摘要
The influence of femtosecond laser-induced damages on viability of olfactory ensheathing cells (OECs) is investigated. Several cytokinetic processes including cellular damage, recovery and death are discussed. Using femtosecond laser with the power of 100 μW and cutting speed of 2 μm/s, we cut the cellular protuberance with smaller diameter twice in different locations, and then observe the viability of the damaged cells. Under the same conditions, the root of protuberance with larger diameter is cut six times to observe changes of cellular shape. Whether the damage is located in the end, middle or root of protuberance with smaller diameter, the cell viability can recover within 3 h. When the damage is located in the root of protuberance with larger diameter, the damaged cell will die in the way of oncosis. Cytokinetic phenomena including intracellular high Ca2+ concentration, cellular morphologic change, recovery and oncosis are discussed. Meanwhile, high Ca2+ concentration is observed after femtosecond laser surgery. Therefore, femtosecond laser surgery is an important tool for establishing cell damage model and studying cytokinetics.
The influence of femtosecond laser-induced damages on viability of olfactory ensheathing cells (OECs)is investigated. Several cytokinetic processes including cellular damage, recovery and death are discussed. Using femtosecond laser with the power of 100μW and cutting speed of 2 μm/s, we cut the cellular protuberance with smaller diameter twice in different locations, and then observe the viability of the damaged cells. Under the same conditions, the root of protuberance with larger diameter is cut six times to observe changes of cellular shape. Whether the damage is located in the end, middle or root of protuberance with smaller diameter, the cell viability can recover within 3h. When the damage is located in the root of protuberance with larger diameter, the damaged cell will die in the way of oncosis. Cytokinetic phenomena including intracellular high Ca^2+ concentration, cellular morphologic change, recovery and oncosis are discussed. Meanwhile, high Ca^2+ concentration is observed after femtosecond laser surgery. Therefore, femtosecond laser surgery is an important tool for establishing cell damage model and studying cytokinetics.
基金
Supported by National High Technology Research & Development Program of China (Grant No. 2006AA04Z307)
Author of National Excellent Doctoral Dissertation of PR China (Grant No. 2006039)
National Natural Science Foundation of China (Grant No. 50775104)
Natural Science Foundation of Jiangsu Province (Grant No. BK2006507)
Jiangsu Provincial Research Innovation Program for College Graduates (Grant No. CX07B_086z)
