低氘氫水實驗室 研究項目

  1. 極超高純氫氣研究—7N、8N維米製程氫氣
  2. 固態儲氫器研究、太空船用固態儲氫器研究
  3. 低氘飽和氫水製程研究及應用研究
  4. 低氘水用於生物實驗及製藥應用研究
  5. 氫氣呼吸之劑量及物理效應研究
  6. 低氘水用於育苗育種農業生技研究
  7. 氫氣用於食品科學研究
  8. 低氘水用於食品科學研究
  9. 呼吸氫氣及低氘飽和氫水之於癌症、中風、巴金森症、妥瑞症、糖尿病、心肌損傷、肝損傷、腦中風、放射治療損傷、老年癡呆、心肌硬塞、痛風、COPD、異位性皮膚炎、僵直性脊椎炎、過敏、紅斑性狼瘡及自體免疫性疾病之觀察研究


氫水治療化療藥物順鉑引起腎臟毒性CT研究(當心假氫水破財傷身)

氫氣水治療化療藥物順鉑引起腎臟毒性的CT研究

已有 2451 次閱讀 2010-6-1 20:37 |個人分類:飲用氫氣水|系統分類:科研筆記|關鍵字:氫氣

本文已經發表在《英國放射學雜誌》去年日本醫科大學太田小組已經發表類似論文。本次文章來自日本大阪大學Kenya Murase小組,不是一個單位,儘管都在東京。本研究採用了一個新的檢測方法,對動物進行了多層螺旋CT動態增強掃描(dynamic contrast-enhanced CT)檢測腎臟功能,結果發現氫氣水確實能保護腎臟功能,與血清學檢測結果一致。沒看全文,大概結果如此。

這個雜誌比較一般,發表這個雜誌的唯一理由是採用了這個研究方法,如果採用MRI,那麼就可以走類似路子了。

明顯不足是研究內容實在太少,屬於填縫性論文。不過採用這個“新”技術,仍值得鼓勵提倡。


 

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Experimental verification of protective effect of hydrogen-rich water against cisplatin-induced nephrotoxicity in rats using dynamic contrast-enhanced CT

A Kitamura, BSc 1 S Kobayashi, BSc 1 T Matsushita, BSc 1 H Fujinawa, PhD 2 and K Murase, PhD 1

1 Department of Medical Physics and Engineering, Division of Medical Technology and Science, Faculty of Health Science, Graduate School of Medicine, Osaka University, 1-7 Yamadaoka, Suita, Osaka 565-0871, Japan 2 I’rom Pharmaceutical, Tokyo 141-0032, Japan

Correspondence: Dr Kenya Murase, Department of Medical Physics and Engineering, Division of Medical Technology and Science, Faculty of Health Science, Graduate School of Medicine, Osaka University, 1-7 Yamadaoka, Suita, Osaka 565-0871, Japan.

E-mail: murase@sahs.med.osaka-u.ac.jp

Our aim was to assess the protective effect of hydrogen-rich water against cisplatin-induced nephrotoxicity in rats usingdynamic contrast-enhanced CT (DCE-CT). DCE-CT studies were performed in 30 rats (8 weeks old) on days 0, 2, 4 and 7 using multidetector row CT. The rats were divided into three groups: a control group (n = 6) with free access to standard water and without cisplatin injection, a non-treatment group (n = 12) with free access to standard water and injected with cisplatin (3.6 mg kg–1 body weight) intraperitoneally on day 0 and a treatment group (n = 12) with free access to hydrogen-rich water starting from 7 days before cisplatin injection. The contrast clearance per unit renal volume (K1) was estimated from the DCE-CT data using the Patlak model. The contrast clearance of the entire kidney (K) was obtained by multiplying K1 by the renal volume. The serum creatinine level was also measured on day 7. The K1 and K values normalised by those on day 0 in the treatment group were significantly greater than those in the non-treatment group on days 2, 4 and 7. There were no significant differences in the normalised K value between the treatment and control groupson days 2 and 7. The serum creatinine level in the treatment group was significantly lower than that in the non-treatmentgroup and was not significantly different from that in the control group. This study demonstrated that hydrogen-rich water ameliorates renal dysfunction due to cisplatin-induced nephrotoxicity in rats.

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本文引用地址:http://blog.sciencenet.cn/blog-41174-331060.html 
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