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Nanogels as imaging agents for modalities spanning the electromagnetic spectrumPhysics of pure and non-pure positron emitters for PET: a review and a discussion68Ga-Based radiopharmaceuticals: production and application relationshipFuture Perspectives of Radionanomedicine Using the Novel Micelle-Encapsulation Method for Surface ModificationRadiolabeling of DOTA-like conjugated peptides with generator-produced (68)Ga and using NaCl-based cationic elution method.Feasibility of Multiple Examinations Using (68)Ga-Labelled Collagelin Analogues: Organ Distribution in Rat for Extrapolation to Human Organ and Whole-Body Radiation Dosimetry.Comparison of estimated human dose of (68)Ga-MAA with (99m)Tc-MAA based on rat data.Developing Targeted Hybrid Imaging Probes by Chelator ScaffoldingPositron emission tomography image-guided drug delivery: current status and future perspectives.Dosimetry of [(177)Lu]-DO3A-VS-Cys(40)-Exendin-4 - impact on the feasibility of insulinoma internal radiotherapy.Silica nanoparticles as substrates for chelator-free labeling of oxophilic radioisotopes.An iron-mimicking, Trojan horse-entering fungi--has the time come for molecular imaging of fungal infections?Rapid kit-based (68)Ga-labelling and PET imaging with THP-Tyr(3)-octreotate: a preliminary comparison with DOTA-Tyr(3)-octreotate68Ga and 188Re Starch-Based Microparticles as Theranostic Tool for the Hepatocellular Carcinoma: Radiolabeling and Preliminary In Vivo Rat StudiesNew Tris(hydroxypyridinone) Bifunctional Chelators Containing Isothiocyanate Groups Provide a Versatile Platform for Rapid One-Step Labeling and PET Imaging with (68)Ga(3.).Selected ⁶⁸Ga-siderophores versus ⁶⁸Ga-colloid and ⁶⁸Ga-citrate: biodistribution and small animal imaging in miceIn Vitro and In Vivo Comparison of Selected Ga-68 and Zr-89 Labelled Siderophores.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 agentSiderophores for molecular imaging applications.Hydroxypyridinone Chelators: From Iron Scavenging to Radiopharmaceuticals for PET Imaging with Gallium-68.Current Status of Radiopharmaceuticals for the Theranostics of Neuroendocrine Neoplasms.In Vivo Imaging of Experimental Melanoma Tumors using the Novel Radiotracer 68Ga-NODAGA-Procainamide (PCA).Vectors for the delivery of radiopharmaceuticals in cancer therapeutics.A nuclear chocolate box: the periodic table of nuclear medicine.Radiation oncology: physics advances that minimize morbidity.Continued rapid growth in (68) Ga applications: update 2013 to June 2014.Cyclotron production of (68)Ga via the (68)Zn(p,n)(68)Ga reaction in aqueous solution.Development of a (68)Ga-peptide tracer for PET GnRH1-imaging.Equilibrium, Kinetic and Structural Properties of Gallium(III) and Some Divalent Metal Complexes Formed with the New DATAm and DATA5m Ligands.[(68)Ga]FSC-(RGD)3 a trimeric RGD peptide for imaging αvβ3 integrin expression based on a novel siderophore derived chelating scaffold-synthesis and evaluation.68Ga-labeled cyclic NGR peptide for microPET imaging of CD13 receptor expression.Preparation and Biological Study of (68)Ga-DOTA-alendronate.68Ga-PSMA-PET/CT in Patients With Biochemical Prostate Cancer Recurrence and Negative 18F-Choline-PET/CTGMP-compliant (68)Ga radiolabelling in a conventional small-scale radiopharmacy: a feasible approach for routine clinical use.Preclinical Assessment of a 68Ga-DOTA-Functionalized Depsipeptide as a Radiodiagnostic Infection Imaging Agent.Radiolabeling and Preliminary Evaluation of Ga-68 Labeled NODAGA-Ubiquicidin Fragments for Prospective Infection Imaging.(68) Ga-labeled Ciprofloxacin Conjugates as Radiotracers for Targeting Bacterial Infection.Fully automated GMP production of [68Ga]Ga-DO3A-VS-Cys40-Exendin-4 for clinical use.Good manufacturing practice production of [(68)Ga]Ga-ABY-025 for HER2 specific breast cancer imaging.Radiosynthesis of clinical doses of ⁶⁸Ga-DOTATATE (GalioMedix™) and validation of organic-matrix-based ⁶⁸Ge/⁶⁸Ga generators.
P2860
Q26741393-6434961A-A03B-4E09-9E2F-E66182825B8EQ26748495-4C334BC9-721C-4CAA-BED0-A8D1A68377A6Q26801794-48A11066-57D9-4C4D-AA7B-60609B5FA26EQ27023692-FF9935EF-BFDD-4908-A77B-2DDBC3B54D72Q30314932-C3BA94DD-D4F2-46EA-AD3F-87B2E081275EQ30379281-A9D8180C-1F23-4964-B846-ACC03EB11AF9Q30978368-9DD36561-E21D-42EA-9F7C-8EF7BF2D9C04Q33827092-3C1A3EAA-0CAF-45A4-9414-3CDCB17217A8Q34446108-43BC6338-7D50-46BA-B58E-BB601E9354B5Q35402008-9F596495-9E12-4390-A545-D63FEE157A9CQ35537978-7F1122C3-8766-4909-B086-50B313D8C2C0Q35551518-9F63E000-012F-4BC4-B63D-3F1B21F65E1DQ36143456-3A88BDAC-D522-4B71-81BF-61C84D746597Q36163785-1DA5335A-BC72-4EE9-95A9-CA048EDEA327Q36595679-17645797-784A-45DA-B7D5-20BF3505677BQ36832801-018BC911-171D-434A-8D69-C7B42B17E4D1Q36909826-C25534AB-6125-4C80-9A27-814442CF4DCEQ37042800-F7486D68-C7E9-455B-8C05-19F3A3A6051AQ37609134-B396DF13-1E0B-4157-9F24-03F1E02A082AQ37631557-2C2222DA-1C7C-4648-B8FA-A7493FD3E313Q37731335-319BCF50-CBEA-45DB-A2E4-84A7817EAD63Q37738077-1DC3CBE8-A3C2-470B-885C-B2B40635D372Q38261959-5393858A-6CEE-488A-A314-F018AE8DB7F5Q38269216-B20F63DB-5C6F-4993-8304-D84A40D5F2C9Q38294588-77070727-03E8-475B-BDE7-11412A52B3F4Q38358666-EC0D443A-3CA9-41D7-AA7C-98FB566C6354Q38396735-997C9AF1-4E18-4535-A89D-A34B573898BAQ38777801-BD4B0045-7506-40D1-AD7B-59B13AD1C5CEQ38786041-A4C33FAC-F7E6-4181-BEE1-489D3CCFBAD2Q38933775-C4C195FC-FBD9-4F79-A59A-F1391AA3586AQ38968218-AE5F220E-CB27-49CA-92DC-B7BF0B509BD7Q39607584-A46EF957-F563-45B4-A648-4399ADD33744Q39922053-1622E950-62D7-450A-AD2D-778255C956E6Q40027060-81B4F24E-46FD-452E-A8AF-432935E42C67Q40081284-804AF660-F130-44DF-A9BA-E6610C846ABEQ40616136-8CD8DC17-1496-4F51-B3B5-1FCFC406F30EQ40878782-F0D630CC-145A-42C3-AEA5-F0508DB86F7FQ41019277-9BFE229F-D30F-4447-B333-BAB6F586EBC3Q41083360-DC58F72B-9AA9-49F0-B834-4A6F3096A80EQ41201900-C074D963-5B00-40E9-B285-87FC1BB78BE9
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 10 December 2013
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Prospective of ⁶⁸Ga-radiopharmaceutical development.
@en
Prospective of ⁶⁸Ga-radiopharmaceutical development.
@nl
type
label
Prospective of ⁶⁸Ga-radiopharmaceutical development.
@en
Prospective of ⁶⁸Ga-radiopharmaceutical development.
@nl
prefLabel
Prospective of ⁶⁸Ga-radiopharmaceutical development.
@en
Prospective of ⁶⁸Ga-radiopharmaceutical development.
@nl
P2860
P356
P1433
P1476
Prospective of ⁶⁸Ga-radiopharmaceutical development.
@en
P2093
Irina Velikyan
P2860
P356
10.7150/THNO.7447
P577
2013-12-10T00:00:00Z