Advanced Research Press, Inc, New York, USA.
J Int Soc Sports Nutr. 2004 Dec 31;1(2):7-11. doi: 10.1186/1550-2783-1-2-7.
During very low carbohydrate intake, the regulated and controlled production of ketone bodies causes a harmless physiological state known as dietary ketosis. Ketone bodies flow from the liver to extra-hepatic tissues (e.g., brain) for use as a fuel; this spares glucose metabolism via a mechanism similar to the sparing of glucose by oxidation of fatty acids as an alternative fuel. In comparison with glucose, the ketone bodies are actually a very good respiratory fuel. Indeed, there is no clear requirement for dietary carbohydrates for human adults. Interestingly, the effects of ketone body metabolism suggest that mild ketosis may offer therapeutic potential in a variety of different common and rare disease states. Also, the recent landmark study showed that a very-low-carbohydrate diet resulted in a significant reduction in fat mass and a concomitant increase in lean body mass in normal-weight men. Contrary to popular belief, insulin is not needed for glucose uptake and utilization in man. Finally, both muscle fat and carbohydrate burn in an amino acid flame.
在极低的碳水化合物摄入量下,酮体的调节和控制产生会导致一种无害的生理状态,称为饮食性酮症。酮体从肝脏流向肝外组织(例如大脑)用作燃料;通过类似于氧化脂肪酸作为替代燃料来节省葡萄糖代谢的机制来实现这一点。与葡萄糖相比,酮体实际上是一种非常好的呼吸燃料。实际上,人类成年人并不需要明确的膳食碳水化合物。有趣的是,酮体代谢的作用表明,轻度酮症可能在多种常见和罕见疾病状态中具有治疗潜力。此外,最近的里程碑式研究表明,低碳水化合物饮食可显著减少肥胖男性的脂肪量,并相应增加瘦体重。与普遍看法相反,胰岛素不是人体葡萄糖摄取和利用所必需的。最后,肌肉脂肪和碳水化合物都在氨基酸火焰中燃烧。