Hendry J H, Potten C S, Chadwick C, Bianchi M
Int J Radiat Biol Relat Stud Phys Chem Med. 1982 Dec;42(6):611-20. doi: 10.1080/09553008214551591.
The production of dead (apoptotic) cells by low doses of gamma-rays was independent of dose-rate between 0.27 and 450 cGy per min. The r.b.e. for doses of 14.7 MeV neutrons between 1 and 15 cGy was about 4, and for neutrons generated by bombarding a beryllium target with 600 MeV protons the r.b.e. was about 2.7. The dose-incidence curves for all three radiation types reached a plateau at about 3-4 dead cells per crypt section, and this occurred at about 20-40 cGy of gamma-rays. These curves are compatible with exponential survival of the cell population at risk (D0 of 24 cGy for gamma-rays, 6 cGy for 14.7 MeV neutrons and 9 cGy for 600 MeV neutrons). Since the dose-response is exponential there is no indication of much higher r.b.e. values at very low doses, a point of concern in radiation protection. The spatial distribution of dead cells in the crypt was similar after doses of gamma-rays or neutrons, indicating that the same population of target cells was affected in both cases.
低剂量γ射线诱导的死亡(凋亡)细胞产生与剂量率无关,剂量率范围为每分钟0.27至450厘戈瑞。14.7兆电子伏特中子剂量在1至15厘戈瑞之间时,相对生物效应(r.b.e.)约为4;用600兆电子伏特质子轰击铍靶产生的中子,其r.b.e.约为2.7。所有三种辐射类型的剂量-发生率曲线在每个隐窝区域约3 - 4个死亡细胞时达到平台期,这发生在约20 - 40厘戈瑞的γ射线剂量时。这些曲线与受照细胞群体的指数存活情况相符(γ射线的D0为24厘戈瑞,14.7兆电子伏特中子为6厘戈瑞,600兆电子伏特中子为9厘戈瑞)。由于剂量反应呈指数关系,在极低剂量下没有迹象表明相对生物效应值会高得多,这是辐射防护中一个值得关注的问题。γ射线或中子照射后,隐窝中死亡细胞的空间分布相似,表明两种情况下受影响的靶细胞群体相同。