We examined the pharmacokinetics of KIH-802, potassium 2-nitroimidazole-1-acetohydroxamate, using its radioisotope-labelled compound and the acute toxicity in mice. We discovered that the concentration of KIH-802 was very low in the brain and its LD50 was nearly half the value of that of MISO. We also present here new 2-nitroimidazole radiosensitizers/chemical modifiers (KIN-804, 811, 831, 841, 844, 821, 823 and 824) designed to enhance their sensitizing ability intensely by substituting various biologically active groups, such as hydroxamic acids and oximes, with moderate lipophilicity to the aromatic ring, if necessary, through some spacers. The sensitizing effects of all compounds were estimated to be almost equal to or better than that of MISO. The results of their toxicities shows that new hydroxamates KIN-804 and 831 are less toxic than KIH-802 and MISO. Their in vitro enhancement ratios are 2.00 and 1.75, respectively, compared with those of KIH-802, MISO and SR-2508, 1.77, 1.72 and 1.72, respectively, at each dose of 1 mM for EMT6/KU single cell. We concluded that they may be superior radiosensitizers of hydroxamic acid analogues to KIH-802.