Alphavbeta3-integrin imaging: a new approach to characterise angiogenesis?
about
Cancer metabolic reprogramming: importance, main features, and potentials for precise targeted anti-cancer therapiesProgress in atherosclerotic plaque imaging.Oncologic Angiogenesis Imaging in the clinic---how and why.Preclinical molecular imaging of tumor angiogenesis.Multimodality molecular imaging of CD105 (Endoglin) expression.Molecular imaging of inflammation and intraplaque vasa vasorum: a step forward to identification of vulnerable plaques?Determining glioma response to radiation therapy using recombinant peptides.Imaging and 'omic' methods for the molecular diagnosis of cancer.Imaging of atherosclerosisEngineered knottin peptides: a new class of agents for imaging integrin expression in living subjects.Identification of a new peptide for fibrosarcoma tumor targeting and imaging in vivoFunctional mutation of multiple solvent-exposed loops in the Ecballium elaterium trypsin inhibitor-II cystine knot miniprotein.Phage display and molecular imaging: expanding fields of vision in living subjects.Broadening the scope of image-guided radiotherapy (IGRT).Synthesis and investigation of a radioiodinated F3 peptide analog as a SPECT tumor imaging radioligandCyclic RGD Peptides Incorporating Cycloalkanes: Synthesis and Evaluation as PET Radiotracers for Tumor Imaging.18F-labeled mini-PEG spacered RGD dimer (18F-FPRGD2): synthesis and microPET imaging of alphavbeta3 integrin expression.A dual-labeled knottin peptide for PET and near-infrared fluorescence imaging of integrin expression in living subjects.Molecular imaging in cancer treatment.Analysis of cancer metabolism by imaging hyperpolarized nuclei: prospects for translation to clinical research.Engineering agatoxin, a cystine-knot peptide from spider venom, as a molecular probe for in vivo tumor imagingPositron emission tomography imaging of cancer biology: current status and future prospectsRadiolabeled Cyclic RGD Peptides as Radiotracers for Imaging Tumors and Thrombosis by SPECTImaging the effect of receptor for advanced glycation endproducts on angiogenic response to hindlimb ischemia in diabetes.Review of functional/anatomical imaging in oncology.Positron emission tomography imaging of tumor angiogenesis and monitoring of antiangiogenic efficacy using the novel tetrameric peptide probe 64Cu-cyclam-RAFT-c(-RGDfK-)4.Microfluidic radiolabeling of biomolecules with PET radiometals.One-step and one-pot-two-step radiosynthesis of cyclo-RGD-(18)F-aryltrifluoroborate conjugates for functional imaging.Nuclear imaging of inflammation: homing-associated molecules as targets.Optical imaging of integrin alphavbeta3 expression with near-infrared fluorescent RGD dimer with tetra(ethylene glycol) linkers.Radiolabeled arginine-glycine-aspartic acid peptides to image angiogenesis in swine model of hibernating myocardiumIn vivo molecular imaging of vascular stress.Integrin affinity modulation in angiogenesisRadionuclide imaging: a molecular key to the atherosclerotic plaquePET Imaging of Angiogenesis.A novel in vivo vascular imaging approach for hierarchical quantification of vasculature using contrast enhanced micro-computed tomography.Radiolabeled CCK/gastrin peptides for imaging and therapy of CCK2 receptor-expressing tumorsParamagnetic and fluorescent liposomes for target-specific imaging and therapy of tumor angiogenesis.Radiometallated peptides for molecular imaging and targeted therapy.Multimodality Imaging of Integrin α(v)β(3) Expression.
P2860
Q26823118-8DE0644D-AF75-483F-956D-EB93C3ED6584Q30464390-8518BC4B-30EA-4378-BD7A-A7DB9D94D71AQ30472751-748B45D8-7760-41D3-B9B9-61825A054D3DQ30475818-9AB26888-9F5A-4A0C-A4CA-2356366DADC6Q30476445-422F9026-E1F4-4BF6-B054-AF992B1B7AEDQ30479243-A14EF7C9-0139-4470-9E01-FA5127C23667Q33382467-81C1A411-CC91-481A-A184-D031EA7F91F4Q33577268-2A478926-1356-4236-81A2-CD5A3B50A493Q33697215-819778AE-612F-4033-B9D6-C7A2C233480CQ33708506-8ED52E1F-46BB-40EC-B3B8-21CCC66D5298Q33769196-AF4CEA87-23A3-4D6E-8D93-60BCB0036858Q33833584-7195DE16-0566-406B-81E9-D0CF6D87FB9EQ33849788-6B986B50-E2C3-45C0-AC05-D35CF51DD665Q33943514-398FA602-DF93-46F7-86A0-B4FCEF6AF597Q33979930-1DB12ADB-77D7-4658-B15A-5B2A1E9EDC85Q34162650-572F624D-D0B5-4293-9307-DD7AB29CA838Q34205400-A440A860-87CA-49F9-8603-345B73D25BA2Q34419762-BACD408D-E014-4E7B-BF56-7C27D8125AC3Q34496670-ABB2ED9C-31DC-4563-8939-8700F82203FCQ34551523-DC757DED-826F-4AD2-A685-A45B06110691Q34662001-26C56678-C33F-4B41-B453-708E048A234AQ34697688-456BF303-DA1C-4955-9925-0DBE62813226Q34912643-65634ADB-1760-42BF-B2DE-C776A2AD9637Q35335414-9E09D8A4-A686-465C-BBA6-FEDDF41EB6C7Q35809612-0A48378D-6E5C-44ED-BDA9-2C522E2FD758Q36394255-69FF9232-939D-46A0-A92C-42E95F3195C1Q36446048-8C5B8D71-7405-4743-BD4A-EA385CC6525DQ36533804-67406950-BFF5-40D1-8AF8-E30995DE9445Q36568208-C4D624A8-D2BD-4A89-8C09-E505C1D39EEDQ36777406-CC2B91F8-666C-4A48-B01D-421AFC3A0170Q37085665-8C1EFE0D-546C-4C0F-B14C-61EDE440C1FDQ37157569-858DD7B8-51BB-4E80-9C60-740BD2C516B7Q37179787-9CB0E705-5C4B-4113-AAFF-F371C4D73095Q37196226-837A92EE-461C-4183-95F5-E0653058F7A2Q37366243-88F77986-1FF0-4C53-8045-3905D5241954Q37520919-EAB20D78-B9BA-43B0-802B-CC212B55A3E1Q37701765-0C896952-40D2-465B-B458-E3694FBA1020Q37730633-DB8AC0BF-0A07-4D89-AAAA-C2D08FF012DCQ37847064-60D45C21-73FE-46BF-83F2-7040D5311F17Q37872610-EFE9FE32-E18D-42A4-B9F9-BE243CA71715
P2860
Alphavbeta3-integrin imaging: a new approach to characterise angiogenesis?
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Alphavbeta3-integrin imaging: a new approach to characterise angiogenesis?
@ast
Alphavbeta3-integrin imaging: a new approach to characterise angiogenesis?
@en
type
label
Alphavbeta3-integrin imaging: a new approach to characterise angiogenesis?
@ast
Alphavbeta3-integrin imaging: a new approach to characterise angiogenesis?
@en
prefLabel
Alphavbeta3-integrin imaging: a new approach to characterise angiogenesis?
@ast
Alphavbeta3-integrin imaging: a new approach to characterise angiogenesis?
@en
P1476
Alphavbeta3-integrin imaging: a new approach to characterise angiogenesis?
@en
P2093
Roland Haubner
P2860
P2888
P356
10.1007/S00259-006-0136-0
P478
33 Suppl 1
P577
2006-07-01T00:00:00Z