosclerotic plaque: a chemical perspective.Radiometals: towards a new success story in nuclear imaging?Current advances in ligand design for inorganic positron emission tomography tracers (68)Ga, (64)Cu, (89)Zr and (44)Sc.Radiolabelled Polymeric Materials for Imaging and Treatment of Cancer: Quo Vadis?Ultrasmall particles for Gd-MRI and (68) Ga-PET dual imaging.COSAN as a molecular imaging platform: synthesis and "in vivo" imaging.(99m)Tc(N)-DBODC(5), a potential radiolabeled probe for SPECT of multidrug resistance: in vitro study.Comparative gallium-68 labeling of TRAP-, NOTA-, and DOTA-peptides: practical consequences for the future of gallium-68-PET.Design, synthesis and biological evaluation of choline based SPECT imaging agent: Ga(III)-DO3A-EA-Choline.Influence of the chelator structures on the stability of Re and Tc tricarbonyl complexes with iminodiacetic acid tridentate ligands: a computational study.Radiolabeling optimization and characterization of (68)Ga labeled DOTA-polyamido-amine dendrimer conjugate - Animal biodistribution and PET imaging results.(68) Ga-labeled Ciprofloxacin Conjugates as Radiotracers for Targeting Bacterial Infection.Rhenium and Technetium-oxo Complexes with Thioamide Derivatives of Pyridylhydrazine Bifunctional Chelators Conjugated to the Tumour Targeting Peptides Octreotate and Cyclic-RGDfK.Rhenium and technetium tricarbonyl, {M(CO)3} (+) (M = Tc, Re), binding to mammalian metallothioneins: new insights into chemical and radiopharmaceutical implications.What a difference a carbon makes: H₄octapa vs H₄C3octapa, ligands for In-111 and Lu-177 radiochemistry.One to chelate them all: investigation of a versatile, bifunctional chelator for 64Cu, 99mTc, Re and Co.Amino acid based gallium-68 chelators capable of radiolabeling at neutral pH.Re-thinking the role of radiometal isotopes: Towards a future concept for theranostic radiopharmaceuticals.Radiolabeling of folate targeted multifunctional conjugate with Technetium-99m and biodistribution studies in rats.
P2860
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P2860
Technetium and gallium derived radiopharmaceuticals: comparing and contrasting the chemistry of two important radiometals for the molecular imaging era.
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
Technetium and gallium derived ...... for the molecular imaging era.
@ast
Technetium and gallium derived ...... for the molecular imaging era.
@en
Technetium and gallium derived ...... for the molecular imaging era.
@nl
type
label
Technetium and gallium derived ...... for the molecular imaging era.
@ast
Technetium and gallium derived ...... for the molecular imaging era.
@en
Technetium and gallium derived ...... for the molecular imaging era.
@nl
prefLabel
Technetium and gallium derived ...... for the molecular imaging era.
@ast
Technetium and gallium derived ...... for the molecular imaging era.
@en
Technetium and gallium derived ...... for the molecular imaging era.
@nl
P2093
P356
P1433
P1476
Technetium and gallium derived ...... for the molecular imaging era
@en
P2093
Anika S Louie
John F Valliant
Jon Zubieta
P304
P356
10.1021/CR1000755
P577
2010-05-01T00:00:00Z