about
Trypanosoma cruzi cell death induced by the Morita-Baylis-Hillman adduct 3-Hydroxy-2-methylene-3-(4-nitrophenylpropanenitrile)Transmembrane voltage regulates binding of annexin V and lactadherin to cells with exposed phosphatidylserine.Peptides and peptide hormones for molecular imaging and disease diagnosisHigh ACSL5 transcript levels associate with systemic lupus erythematosus and apoptosis in Jurkat T lymphocytes and peripheral blood cells.Molecular imaging of cell death in an experimental model of Parkinson's disease with a novel apoptosis-targeting peptide.Investigation of a potential scintigraphic tracer for imaging apoptosis: radioiodinated annexin V-Kunitz protease inhibitor fusion proteinMolecular imaging of cell death in tumors. Increasing annexin A5 size reduces contribution of phosphatidylserine-targeting function to tumor uptake.Non-invasive in vivo imaging of arthritis in a collagen-induced murine model with phosphatidylserine-binding near-infrared (NIR) dye.Near-infrared Optical Imaging of Exposed Phosphatidylserine in a Mouse Glioma Model.Transbilayer phospholipids molecular imaging.Design of "smart" probes for optical imaging of apoptosis.β-elemene reverses the drug resistance of A549/DDP lung cancer cells by activating intracellular redox system, decreasing mitochondrial membrane potential and P-glycoprotein expression, and inducing apoptosisSynthesis of ApoSense compound [18F]2-(5-(dimethylamino)naphthalene-1-sulfonamido)-2-(fluoromethyl)butanoic acid ([18F]NST732) by nucleophilic ring opening of an aziridine precursor.A novel method to detect articular chondrocyte death during early stages of osteoarthritis using a non-invasive ApoPep-1 probe.Beyond annexin V: fluorescence response of cellular membranes to apoptosis.The preclinical study of predicting radiosensitivity in human nasopharyngeal carcinoma xenografts by 18F-ML-10 animal- PET/CT imaging.New molecular imaging targets to characterize myocardial biology.Advances in radionuclide molecular imaging in myocardial biology.Antibody vectors for imaging.SPECT and PET radiopharmaceuticals for molecular imaging of apoptosis: from bench to clinicApplication of microPET imaging approaches in the study of pediatric anesthetic-induced neuronal toxicity.Liposomal encapsulation enhances in vivo near infrared imaging of exposed phosphatidylserine in a mouse glioma model.Forced activation of Stat5 subjects mammary epithelial cells to DNA damage and preferential induction of the cellular response mechanism during proliferation.Luteolin suppresses growth and migration of human lung cancer cells.Measurement of cell death in mammalian cells.MicroPET imaging of ketamine-induced neuronal apoptosis with radiolabeled DFNSH.Measurement of cell death in Mammalian cells.Imaging of Abdominal Aortic Aneurysm: the present and the future.[18F]ML-10 Imaging for Assessment of Apoptosis Response of Intracranial Tumor Early after Radiotherapy by PET/CT.MEDICINAL RADIOPHARMACEUTICAL CHEMISTRY OF METAL RADIOPHARMACEUTICALS
P2860
Q28542102-81FB91B5-5152-4A85-BE58-145ED8EBA9A5Q33410009-8F355933-383A-4047-8867-1413FBE61838Q33846924-85909BC2-A140-4834-A2FF-0E9348C76A75Q34097941-E9FD4A20-9353-4C23-9B3F-48AE8BC8F49BQ34184725-EC418FE8-1CE3-4373-BF05-006BE504E985Q34974376-DAB153C8-918D-4363-A550-E97D79B29206Q35163660-647B3AE6-5C13-465D-9392-33C4A22C9BEFQ35409766-655E96FD-E2FD-4D3B-A8FE-C29944171652Q35626522-0771361D-2788-41B8-924E-2706C3AAC0D3Q35650805-22264D6F-B7E3-4B54-AE62-1250F3C4FB75Q35891172-211A9C78-6AB1-494C-A781-EEA14D62F354Q35894240-7CFE44AA-9544-4AA4-AF4B-EDF47A732FBBQ35977232-2D6E0DA8-9F81-4964-B4E1-2246EF770ABBQ36246878-11D69C41-ED1D-444E-97B8-CF0E02ECB231Q36577907-93FD77E9-D215-4561-9CF2-793E8D594051Q37190427-28594BA7-F049-4FDF-A908-72E45DA8B537Q37420825-BADBCBB7-8635-403E-B821-69ABA6A991E8Q37655420-DC3529CD-6E39-4146-9D5C-D552B2A6F7F3Q37720850-5C30E663-4319-420D-972E-DF262FC7E9C1Q37746356-159F95A7-A11F-46D0-84FC-FFC3A9FE688FQ38080768-1756AF73-5C99-444D-809E-1BD4171DB04EQ39052318-FA5600C6-D06B-4DFD-B158-1A1EDAC5EE0EQ39666343-5C6C4F9F-33D9-442B-8884-569ACFD667C4Q39686924-B0175432-2892-4798-A0C4-2AA2970A12B2Q42721792-71AC586D-E75D-45D0-B807-6143CAF3AE68Q48318058-56F935BF-7BCE-48DD-85F3-C31467D83342Q53182006-ED6F4AC2-3404-4EA8-9ECE-23E86F554C52Q53307895-66A9FF82-DF02-4789-AA3C-78101C6AF9D2Q55500282-EDB60A4B-0B09-405C-BC9A-2666A0E1AD31Q56619661-5D3860C6-B48B-41EF-99F4-2654FBA1CD62
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 15 September 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Imaging of apoptosis.
@en
Imaging of apoptosis.
@nl
type
label
Imaging of apoptosis.
@en
Imaging of apoptosis.
@nl
prefLabel
Imaging of apoptosis.
@en
Imaging of apoptosis.
@nl
P1476
Imaging of apoptosis.
@en
P2093
Jonathan F Tait
P304
P356
10.2967/JNUMED.108.052803
P407
P577
2008-09-15T00:00:00Z