pei jian, huang xin, chen shude, et al. Proliferation changes of IAR20 and L-02 cells exposed to 9.33 GHz high power pulse microwave[J]. High Power Laser and Particle Beams, 2011, 23: 1-5.
Citation:
pei jian, huang xin, chen shude, et al. Proliferation changes of IAR20 and L-02 cells exposed to 9.33 GHz high power pulse microwave[J]. High Power Laser and Particle Beams, 2011, 23: 1-5.
pei jian, huang xin, chen shude, et al. Proliferation changes of IAR20 and L-02 cells exposed to 9.33 GHz high power pulse microwave[J]. High Power Laser and Particle Beams, 2011, 23: 1-5.
Citation:
pei jian, huang xin, chen shude, et al. Proliferation changes of IAR20 and L-02 cells exposed to 9.33 GHz high power pulse microwave[J]. High Power Laser and Particle Beams, 2011, 23: 1-5.
The proliferation changes of IAR20 and L-02 cells induced by 9.33 GHz high power pulse microwave(HPPM) have been investigated by MTT assay. The relations between HPPM parameters(pulse number, field intensity and pulse width) and cell proliferation are analyzed. The extent of proliferation decrease is recognized as the quantity of HPPM cell effects. The quantity of HPPM cell effects is in nonlinear exponential increase with the increase of pulse number when field intensity and pulse width remains fixed. The extent of proliferation decrease becomes greater with higher field intensity and longer pulse width, i.e. the quantity of HPPM cell effects is proportional to field intensity and pulse width. The difference of cell lines can influence the cell effects of HPPM with the same parameters, an
DownLoad: