@article{oai:u-ryukyu.repo.nii.ac.jp:02016337,
 author = {野田, 寛 and 栗田, 建一 and 古謝, 将宏 and 新垣, 義孝 and 又吉, 重光 and 喜友名, 千佳子 and 赤松, 隆 and 松村, 美枝子 and 松永, 喜久 and 大城, 修 and Noda, Yuaka and Kurita, Ken-ichi and Koja, Masahiro and Arakaki, Yoshitaka and Matayoshi, Shigemitsu and Kiyuna, Chikako and Akamatsu, Takashi and Matsumura, Mieko and Matsunaga, Yoshihisa and Ohoshiro, Osamu},
 issue = {2},
 journal = {琉球大学保健学医学雑誌＝Ryukyu University Journal of Health Sciences and Medicine},
 note = {In order to evaluate the functions of tonsils, the following determinations are performed in the same tonsilar tissues for total glutathione, reduced glutathione, oxidized glutathione, total thiol compounds, and thiol compounds except glutathione by the enzyme-spectro-photometrical methods and colorimetrical dithio-bis-nitrobenzoic (DTNB) method, and, total, reduced and oxidized vitamin C by the dinitrophenyl hydrazine (DNP) method, and, the total iron, heme iron and non-heme iron by the bathophenanthroline method and O-phenanthroline method, then the relationships between these three redox substances have been evaluated in the each tonsilar tissues, in the various diseases of palatine tonsils, and the each inflammatory stages of palatine tonsils by the calculation of multiple correlations ; those are including : 1) total glutathione, total vitamin C and non-heme iron, 2) total thiol compounds, total vitamin C and non-heme iron, 3) thiol compounds except glutathione, total vitamin C and non-heme iron, 4) reduced glutathione, reduced vitamin C and non-heme iron 5) total thiol compounds, reduced vitamin C and non-heme iron, 6) thiol compounds except glutathione, reduced vitamin C and non-heme iron, and 7) oxidized glutathione, oxidized vitamin C and non-heme iron. These multiple correlations at the 5% significant level are entirely denied, therefore, these results are seemed to be related to the analytical method of each component of irons in the tissues., 論文},
 pages = {129--138},
 title = {[原著]扁桃の酸化還元系物質 : SH 化合物とVitamin C と鉄との関連性について},
 volume = {1}
}