| 1. | The mutagenic potential of steviol has been tested sufficiently only in vitro
甜菊醇的致畸能力,只在动物体外作过充分的测试。 |
| 2. | Furthermore , no studies of metabolism of stevioside and steviol in humans were available
此外,现时并没有研究探讨甜菊糖或甜菊醇在人体的新陈代谢。 |
| 3. | It weakly inhibited oxidative phosphorylation ; steviol was about 30 times more potent in this respect
甜菊糖轻微抑制氧化磷酸化而甜菊醇的抑制能力则大约强三十倍。 |
| 4. | It weakly inhibited oxidative phosphorylation ; steviol was about 30 times more potent in this respect
甜菊糖?轻微抑制氧化磷酸化;而甜菊醇的抑制能力则大约强三十倍。 |
| 5. | Preliminary data indicate that steviol may be activated to a mutagenic metabloite by human liver microsomes
初步数据显示,甜菊醇可能经人体的肝脏微粒体活化成引致基因突变的代谢物。 |
| 6. | Steviol also inhibited glucose absorption from rat gut by reducing the atp content of the intestinal mucosa
此外,甜菊醇亦透过减低肠黏膜的三磷酸腺含量,抑制大鼠肠道吸收葡萄糖的能力。 |
| 7. | Steviol also inhibited glucose absorption from rat gut by reducing the atp content of the intestinal mucosa
此外,甜菊醇亦透过减低肠黏膜的三磷酸腺?含量,抑制大鼠肠道吸收葡萄糖的能力。 |
| 8. | Steviol is completely absorbed and is excreted in the bile as conjugates ; only a very small fraction is detectable in urine
甜菊醇被完全吸收后,成为轭合物在汁中排出,只有极微的份量在尿液中检出。 |
| 9. | Steviol is completely absorbed and is excreted in the bile as conjugates ; only a very small fraction is detectable in urine
甜菊醇被完全吸收后,成为轭合物在?汁中排出,只有极微的份量在尿液中检出。 |
| 10. | Steviol is the only feacal metabolite of stevioside that has been identified , and excretion in the faeces is the major route
到目前为止,甜菊醇是唯一在粪便中能检出的甜菊糖代谢物,粪便是主要的排出途径。 |
