中南民族大学学报:自然科学版
中南民族大學學報:自然科學版
중남민족대학학보:자연과학판
Journal of South-Central University for Nationalities
2011年
4期
53-58
,共6页
孙燕%冯斌%龙运然%戴甲培
孫燕%馮斌%龍運然%戴甲培
손연%풍빈%룡운연%대갑배
生物光子%电子倍增CCD%藏药七十味珍珠丸
生物光子%電子倍增CCD%藏藥七十味珍珠汍
생물광자%전자배증CCD%장약칠십미진주환
biophoton%electron multiplying CCD%ratnasampil (RNSP)
采用高度敏感的生物光子检测(成像)系统(主要由电子倍增CCD和体视显微镜组成),研究了藏药七十味珍珠丸(RNSP)灌胃处理对健康成年雌性昆明小鼠脑片、肝和肾组织的生物光子活动调控的影响.实验结果表明:脑片、肝和肾均具有自发光现象(生物光子).在光刺激下,脑片、肝和。肾具有不同程度的诱发光现象.RNSP处理后的脑组织诱发光的最大值高于对照组,并且衰减较慢.研究结果提示RNSP可能通过影响效应组织如脑组织的生物光子的活动来发挥其药理作用.其作用机制可能是通过影响生物光子信号传递对组织细胞功能产生调节作用,确切的作用机制值得进一步研究.
採用高度敏感的生物光子檢測(成像)繫統(主要由電子倍增CCD和體視顯微鏡組成),研究瞭藏藥七十味珍珠汍(RNSP)灌胃處理對健康成年雌性昆明小鼠腦片、肝和腎組織的生物光子活動調控的影響.實驗結果錶明:腦片、肝和腎均具有自髮光現象(生物光子).在光刺激下,腦片、肝和。腎具有不同程度的誘髮光現象.RNSP處理後的腦組織誘髮光的最大值高于對照組,併且衰減較慢.研究結果提示RNSP可能通過影響效應組織如腦組織的生物光子的活動來髮揮其藥理作用.其作用機製可能是通過影響生物光子信號傳遞對組織細胞功能產生調節作用,確切的作用機製值得進一步研究.
채용고도민감적생물광자검측(성상)계통(주요유전자배증CCD화체시현미경조성),연구료장약칠십미진주환(RNSP)관위처리대건강성년자성곤명소서뇌편、간화신조직적생물광자활동조공적영향.실험결과표명:뇌편、간화신균구유자발광현상(생물광자).재광자격하,뇌편、간화。신구유불동정도적유발광현상.RNSP처리후적뇌조직유발광적최대치고우대조조,병차쇠감교만.연구결과제시RNSP가능통과영향효응조직여뇌조직적생물광자적활동래발휘기약리작용.기작용궤제가능시통과영향생물광자신호전체대조직세포공능산생조절작용,학절적작용궤제치득진일보연구.
A highly sensitive biophoton detection (imaging) system ( mainly consisting of an Electron multiplying CCD and a stereoscope) was utilized to detect the biophoton activities in adult female Kunming mice treated with Ratnasampil (RNSP) (ig). Ten days after RNSP treatment, the effects of RNSP on the changes of biophoton emission from the isolated brain slices, liver and kidney samples were investigated. Experimental results showed that the brain slices, liver and kidney can emit spontaneous uhraweak photons, which were more intensive after light illumination. The maximum values of induced photon emission of the brain slices were higher in RNSP treated group than that in control group, and the decay was slower. These results suggest that the pharmacological effect of RNSP may take place by influencing the biophotonic activities in the target tissues such as the brain. The possible mechanism may be that RNSP regulates the functions of tissue cells by influence of biophoton signal communications, although the exact mechanisms need to be investigated further.
