A novel technology for the imaging of acidic prostate tumors by positron emission tomography.
about
Molecular Connections between Cancer Cell Metabolism and the Tumor MicroenvironmentEvaluating pH in the Extracellular Tumor Microenvironment Using CEST MRI and Other Imaging MethodsA "Smart" ¹²⁸Xe NMR Biosensor for pH-Dependent Cell LabelingImproved pH measurements with a single PARACEST MRI contrast agentSonophoric nanoprobe aided pH measurement in vivo using photoacoustic spectroscopy.Accurate analysis of tumor margins using a fluorescent pH Low Insertion Peptide (pHLIP)Evaluations of extracellular pH within in vivo tumors using acidoCEST MRIUnderstanding the pharmacological properties of a metabolic PET tracer in prostate cancerpH (low) insertion peptide (pHLIP) inserts across a lipid bilayer as a helix and exits by a different path.Helix insertion into bilayers and the evolution of membrane proteins.Aspartate embedding depth affects pHLIP's insertion pKa.Targeting breast tumors with pH (low) insertion peptidespH-titratable superparamagnetic iron oxide for improved nanoparticle accumulation in acidic tumor microenvironments.Radioiodinated phenylalkyl malonic acid derivatives as pH-sensitive SPECT tracers.pH-(low)-insertion-peptide (pHLIP) translocation of membrane impermeable phalloidin toxin inhibits cancer cell proliferation.pHLIP-FIRE, a cell insertion-triggered fluorescent probe for imaging tumors demonstrates targeted cargo delivery in vivo.Family of pH (low) insertion peptides for tumor targeting.PET-specific parameters and radiotracers in theoretical tumour modelling.Widefield optical imaging of changes in uptake of glucose and tissue extracellular pH in head and neck cancer.Roles of carboxyl groups in the transmembrane insertion of peptidesMeasuring tumor aggressiveness and targeting metastatic lesions with fluorescent pHLIP.pH-controlled delivery of luminescent europium coated nanoparticles into platelets.Inhibition of cancer cell proliferation and breast tumor targeting of pHLIP-monomethyl auristatin E conjugates.Modulation of the pHLIP transmembrane helix insertion pathway.Residue-specific structures and membrane locations of pH-low insertion peptide by solid-state nuclear magnetic resonanceThe pH low insertion peptide pHLIP Variant 3 as a novel marker of acidic malignant lesionsMembrane physical properties influence transmembrane helix formation.pH-Sensitive polymeric micelle-based pH probe for detecting and imaging acidic biological environmentsStimuli-responsive nanoparticles for targeting the tumor microenvironment.Advanced targeted nanomedicinepH-sensitive membrane peptides (pHLIPs) as a novel class of delivery agents.A comparison of iopromide and iopamidol, two acidoCEST MRI contrast media that measure tumor extracellular pH.pHLIP-mediated targeting of truncated tissue factor to tumor vessels causes vascular occlusion and impairs tumor growthpH (low) insertion peptide (pHLIP) targets ischemic myocardium.pHLIP peptide targets nanogold particles to tumorsRecent Advances in Targeting Tumor Energy Metabolism with Tumor Acidosis as a Biomarker of Drug Efficacy.Dynamic nuclear polarization of biocompatible (13)C-enriched carbonates for in vivo pH imagingEvaluations of Tumor Acidosis Within In Vivo Tumor Models Using Parametric Maps Generated with Acido CEST MRIMembrane binding and insertion of a pHLIP peptide studied by all-atom molecular dynamics simulations.Probe for the measurement of cell surface pH in vivo and ex vivo.
P2860
Q28081657-A987D3FE-9A79-4270-9795-B72AD78DB521Q28821895-D2925F28-D816-4C38-8D66-94BE7FBD2826Q28831191-0BF8F724-EE79-4DB4-BD89-1B7F54AEDF9EQ28833257-B8781A62-C5B3-41C3-86C4-6427FA208AE3Q30434273-8327553A-3D43-42B1-B4C8-DDBC68EA4821Q33616408-4EB95676-5F29-46D3-B985-3E8B3348A0DEQ33663027-E5E10289-9627-4343-AF91-AFD0C765598AQ33665586-BD9C720C-1814-4734-8DF1-842FF0EE280EQ33733052-1CB7557C-A582-4B27-98F5-31747058EFBEQ33822760-EADC9BB6-4E4C-4FC1-8B48-A21DB664EF79Q33822792-8724F71B-5A7B-4662-8413-BB491001222DQ34011123-3AD2814E-B075-46A6-8F25-CC9CDEA1FFE1Q34061003-8402E61B-9823-493C-9C5D-8F389F1C91E3Q34311896-7B97D12F-CE58-4554-BDE1-2E59A7BC9229Q34377276-D72CBC68-F4C0-4C8A-A128-C0FEC12B9DB5Q34576257-A794B774-D395-410B-A3D6-F72A45901F0DQ34636230-989D1102-0A9A-4CBC-A61A-D256673E07CCQ35151586-AB82BB51-A743-42DB-B803-7A47D00C0466Q35349316-93587C14-107F-435B-8931-DC66937935C7Q35350460-2C004DDA-CBA7-447E-ACA6-1279758E0FCCQ35582969-D3D44E06-CB44-4C50-BC4E-4C70C7A59ADDQ35750866-578EF6A2-E1AE-4B19-8428-4FD6E54CCF7EQ35765517-ACA08551-2948-4C1D-A852-10B451CD25CEQ35895103-4D359BB6-761D-4F4F-BF1A-DAC217FCD162Q35898462-1F6A5490-C5B8-4B94-BBB2-2BD802FEE830Q35946329-46591FA6-4E9E-49E9-8B45-A6C7587C904DQ36221792-CD2E69EE-37ED-4EF4-BECD-3EB77259D480Q36223337-0A03BDDC-F931-465B-B2C1-2568A3F2F89CQ36307519-7B5CA0BA-6213-4AF8-8B59-79DFBED26EF8Q36388931-32AE7925-9044-4ECC-ABA9-17CC72D5C316Q36404430-1068C833-DED7-4421-8705-5789C2EA1EC7Q36404477-7122D054-67F1-4E2C-97F3-4B6DC21863B9Q36414221-214A6CD3-CAC0-4E7B-B784-EB04562271BEQ36512156-7602D602-C92F-4B93-921A-10882D5C4326Q36535248-66BCE593-0187-4E7A-BD5E-2692490E647BQ36658324-F80E509B-AAF8-4B3A-A5A6-3A23E2B1A667Q36894057-DC569BF9-63B3-4B1A-A877-9179D6DF512EQ36935816-D8CA6B4D-A236-450B-B1C7-83657C59F290Q37091977-8A539686-1CCF-4BD3-BF27-289C8E9B0022Q37126735-657C7056-DC50-4D35-BED7-A52659B14488
P2860
A novel technology for the imaging of acidic prostate tumors by positron emission tomography.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 05 May 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
A novel technology for the ima ...... positron emission tomography.
@en
A novel technology for the ima ...... positron emission tomography.
@nl
type
label
A novel technology for the ima ...... positron emission tomography.
@en
A novel technology for the ima ...... positron emission tomography.
@nl
prefLabel
A novel technology for the ima ...... positron emission tomography.
@en
A novel technology for the ima ...... positron emission tomography.
@nl
P2093
P2860
P1433
P1476
A novel technology for the ima ...... positron emission tomography.
@en
P2093
Amy L Vāvere
Dayanjali Wijesinghe
Donald M Engelman
Gráinne B Biddlecombe
Jason S Lewis
Joel R Garbow
Oleg A Andreev
William M Spees
Yana K Reshetnyak
P2860
P304
P356
10.1158/0008-5472.CAN-08-3781
P407
P577
2009-05-05T00:00:00Z