Advances in Radiobiological Studies Using a Microbeam
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概要
- 論文の詳細を見る
Recent developments in microbeam technology have made drastic improvements in particle delivery, focusing, image processing and precision to allow for rapid advances in our knowledge in radiation biology. The unequivocal demonstration that targeted cytoplasmic irradiation results in mutations in the nuclei of hit cells and the presence of non-targeted effects, all made possible using a charged particle microbeam, results in a paradigm shift in our basic understanding of the target theory and other radiation-induced low dose effects. The demonstration of a bystander effect in 3D human tissue and whole organisms have shown the potential relevance of the non-targeted response in human health. The demonstration of delayed mutations in the progeny of bystander cells suggest that genomic instability induced following ionizing radiation exposure is not dependent on direct damage to cell nucleus. The identification of specific signaling pathways provides mechanistic insight on the nature of the bystander process.
- 2009-03-31
著者
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Brenner David
Center For Radiological Research Columbia University
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Brenner David
Center For Radiological Res.
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GEARD CHARLES
Center for Radiological Research, College of Physicians and Surgeons of Columbia University
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Hei Tom
Center For Radiological Research Columbia University Medical Center
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Hei Tom
Center For Radiological Research Columbia University
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Geard Charles
Center For Radiological Research Columbia University
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Geard Charles
Center For Radiological Res.
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BALLAS Leslie
Department of Radiation Oncology, College of Physicians & Surgeons, Columbia University
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Ballas Leslie
Department Of Radiation Oncology College Of Physicians & Surgeons Columbia University
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BRENNER David
Center for Radiological Research, Columbia University
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GEARD Charles
Center for Radiological Research, Columbia University
関連論文
- Microbeam Irradiation of the C. elegans Nematode
- Neutron-Energy-Dependent Cell Survival and Oncogenic Transformation
- Mitochondrial Function Modulates Cytoplasmic Irradiation Induced Bystander Effect
- Consequences of Cytoplasmic Irradiation : Studies from Microbeam
- Effects of Irradiated Medium on Chromatid Aberrations in Mammalian Cells Using Double Mylar Dishes
- 127 Effects of Irradiated Medium on Chromatid Aberrations in Mammalian Cells(Effects of space radiation, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
- Induction of a Bystander Chromosomal Damage of He-ion microbeams in Mammalian Cells
- Bystander chromosomal alterations induced in mammalian cells using a charged particle microbeam.
- Expanding the Question-Answering Potential of Charged-Particle, Single-Cell Microbeams
- The Role of Microbeams in Systems-Biology Oriented Studies of Inter-Cellular Responses in 3-D Tissue, in Vitro and in Vivo
- Expanding the Question-answering Potential of Single-cell Microbeams at RARAF, USA
- Advances in Radiobiological Studies Using a Microbeam