about
CCR5 receptor antagonists block metastasis to bone of v-Src oncogene-transformed metastatic prostate cancer cell lines.Molecular determinants of epidermal growth factor binding: a molecular dynamics studyDeletion of the mitochondrial chaperone TRAP-1 uncovers global reprogramming of metabolic networks.Consistent surgeon evaluations of three-dimensional rendering of PET/CT scans of the abdomen of a patient with a ductal pancreatic mass.Evaluation of a PACAP Peptide Analogue Labeled with (68)Ga Using Two Different Chelating Agents.Recent trends in soft-tissue infection imagingA paradigm shift from anatomic to functional and molecular imaging in the detection of recurrent prostate cancer.Physiologically based pharmacokinetics of molecular imaging nanoparticles for mRNA detection determined in tumor-bearing mice.Fluorescence detection of KRAS2 mRNA hybridization in lung cancer cells with PNA-peptides containing an internal thiazole orange.Determining efficacy of breast cancer therapy by PET imaging of HER2 mRNA.Currently Available Radiopharmaceuticals for Imaging Infection and the Holy Grail.VPAC1-targeted PET/CT scan: improved molecular imaging for the diagnosis of prostate cancer using a novel cell surface antigen.Murine -linked hydrocephalus is caused by hyperpermeability of the choroid plexusEvaluating Ga-68 Peptide Conjugates for Targeting VPAC Receptors: Stability and PharmacokineticsImaging oncogene expressionProstate cancer sheds the αvβ3 integrin in vivo through exosomesTargeting VPAC1 Receptors for Imaging GlioblastomaIn vivo investigation of the tissue response to commercial Teflon insulin infusion sets in large swine for 14 days: the effect of angle of insertion on tissue histology and insulin spread within the subcutaneous tissueA glance at imaging bladder cancer
P50
Q27348129-69F5A5A6-95ED-4E8E-A79D-CA9ABCE44A26Q28485296-20624B70-F32F-4921-BB0E-1325F9C238ADQ34022075-6036F3F5-2F9D-4A7D-BC86-B4B7505994A8Q35005463-091C286B-AAB8-4D23-B051-064FDCBE6CE1Q36579924-EAC5E239-7D6A-4121-9E67-5C3727AB4675Q37132301-14DD0E19-6023-4BC6-B47F-63B37442DAA6Q38190115-FA8C9384-6498-4011-9BA2-5B34DBCE4B97Q38344721-71814F12-F8A7-4C25-B3E1-84A9C7461F80Q38960558-CFFAD1C2-453B-4345-A61A-07CD2933B421Q43667901-3469D7D1-CB0C-4748-A956-246E680F0FEFQ49920579-C64E639E-6814-4D1B-8388-A91945B47ED6Q52654849-C04ED859-254E-4C41-B524-E11F76EA5CBAQ60915249-385DE754-10AE-46FD-969C-C3EDACED118AQ64236475-278667C2-5B5F-4E49-A960-8C5BBD220594Q83433921-2F67CFF6-D01A-4E3D-BE0A-49B30E0A3ECFQ90887621-4E775802-E540-47AB-8469-86CBF82BF2BFQ91778339-C0759633-EF79-4629-993F-17F671CE4E3BQ92240111-30E7786D-6BAF-4E04-A9E4-82108DCBD91BQ93228454-CA011C17-7CC3-482E-B9C8-6A8879A1C416
P50
description
investigador
@es
researcher
@en
name
Mathew Thakur
@en
type
label
Mathew Thakur
@en
prefLabel
Mathew Thakur
@en
P31
P496
0000-0003-2409-039X