Evidence for pronounced bystander effects caused by nonuniform distributions of radioactivity using a novel three-dimensional tissue culture model
about
Induction of a bystander mutagenic effect of alpha particles in mammalian cellsIntroduction to radiobiology of targeted radionuclide therapyThe radiation-induced bystander effect: evidence and significanceFree radical-initiated and gap junction-mediated bystander effect due to nonuniform distribution of incorporated radioactivity in a three-dimensional tissue culture modelProteome analysis of proliferative response of bystander cells adjacent to cells exposed to ionizing radiationInduction of lethal bystander effects in human breast cancer cell cultures by DNA-incorporated Iodine-125 depends on phenotype.Gap junction communication and the propagation of bystander effects induced by microbeam irradiation in human fibroblast cultures: the impact of radiation quality.Bystander responses in three-dimensional cultures containing radiolabelled and unlabelled human cellsInvestigation of adaptive responses in bystander cells in 3D cultures containing tritium-labeled and unlabeled normal human fibroblastsConcomitant quantification of targeted drug delivery and biological response in individual cellsBystander effect produced by radiolabeled tumor cells in vivoHuman Health and the Biological Effects of Tritium in Drinking Water: Prudent Policy Through Science - Addressing the ODWAC New Recommendation.Direct evidence for the participation of gap junction-mediated intercellular communication in the transmission of damage signals from alpha -particle irradiated to nonirradiated cells.In vivo validation of the bystander effect.In vivo space radiation-induced non-targeted responses: late effects on molecular signaling in mitochondria.A method to predict response of cell populations to cocktails of chemotherapeutics and radiopharmaceuticals: validation with daunomycin, doxorubicin, and the alpha particle emitter (210)Po.Survival of tumor and normal cells upon targeting with electron-emitting radionuclides.Direct evidence for a bystander effect of ionizing radiation in primary human fibroblastsHuman cell responses to ionizing radiation are differentially affected by the expressed connexins.Challenges and progress in predicting biological responses to incorporated radioactivityLocalized Irradiation of Cell Membrane by Auger Electrons Is Cytotoxic Through Oxidative Stress-Mediated Nontargeted EffectsDead cells in melanoma tumors provide abundant antigen for targeted delivery of ionizing radiation by a mAb to melanin.Feasibility of radioimmunotherapy of experimental pneumococcal infection.Low-dose radiation-induced responses: focusing on epigenetic regulation.A proliferation-dependent bystander effect in primary porcine and human urothelial explants in response to targeted irradiation.(223)Ra and other bone-targeting radiopharmaceuticals-the translation of radiation biology into clinical practice.Relevance of radiobiological concepts in radionuclide therapy of cancer.X-ray-induced bystander responses reduce spontaneous mutations in V79 cells.Bystander effect in tumor cells produced by Iodine-125 labeled human lymphocytes.Neutrons do not produce a bystander effect in zebrafish irradiated in vivo.Bleomycin, neocarzinostatin and ionising radiation-induced bystander effects in normal diploid human lung fibroblasts, bone marrow mesenchymal stem cells, lung adenocarcinoma cells and peripheral blood lymphocytes.Biological response to nonuniform distributions of (210)Po in multicellular clusters.Assessment of low linear energy transfer radiation-induced bystander mutagenesis in a three-dimensional culture modelProliferative response of bystander cells adjacent to cells with incorporated radioactivityWhen may a nonuniform distribution of 131I be considered uniform? An experimental basis for multicellular dosimetry.Transfectant mosaic spheroids: a new model for evaluation of tumour cell killing in targeted radiotherapy and experimental gene therapy.Radiation-induced bystander and adaptive responses in cell and tissue models.Bystander effects caused by nonuniform distributions of DNA-incorporated (125)I.Role of TGF-beta1 and nitric oxide in the bystander response of irradiated glioma cells.Isolating effects of microscopic nonuniform distributions of (131)I on labeled and unlabeled cells.
P2860
Q24670818-7AF18465-AC03-445F-9529-F590E05AC778Q26852029-F44C9567-5587-4143-AABD-CF6AD631162BQ28255224-6D50F829-3250-431E-9F2E-6B3B430A165BQ28348768-96E697D8-3185-4378-97B1-7A1D24885FB9Q33285211-73C62D2E-904B-4167-892A-F014FEADE0A3Q33642577-54B86038-E57D-4C19-8232-4EEC22B10CEAQ33759959-1F5FC668-C979-4440-98EC-6DA5F54B8A6FQ34065907-8CF705E7-CF38-41A3-958E-B87AC78D3381Q34066003-39790F0B-A2A5-4C18-A2DE-0F9736A8344CQ34129721-25E006D4-ACEA-4204-8D77-2BDA620CDE2CQ34161328-8588BD51-62BE-4C8A-8F12-D69777221305Q34172881-E099FDBB-127E-40F7-B645-8329410C1A09Q34609590-FB8A311C-A442-439F-970F-994E72E0A6E0Q35740425-B2E0C05B-D213-463A-BCB2-E334E0308675Q35900783-80DE9642-F8A4-4144-B427-8E6AAF33E103Q36103417-B182500C-39CB-4544-A43C-66F88AF84B7CQ36527321-A15F31F7-EAF4-4E83-AC18-44EE99BCECF1Q36622741-51E7C0A4-20F3-4D6B-AF4D-C6B5B0E952F4Q36661413-8D99E65C-605B-43EC-9F13-92C429E911F0Q36730879-471BC16C-6117-4316-8F47-16AFDAEF3CD0Q37267538-C922A593-E338-4C1C-8F64-6F93192FED1EQ37571360-883530EF-28F8-4327-9AF3-F33E40091D52Q37734799-1F36F28C-6933-4529-B7FB-A7EE6646500DQ37764867-02601620-273A-4265-BA18-40BAE76A29F8Q38293943-36397D8B-65A9-43E0-A960-049CB5F742BDQ38391693-4DD8C0BB-1D9F-4D73-B214-33F53B9F3B35Q38751028-248B6144-EDB0-4F45-B077-6EE0E6D851A0Q39154174-6256A863-7693-4F10-B341-88B1B7930626Q39328575-0D390DAD-8CC7-4C0E-B5F9-C6603B4B2695Q39506943-1AAFDD3C-79FE-4A52-A9A6-91A73F800947Q39539182-83F1C9FC-DCA9-47A1-ABDF-4A55692E27DFQ40092316-DFD910D4-7D47-4B5F-88CB-3766DB16323AQ40381789-69F53DD9-20C8-4C44-A560-C254A8874219Q40529153-25FCFC87-2E75-4958-8D47-1E63DF622576Q40609686-0D022754-D6D4-4F08-93F4-521BED51FACFQ40705069-B9A94121-AC0F-414C-BD35-13DACA76CA78Q40708404-CEDD05F2-97EF-4142-B106-8350F5196200Q40778935-B8E26982-CB72-4ED1-AE6E-B4F14F46DD74Q41660601-E5B2229C-89AF-4CFA-BBE3-735443B50847Q41788077-C66B2C5D-BC4F-43E4-BD14-1952CF5DE45C
P2860
Evidence for pronounced bystander effects caused by nonuniform distributions of radioactivity using a novel three-dimensional tissue culture model
description
1999 nî lūn-bûn
@nan
1999 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Evidence for pronounced bystan ...... mensional tissue culture model
@ast
Evidence for pronounced bystan ...... mensional tissue culture model
@en
Evidence for pronounced bystan ...... mensional tissue culture model
@nl
type
label
Evidence for pronounced bystan ...... mensional tissue culture model
@ast
Evidence for pronounced bystan ...... mensional tissue culture model
@en
Evidence for pronounced bystan ...... mensional tissue culture model
@nl
prefLabel
Evidence for pronounced bystan ...... mensional tissue culture model
@ast
Evidence for pronounced bystan ...... mensional tissue culture model
@en
Evidence for pronounced bystan ...... mensional tissue culture model
@nl
P2093
P2860
P3181
P356
P1433
P1476
Evidence for pronounced bystan ...... mensional tissue culture model
@en
P2093
P2860
P3181
P356
10.2307/3580054
P407
P577
1999-07-01T00:00:00Z