about
Elemental labelling combined with liquid chromatography inductively coupled plasma mass spectrometry for quantification of biomolecules: a reviewComparison of (64)Cu-complexing bifunctional chelators for radioimmunoconjugation: labeling efficiency, specific activity, and in vitro/in vivo stability.Tumor immunotargeting using innovative radionuclidesIsothiocyanate-Functionalized Bifunctional Chelates and fac-[M(I)(CO)3](+) (M = Re, (99m)Tc) Complexes for Targeting uPAR in Prostate CancerDeveloping Targeted Hybrid Imaging Probes by Chelator ScaffoldingPreparation of (111)In-DTPA morpholino oligomer for low abdominal accumulation.Underscoring the influence of inorganic chemistry on nuclear imaging with radiometals.Unexpected side products in the conjugation of an amine-derivatized morpholino oligomer with p-isothiocyanate benzyl DTPA and their removal.Matching the decay half-life with the biological half-life: ImmunoPET imaging with (44)Sc-labeled cetuximab Fab fragment.Synthesis and comparative biological evaluation of bifunctional ligands for radiotherapy applications of (90)Y and (177)Lu.86Y based PET radiopharmaceuticals: radiochemistry and biological applicationsEndothelial targeting of polymeric nanoparticles stably labeled with the PET imaging radioisotope iodine-124.Radioimmunoimaging with longer-lived positron-emitting radionuclides: potentials and challenges.Imaging, Biodistribution, and Dosimetry of Radionuclide-Labeled PD-L1 Antibody in an Immunocompetent Mouse Model of Breast Cancer.Application of aziridinium ring opening for preparation of optically active diamine and triamine analogues: Highly efficient synthesis and evaluation of DTPA-based MRI contrast enhancement agents.Biodistribution and fate of core-labeled 125I polymeric nanocarriers prepared by Flash NanoPrecipitation (FNP).Metallic radionuclides in the development of diagnostic and therapeutic radiopharmaceuticals.Clickable bifunctional radiometal chelates for peptide labelingUnconventional nuclides for radiopharmaceuticalsA practical guide to the construction of radiometallated bioconjugates for positron emission tomography.Radionuclide carriers for targeting of cancer."Click"-cyclized (68)Ga-labeled peptides for molecular imaging and therapy: synthesis and preliminary in vitro and in vivo evaluation in a melanoma model system.Immuno-PET for Clinical Theranostic Approaches.Radiolabeled Cetuximab Conjugates for EGFR Targeted Cancer Diagnostics and TherapyPeptides in receptor-mediated radiotherapy: from design to the clinical application in cancers.Improved synthesis and biological evaluation of chelator-modified α-MSH analogs prepared by copper-free click chemistry.Pharmacokinetics, microscale distribution, and dosimetry of alpha-emitter-labeled anti-PD-L1 antibodies in an immune competent transgenic breast cancer modelA comparative study of trans- and cis-isomers of a bone-seeking agent, DO2A2P.Human HER2 overexpressing mouse breast cancer cell lines derived from MMTV.f.HuHER2 mice: characterization and use in a model of metastatic breast cancer.What a difference a carbon makes: H₄octapa vs H₄C3octapa, ligands for In-111 and Lu-177 radiochemistry.A DOTA-peptide conjugate by copper-free click chemistry.Efficient route to pre-organized and linear polyaminopolycarboxylates: Cy-TTHA, Cy-DTPA and mono/di- reactive, tert-butyl protected TTHA/Cy-TTHA.Imaging of Programmed Cell Death Ligand 1: Impact of Protein Concentration on Distribution of Anti-PD-L1 SPECT Agents in an Immunocompetent Murine Model of Melanoma.Radiolabeling of a cyclic RGD (cyclo Arg-Gly-Asp-d-Tyr-Lys) peptide using sodium hypochlorite as an oxidizing agent.
P2860
Q26824092-24AED863-8FBC-4D81-B2AE-2A372A967EFDQ27339846-91BB9FE9-50F6-4365-B593-6F451C071D71Q28083230-F32F2185-6045-43C6-859E-21863C519970Q28821362-DB6F07B3-2230-403A-9BA9-8CE7044E9E6BQ33827092-2A326AB6-A135-42AB-9689-BA633AC6E2C6Q34014474-7DDF353B-8EE2-419D-BD81-415CFEE6659CQ34119201-1BBE3974-DB5A-4942-BE14-6415A119387EQ34644344-7E3E4B30-9699-4E31-AFBA-EFD6E5D9C5ABQ34764397-416E31CA-0AF4-4ED4-9CD2-C75C8CC56B7CQ35224087-0BCF9736-8E7C-4258-BFA3-B47223B01763Q35250409-069F422B-8207-48C5-8581-256EF4AE5EFBQ35973379-69780D03-1EC9-4408-AB63-FC1FB8D23A57Q36096813-2984191F-1A1B-4B3E-9B8A-9648045E871CQ36471252-6441419A-AB5E-4EE5-91FC-1E359336D685Q36688345-5E2FD908-A19F-4148-83C8-43CF32C18E1BQ36783691-B24A1FA8-DA1D-4899-AC49-FE666332E18EQ37026964-73705A5B-6A41-44E7-B42B-0B7498778E00Q37120660-B3427E1D-11C0-4071-88EF-64BA95811641Q37129181-12326F64-C6AD-4776-897D-5037414C2ED6Q37172093-BB090F52-E374-4296-8C52-307045AE328BQ37237705-0AE3176D-E2AB-476E-B4B5-6AD65CEF8463Q37237829-C758605F-5EAC-437F-93AD-BF515F817A28Q37631461-4358B6F9-68D0-4142-B779-562B1FB757FEQ37689802-1245D87C-38EC-4B9B-8FD6-EF780A7E7D84Q38149131-52C3D687-5377-43D7-8FAA-587C06F9E8DEQ38382330-1DCDABDB-41B8-45D2-B32F-FA2ABF420985Q38672855-B5F7B50F-D006-47B9-A206-DA213789AC5DQ39289259-7956764F-E2E3-4DEA-8452-D75BB0035E2BQ41776636-288048F3-B6A7-4532-85DF-F42D28166E29Q41845074-40E61D11-FFEB-410B-A59D-98BF6F9889BEQ42039958-2DDC8CD7-4C88-421F-BC1F-E10EAAE8BC0DQ49613737-E7AFD8DA-40C1-4FAE-9135-3D41054AFC53Q50636979-6469BF01-77E2-415C-8B1A-ACB9E2103B29Q51830759-F89381B7-909B-43EA-B287-A72543C6107C
P2860
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh
2007年學術文章
@zh-hant
name
Bifunctional chelates for metal nuclides.
@en
Bifunctional chelates for metal nuclides.
@nl
type
label
Bifunctional chelates for metal nuclides.
@en
Bifunctional chelates for metal nuclides.
@nl
prefLabel
Bifunctional chelates for metal nuclides.
@en
Bifunctional chelates for metal nuclides.
@nl
P2860
P1476
Bifunctional chelates for metal nuclides.
@en
P2093
M W Brechbiel
P2860
P304
P577
2007-11-28T00:00:00Z