Small animal imaging. current technology and perspectives for oncological imaging.
about
Institutional shared resources and translational cancer researchPhotoacoustic tomography: fundamentals, advances and prospectsImaging enzymes at work: metabolic mapping by enzyme histochemistry.Potential applications of flat-panel volumetric CT in morphologic and functional small animal imaging.Recent advances in imaging the lungs of intact small animals.Quercetin and ethanol attenuate the progression of atherosclerotic plaques with concomitant up regulation of paraoxonase1 (PON1) gene expression and PON1 activity in LDLR-/- mice.A steroid-conjugated magnetic resonance probe enhances contrast in progesterone receptor expressing organs and tumors in vivo.A review of small animal imaging planar and pinhole spect Gamma camera imaging.Fluorescent nanoparticle probes for cancer imaging.Anatomical and functional imaging of tumors in animal models: focus on pheochromocytoma.Murine endoscopy for in vivo multimodal imaging of carcinogenesis and assessment of intestinal wound healing and inflammationThe promise of PET in clinical management and as a sensitive test for drug cytotoxicity in sarcomas.A new method for respiratory gating during microcomputed tomography of lung in miceApplication of a rapid, simple, and accurate adenovirus-based method to compare PET reporter gene/PET reporter probe systems.Molecular imaging of pulmonary disease in vivoMolecular imaging of conscious, unrestrained mice with AwakeSPECT.In vivo imaging of immune cell trafficking in cancer.In vivo small animal imaging: current status and future prospects.Preclinical imaging: an essential ally in modern biosciences.Animal models for breast cancer metastasis to bone: opportunities and limitations.Identification of imaging biomarkers for the assessment of tumour response to different treatments in a preclinical glioma model.Positron emission tomography of [18F]-big endothelin-1 reveals renal excretion but tissue-specific conversion to [18F]-endothelin-1 in lung and liverFast clearing RGD-based near-infrared fluorescent probes for in vivo tumor diagnosis.High-resolution blood-brain barrier permeability and blood volume imaging using quantitative synchrotron radiation computed tomography: study on an F98 rat brain glioma.Time-gated perturbation Monte Carlo for whole body functional imaging in small animals.Geometrical and Monte Carlo projectors in 3D PET reconstruction.Positron emission tomography using 18F-labelled endothelin-1 reveals prevention of binding to cardiac receptors owing to tissue-specific clearance by ET B receptors in vivo.Insights into bone metabolism of avian embryos in ovo via 3D and 4D 18F-fluoride positron emission tomography.In vivo monitoring of venous thrombosis in mice.Analytical, experimental, and Monte Carlo system response matrix for pinhole SPECT reconstruction.Fluorescence-mediated Tomography for the Detection and Quantification of Macrophage-related Murine Intestinal Inflammation.Comparison of near-infrared fluorescent deoxyglucose probes with different dyes for tumor diagnosis in vivo
P2860
Q24288943-652AB331-0CBE-4790-8B56-5037DDC0AAF2Q27027215-54188895-CC4A-498B-AF43-6DEFFE40FA27Q30481295-F31DC5B1-8DE2-41F8-9F58-5A347D9FD117Q30501500-98897760-133E-4E90-91B7-176E1907B815Q33196903-15971991-C30C-43A7-8A2E-0D31D7A54D91Q34088392-125BDC8B-50B1-49A5-9293-2702C29DC5B8Q35141461-460880D8-16A9-4750-8901-C3833FE92F9CQ36115315-F9805D5A-81E9-4895-9995-3F5AEC2E97ADQ36314780-4760EB47-DE8F-4755-AD7C-67038F6192CFQ36652807-99FD83E3-5712-4017-AAFA-C02B38B4F2C7Q36787970-EA1F279B-436C-4B19-8135-6AF3B7591B61Q37035291-50E92CFD-7261-4358-BB42-9CD5CDE37F65Q37223351-C87B14A4-2C4F-491B-AFB9-D7B1C98E564FQ37323681-CD223708-EAC6-4116-8290-4D9B8C5EF9ACQ37581264-4847180B-8315-4ABD-BA9F-B42DAC7D76E6Q37662311-41B312F6-369B-4BBB-A3B5-46499DE8B5ADQ37822291-07A01700-4104-401F-B838-BF214DFA14B5Q37837837-F9FCEBDD-E584-457A-B3CB-2C9D6530AA00Q38154514-01186F37-2A75-462A-A89F-0768AEB412F4Q38573510-6ECF128A-2750-4941-8FC8-EE1EB78A3041Q38894617-50A663D3-F471-4F78-96BA-CC1C9686FB0AQ39300322-0288DC73-919B-4B46-960F-BEFB60FC4310Q39339401-E7D3BF7F-A7D7-4EA1-908D-DE99788068A5Q40464397-E64730DB-9842-438F-8E29-94C38DD9C6FDQ42021637-5A6AA476-2278-4684-B660-45D0190F2DDBQ42778582-F64327DB-E0A9-430C-B755-97FA42F1BF1FQ43161817-0DB2603D-EF99-497C-B4FE-6A7229343F7BQ44359350-C9E7D662-AE28-4CF3-B0D2-1317D140339BQ45343171-B3326CE4-585D-48E1-9F68-5A3AA0F5B9EAQ45924255-6C9F7103-6DFF-434E-97AF-9480EC292C6FQ47245673-06E14477-7E0D-44C9-8546-FAE95C1503A3Q57273333-E640042C-E272-4E10-8122-EFDDC75061D6
P2860
Small animal imaging. current technology and perspectives for oncological imaging.
description
2002 nî lūn-bûn
@nan
2002 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Small animal imaging. current technology and perspectives for oncological imaging.
@ast
Small animal imaging. current technology and perspectives for oncological imaging.
@en
Small animal imaging. current technology and perspectives for oncological imaging.
@nl
type
label
Small animal imaging. current technology and perspectives for oncological imaging.
@ast
Small animal imaging. current technology and perspectives for oncological imaging.
@en
Small animal imaging. current technology and perspectives for oncological imaging.
@nl
prefLabel
Small animal imaging. current technology and perspectives for oncological imaging.
@ast
Small animal imaging. current technology and perspectives for oncological imaging.
@en
Small animal imaging. current technology and perspectives for oncological imaging.
@nl
P2093
P1476
Small animal imaging. current technology and perspectives for oncological imaging.
@en
P2093
P304
P356
10.1016/S0959-8049(02)00394-5
P577
2002-11-01T00:00:00Z