The ZJC 480 series helium-neon laser blood vessel internal exposure apparatus was developed by the Changchun Zhongji Photoelectric Co, Ltd. It is used in the treatment of ischemic anoxic cardiovascular and cerebrovasc...The ZJC 480 series helium-neon laser blood vessel internal exposure apparatus was developed by the Changchun Zhongji Photoelectric Co, Ltd. It is used in the treatment of ischemic anoxic cardiovascular and cerebrovascular diseases, nervous system disorders, and respiratory and urinary system disorders. In 1995, the ZJC series was appraised as the "95 State-Grade Key New Product" by the State Science and Tech-展开更多
The aim of this study is to further measure the effect of 632.8-nm helium-neon laser on fast excitatory postsynaptic potential (f-EPSP) of postganglionic neurons in isolated rat superior cervical ganglia by means of i...The aim of this study is to further measure the effect of 632.8-nm helium-neon laser on fast excitatory postsynaptic potential (f-EPSP) of postganglionic neurons in isolated rat superior cervical ganglia by means of intracellular recording techniques. The neurons with f-EPSP were irradiated by different power densities (1 - 5 mW/cm2) laser. Irradiated by the 2-mW/cm2 laser, the amplitude of the f-EPSP could augment (P < 0.05, paired t test) and even cause action potential at the end of the first 1 - 2 minutes, the f-EPSP could descend and last for 3 8 minutes. But the amplitude of the f-EPSP of neurons irradiated by the 5-mW/cm2 laser could depress for the irradiating periods. The results show that: 1) the variation of the amplitude of f-EPSP caused by laser is power density-dependent and time-dependent; 2) there exist the second-order phases in the interaction of the helium-neon laser with neurons. These findings may provide certain evidence in explanation of the mechanisms of clinical helium-neon laser therapy.展开更多
文摘The ZJC 480 series helium-neon laser blood vessel internal exposure apparatus was developed by the Changchun Zhongji Photoelectric Co, Ltd. It is used in the treatment of ischemic anoxic cardiovascular and cerebrovascular diseases, nervous system disorders, and respiratory and urinary system disorders. In 1995, the ZJC series was appraised as the "95 State-Grade Key New Product" by the State Science and Tech-
基金This work was supported by the Natural Science Foun- dation of Department of Education, Guangxi, P. R. China under Grant No. 200028.
文摘The aim of this study is to further measure the effect of 632.8-nm helium-neon laser on fast excitatory postsynaptic potential (f-EPSP) of postganglionic neurons in isolated rat superior cervical ganglia by means of intracellular recording techniques. The neurons with f-EPSP were irradiated by different power densities (1 - 5 mW/cm2) laser. Irradiated by the 2-mW/cm2 laser, the amplitude of the f-EPSP could augment (P < 0.05, paired t test) and even cause action potential at the end of the first 1 - 2 minutes, the f-EPSP could descend and last for 3 8 minutes. But the amplitude of the f-EPSP of neurons irradiated by the 5-mW/cm2 laser could depress for the irradiating periods. The results show that: 1) the variation of the amplitude of f-EPSP caused by laser is power density-dependent and time-dependent; 2) there exist the second-order phases in the interaction of the helium-neon laser with neurons. These findings may provide certain evidence in explanation of the mechanisms of clinical helium-neon laser therapy.