Standardized methods for the production of high specific-activity zirconium-89. - Wikidata - wikimedia - TriplyDB

Standardized methods for the production of high specific-activity zirconium-89.

Standardized methods for the production of high specific-activity zirconium-89.

http://www.wikidata.org/entity/Q33685309

about

Targeting the internal epitope of prostate-specific membrane antigen with 89Zr-7E11 immuno-PET Tissue distribution studies of protein therapeutics using molecular probes: molecular imaging Targeting MT1-MMP as an ImmunoPET-Based Strategy for Imaging Gliomas Imaging and treating tumor vasculature with targeted radiolabeled carbon nanotubes A recommendation for revised dose calibrator measurement procedures for 89Zr and 124I Cerenkov luminescence imaging of medical isotopes.Development of a novel long-lived immunoPET tracer for monitoring lymphoma therapy in a humanized transgenic mouse model.Annotating STEAP1 regulation in prostate cancer with 89Zr immuno-PET Measuring the pharmacodynamic effects of a novel Hsp90 inhibitor on HER2/neu expression in mice using Zr-DFO-trastuzumab Chelate-free metal ion binding and heat-induced radiolabeling of iron oxide nanoparticles Alternative chelator for ⁸⁹Zr radiopharmaceuticals: radiolabeling and evaluation of 3,4,3-(LI-1,2-HOPO).Hybrid PET-optical imaging using targeted probes.Pairwise comparison of 89Zr- and 124I-labeled cG250 based on positron emission tomography imaging and nonlinear immunokinetic modeling: in vivo carbonic anhydrase IX receptor binding and internalization in mouse xenografts of clear-cell renal cell c Rational design, synthesis, and evaluation of tetrahydroxamic acid chelators for stable complexation of zirconium(IV)Underscoring the influence of inorganic chemistry on nuclear imaging with radiometals.89Zr-labeled dextran nanoparticles allow in vivo macrophage imaging.CDK9-mediated transcription elongation is required for MYC addiction in hepatocellular carcinoma Quantitative imaging of disease signatures through radioactive decay signal conversion.89Zr-DFO-J591 for immunoPET of prostate-specific membrane antigen expression in vivo.Inorganic chemistry in nuclear imaging and radiotherapy: current and future directions.Noninvasive Imaging of PSMA in prostate tumors with (89)Zr-Labeled huJ591 engineered antibody fragments: the faster alternatives Evaluation of (89)Zr-pertuzumab in Breast cancer xenografts.Applying PET to broaden the diagnostic utility of the clinically validated CA19.9 serum biomarker for oncology.Antagonism of EGFR and HER3 enhances the response to inhibitors of the PI3K-Akt pathway in triple-negative breast cancer.Intraoperative imaging of positron emission tomographic radiotracers using Cerenkov luminescence emissions.Imaging the L-type amino acid transporter-1 (LAT1) with Zr-89 immunoPET MicroPET imaging of integrin αvβ3 expressing tumors using 89Zr-RGD peptides.Modular strategy for the construction of radiometalated antibodies for positron emission tomography based on inverse electron demand Diels-Alder click chemistry.Novel (89)Zr cell labeling approach for PET-based cell trafficking studies The next generation of positron emission tomography radiopharmaceuticals in oncology.Positron emission tomography imaging of CD105 expression with 89Zr-Df-TRC105.(89)Zr-Oxine Complex PET Cell Imaging in Monitoring Cell-based Therapies Di-macrocyclic terephthalamide ligands as chelators for the PET radionuclide zirconium-89.Nanoparticles labeled with positron emitting nuclides: advantages, methods, and applications.In vivo biodistribution and accumulation of 89Zr in mice.Imaging androgen receptor signaling with a radiotracer targeting free prostate-specific antigen.ImmunoPET and near-infrared fluorescence imaging of CD105 expression using a monoclonal antibody dual-labeled with (89)Zr and IRDye 800CW.Evaluation of an [(18)F]AlF-NOTA Analog of Exendin-4 for Imaging of GLP-1 Receptor in Insulinoma Multimodality imaging of breast cancer experimental lung metastasis with bioluminescence and a monoclonal antibody dual-labeled with 89Zr and IRDye 800CW.Site-specifically labeled CA19.9-targeted immunoconjugates for the PET, NIRF, and multimodal PET/NIRF imaging of pancreatic cancer.

P2860

Q24633858-9B41B5A6-3312-492D-A722-4D9D15B18832 Q26865516-F35D39EC-6178-403B-A321-570BCC8832DD Q27335251-A2B4F9C0-A0C4-45DF-8850-3145C81DF88D Q28384090-751AA64B-75D4-49CB-87DD-EE99616D8EF0 Q28542889-11A41ACF-C71F-494E-ACA1-C7B2B289E2FA Q30499280-C10D1673-6753-40B7-B3E7-95366993AA30 Q30525314-A79758D4-7C8E-4522-AA8C-770D9F32AB7C Q30643770-7A697B0A-A195-444C-87DC-228B8486F609 Q33527397-4A474E48-BD58-48CE-AA7F-538C7546911A Q33691661-407DA1E7-C1DE-4D86-B13E-75C254864992 Q33761754-0D630B59-633F-4806-BD6C-C5084B9E2C8A Q33842703-AC9F3BD8-7836-4EE1-B42A-5D6FB86FE549 Q33995700-9848149D-C18C-4CC9-9B35-9F5A0E77CBB8 Q34009558-A33108D6-0ECF-433A-9CBC-2AB0F4CDF75D Q34119201-3F87BC82-56DA-4723-BCB5-05ECC373324F Q34228306-196FC32E-D7B5-4F2B-A951-F81DE0ED489C Q34342934-CB8D09CA-3411-4515-998E-B0D6AD379139 Q34369413-1EC14ADC-47B0-4BF5-8E28-6D8FDCA776D4 Q34389457-21077794-336E-4919-B735-2F41783BA9B3 Q34460892-EFA01B14-073D-41A8-894A-0F162BABF937 Q34473460-60F4E479-B536-4075-8728-C1308E301DF6 Q34473478-098E5AA3-AAC5-4AB0-BB08-80BA31DE16A2 Q34762185-15785180-E7DE-4DBE-B099-F754582C2F96 Q34813272-257B92D5-BC67-4B80-8294-79617DE94A03 Q34876852-6FA6BC36-8061-490A-9E65-1C46F00CAA16 Q35021768-3C08E281-9D53-4BF9-86DC-C3D5FE3F859F Q35109294-C44F8928-0065-4AAF-A6AD-312B56B28D97 Q35394166-5CC28178-B02C-42F8-8CD7-E0AAFDD9D11E Q35462110-0FDCE864-6C5F-4B8A-A7BC-9015DA5E42B8 Q35525690-83ECD66D-7DBA-48ED-99AA-361A2B19786E Q35587248-FDBFB104-3D3E-4242-825C-F072AC6EAE3C Q35684967-4B2A924C-60D8-41EB-948C-E09F84392C0B Q35865849-CFC8813D-35A1-461F-902E-92AB9BF491BE Q35897573-4278B133-8B6A-4196-B686-6581E441E0A6 Q35923622-B9585BD5-EBF2-4F31-9E3F-239AA13EFF38 Q35956405-4F386565-94D4-43CF-A379-A1020969CC4D Q36185354-BF9539DF-3BD1-4854-8ED2-96ADE7755B17 Q36383709-615791C8-B2CC-4A77-AD90-04DF47D57D72 Q36406701-04DDC8A5-F61A-4455-911D-F79AE6BD7A4F Q36435260-19EE4A9B-1052-459A-BAEB-E121573872B5

P2860

Standardized methods for the production of high specific-activity zirconium-89.

http://www.wikidata.org/entity/Q33685309

description

2009 nî lūn-bûn

@nan

2009 թուականի Յուլիսին հրատարակուած գիտական յօդուած

@hyw

2009 թվականի հուլիսին հրատարակված գիտական հոդված

@hy

2009年の論文

@ja

2009年学术文章

@wuu

2009年学术文章

@zh-cn

2009年学术文章

@zh-hans

2009年学术文章

@zh-my

2009年学术文章

@zh-sg

2009年學術文章

@yue

name

Standardized methods for the production of high specific-activity zirconium-89.

@ast

Standardized methods for the production of high specific-activity zirconium-89.

@en

type

label

Standardized methods for the production of high specific-activity zirconium-89.

@ast

Standardized methods for the production of high specific-activity zirconium-89.

@en

prefLabel

Standardized methods for the production of high specific-activity zirconium-89.

@ast

Standardized methods for the production of high specific-activity zirconium-89.

@en

P1433

Q33685309-A6A2C88D-A4A1-4317-AAA8-587A71075713

P1476

Q33685309-A784C256-8696-482E-9C50-A501508824EE

P2093

Q33685309-8CA590F4-5D57-435A-96F3-BD6D123FCBAD

P2860

Q33685309-08ABC287-603A-42D7-9DA0-665F89964082

Q33685309-1D1DDFEF-22AB-4F18-949F-FE0539018BEF

Q33685309-1E93CCA0-AC47-49F9-9C6F-20A254BF8DA9

Q33685309-206B6D20-FD5C-4EA0-BDDE-467506AC7BCF

Q33685309-21426C64-C578-42FF-A6AD-F7CA06185821

Q33685309-21967C42-4E8C-43C6-8A93-85DC01409AEB

Q33685309-296D346C-E0F6-4023-BD70-8D6079F15841

Q33685309-499555E7-21A2-4CB5-AD05-0DA437DDE7F5

Q33685309-542AC03F-309D-42E9-ACBC-3F95E44AA0F9

Q33685309-5EB3B456-43B8-45D6-B9B8-CE39C432973D

P304

Q33685309-5AF41F98-5395-430D-98BF-2ECA68669DBA

P31

Q33685309-37EF935F-2F34-4CC0-8B51-63493419E7DB

P356

Q33685309-EEFBEB32-6FE5-47B5-9FED-050AFF080807

P433

Q33685309-57F064AC-390C-4BEA-8B5E-E25142F494CE

P478

Q33685309-AA65AFA8-3D99-4AFD-83BF-27E1EE08B8D7

P50

Q33685309-39240454-7EEE-4B05-A22B-8822A6358FD9

Q33685309-D588B06C-929E-4BE1-BE49-B3243DEB64CF

P577

Q33685309-4C6BEE34-8452-4DAB-8F68-9FEF1407B9DD

P5875

Q33685309-DDBCFA8A-DD40-444D-A3B6-E2E6C9B5A9F0

P698

Q33685309-C11596EB-1175-4CC3-827D-A500358FB063

P932

Q33685309-2F7DBDEC-D9BE-449D-B754-B25154591D62

P356

J.NUCMEDBIO.2009.05.007

P1433

Nuclear Medicine and Biology

P1476

Standardized methods for the production of high specific-activity zirconium-89

@en

P2093

Yiauchung Sheh

http://www.w3.org/2001/XMLSchema#string

P2860

Development of radioimmunotherapeutic and diagnostic antibodies: an inside-out view.

89Zr immuno-PET: comprehensive procedures for the production of 89Zr-labeled monoclonal antibodies.

The promise of immuno-PET in radioimmunotherapy.

Radioimmunoimaging with longer-lived positron-emitting radionuclides: potentials and challenges.

Immuno-PET: a navigator in monoclonal antibody development and applications.

Production and separation of ''non-standard'' PET nuclides at a large cyclotron facility: the experiences at the Paul Scherrer Institute in Switzerland.

Routine quality control of clinical nuclear medicine instrumentation: a brief review.

Antibodies and antimatter: the resurgence of immuno-PET.

Performance measurement of the microPET focus 120 scanner.

Long-lived positron emitters zirconium-89 and iodine-124 for scouting of therapeutic radioimmunoconjugates with PET.

P304

729-739

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1016/J.NUCMEDBIO.2009.05.007

http://www.w3.org/2001/XMLSchema#string

P433

7

http://www.w3.org/2001/XMLSchema#string

P478

36

http://www.w3.org/2001/XMLSchema#string

P50

Jason P. Holland

P577

2009-07-29T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

26779979

http://www.w3.org/2001/XMLSchema#string

P698

19720285

http://www.w3.org/2001/XMLSchema#string

P932

2827875

http://www.w3.org/2001/XMLSchema#string