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Real-time mechanical characterization of DNA degradation under therapeutic X-rays and its theoretical modeling
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作者 Grégoire Perret Thomas Lacornerie +9 位作者 Fabio Manca stefano giordano Momoko Kumemura Nicolas Lafitte Laurent Jalabert Mehmet C.Tarhan Eric F.Lartigau Fabrizio Cleri Hiroyuki Fujita Dominique Collard 《Microsystems & Nanoengineering》 EI 2016年第1期9-17,共9页
The killing of tumor cells by ionizing radiation beams in cancer radiotherapy is currently based on a rather empirical understanding of the basic mechanisms and effectiveness of DNA damage by radiation.By contrast,the... The killing of tumor cells by ionizing radiation beams in cancer radiotherapy is currently based on a rather empirical understanding of the basic mechanisms and effectiveness of DNA damage by radiation.By contrast,the mechanical behaviour of DNA encompassing sequence sensitivity and elastic transitions to plastic responses is much better understood.A novel approach is proposed here based on a micromechanical Silicon Nanotweezers device.This instrument allows the detailed biomechanical characterization of a DNA bundle exposed to an ionizing radiation beam delivered here by a therapeutic linear particle accelerator(LINAC).The micromechanical device endures the harsh environment of radiation beams and still retains molecular-level detection accuracy.In this study,the first real-time observation of DNA damage by ionizing radiation is demonstrated.The DNA bundle degradation is detected by the micromechanical device as a reduction of the bundle stiffness,and a theoretical model provides an interpretation of the results.These first real-time observations pave the way for both fundamental and clinical studies of DNA degradation mechanisms under ionizing radiation for improved tumor treatment. 展开更多
关键词 biomechanical measurements DNA damage microfluidic RADIOTHERAPY REAL-TIME Silicon Nanotweezers
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