日本衛生学雑誌 26 巻, 5 号

カドミウム汚染米投与による動物体内へのカドミウムの蓄積

Polluted brown rice containing 0.6ppm of cadmium which is under the limit of the safety standard (1.0ppm for brown rice and 0.9ppm for polished rice), was investigated for the effects on animal organs. The above standards have been set by the Ministry of Health and Welfare, Japan.
87 mice were divided into four groups with diets as follows:
Group 1. unpolluted brown rice (0.1ppm cadmium) and low calcium content.
Group 2. unpolluted brown rice with high calcium content.
Group 3. polluted brown rice (0.6ppm) and low calcium content.
Group 4. polluted brown rice with high calcium content.
After 75 weeks on these dietary regimens the animals were sacrificed and livers and kidneys were determined for cadmium content. The atomic absorption method was employed.
Results: Average content of cadmium in kidneys of the respective groups was: 3.46, 1.14, 10.40, 6.90ppm (dry matter). In the livers 0.72, 0.17, 2.27, 1.50ppm.
It was thus demonstrated that cadmium content in animal organs increased remarkably on a polluted rice diet especially in the food with low calcium content. Cadmium accumulated considerably in mice that lived throughout the entire experimental period.

老年者における脂肪負荷の血清脂質におよぼす影響に関する研究

25 geriatric persons and 20 control subjects (young adults) were divided into 5 groups respectively and maintained on experimental diets about 12 weeks. The total caloric intake was 2, 500Cal/day for young adults and 2, 100Cal/day for the aged. Protein intake was 70g/day for all subjects. Fat intake for young adults and the aged was respectively as follows:
Group I (Similar to daily Japanese diet), 45g/day, 35g/day; Group II, 65g/day, 55g/day; Group III, 85g/day, 75g/day; Group IV, 105g/day, 95g/day; Group V, 125g/day, 115g/day.
Butter was utilized at the dietary fat.
No remarkable effects were seen in Group I, II and III in young adults and Group I and II in the aged.
Some persons of Group IV and V in young adults and Group III, IV and V in the aged showed hyperlipidemias and changes in the fatty acids compositions of serum lipids. Some persons dropped out of the experiment for reasons, such as pyrosis, nausea, anorexia and fatty diarrhea.
It is suggested that the Japanese diet should include 25 to 30 fat as a source of energy, but less than 25% for aged persons for the present.

職業的にウラン被曝を受けていないヒトのウランの摂取と排泄について

職業的にウラン被曝を受けていないヒトのウランの摂取量と尿中排泄量に関する研究を行なうにあたって, 透過式螢光光度計を用いる固体螢光光度法によって日常食および人尿中のウランの回収率を検討した。
日常食中のウランの回収率は, 95%信頼限界で, 52.61±4.34%であった。回収率は低いが, 変動係数も小さいので, この方法は日常食中のウラン分析に使用できると判断された。
尿中ウランの回収率は, 95%信頼限界で, 87.72±1.88%であり, 尿中ウランの分析法としては満足すべき方法である。

職業的にウラン被曝を受けていないヒトのウランの摂取と排泄について

岡山県・人形峠ウラン鉱山・製錬所周辺の3地区に居住するヒトの日常食中のウランを分析し次の結果を得た。
試験地区である天王, 中津河, 赤和瀬地区の日常食からのウラン摂取量は, それぞれ9.150, 5.623, 3.910μg/day/person であった。これに対し, 対照地区のそれは1.771μg/day/person であった。
試験地区の値と対照地区の値の間には, もちろんそれぞれの試験地区の間にも有意差が認められた。
試験地区における比較的高い値は, 高自然ウラン, あるいは鉱山・製錬所の排水中に含まれるウランの影響を受けているためと考えられる。

職業的にウラン被曝を受けていないヒトのウランの摂取と排泄について

岡山県・人形峠ウラン鉱山・製錬所周辺の3地区に居住するヒトの24時間尿中のウランを分析し次の結果を得た。
試験地区である天王, 中津河, 赤和瀬地区における尿中ウラン排泄量はそれぞれ0.02-0.27 (平均0.147), 検出限界以下 (N.D.)-0.23 (N.D.を0とした時の平均0.074), N.D.-0.11μg/day/person (0.027μg) であり, 対照地区のそれはN.D.-0.05μg/day/person (0.006μg) であった。
試験地区の値と対照地区の値の間には, もちろんそれぞれの試験地区の値の間にも有意差が認められた。このことは, 日常食中のウラン含量 (第2報) の同様な結果からも推察された。

職業的にウラン被曝を受けていないヒトのウランの摂取と排泄について

日常食中のウラン量 (第2報) および24時間尿中のウラン量 (第3報) から, ウラン摂取量と尿中ウラン排泄量について考察した。
ウラン鉱山・製錬所周辺に居住するヒトのウランの平均摂取量は3.910-9.150μg/day/person であり, 対照区に居住するヒトのそれは1.771μg/day/person であった。一方, 前者における平均尿中ウラン排泄量は0.027-0.147μg/day/person, 後者におけるそれは0.006μg/day/person であった。
摂取量 (xμg) が1.771-9.150μg/day/person の範囲内にあるとき, xは尿中排泄量 (yμg) と次の関係があった。
y=0.00274・x^1.71

集中維持機能 (TAF) に関する研究 (XVI)

The experiment was carried out in order to evaluate the drunkenness due to objective alcohol consumption.
Twenty three healthy Japanese male adults were provided with 540ml of Japanese Rice Wine, which was consumed in 30min. before the evening meal. The TAF test, electroencephalography (EEG) and microvibration recording (MV) administered to the examinees at 10a.m. (control value), before drinking (pre-value), and 10 and 50min, after drinking (post-value). The EEG lead from the occipital area to the right ear, and MV lead from the left thenar, were analyzed in δ (2-4c/s), θ (4-8c/s), α (8-13c/s), β₁ (13-20c/s) and β₂ (20-30c/s) waves.
Results are as follows:
1. TAF-L at 10 and 50min. after alcohol drinking lowered significantly.
2. In EEG at rest, the β₁ wave showed a significant increase 10min. after alcohol intake. In EEG during TAF-test, the δ, β₁ and β₂ waves decreased significantly 10min. after alcohol intake, and the δ, θ, β₁ and β₂ waves also decreased 50min. after alcohol intake.
3. Fifty minutes after alcohol intake a significant correlation between lowering of TAF-L and decrease of α wave in EEG was recognized, and an increase of θ wave in EEG was seen in each of 14 of the 18 examinees with a lowering of the TAF-L.
4. Due to alcohol the β₁ and β₂ waves of MV at rest increased significantly, and the α wave of MV during TAF test decreased significnatly 50min. after alcohol intake. Comparing MVs at rest and during TAF-test, all waves of control and before alcohol intake of the latter showed significant increases, while the δ, θ, β₁ and β₂ waves during TAF test at 10 and 50min. after alcohol intake increased significantly, but the α wave showed no significant change.
These results prove that cerebral activities are lowered as a result of alcohol intake and showed that drunkenness can be diagnosed according to function of the concentration maintenance (TAF) as a performance test.