Halperin M L, Marsden P A, Singer G G, West M L
Clin Invest Med. 1985;8(4):253-6.
The significance of ketosis in this syndrome has been evaluated from several viewpoints. With respect to acid-base considerations (pH, anion gap), ketosis was not very significant. However, with respect to sustained hyperglycemia, the combustion of less glucose than normal by the brain is critical and it is likely that ketone body metabolism plays an important role in this regard. This point can be underscored by a quantitative example. First, assume that the maximum rate of new glucose production in a fasted subject is less than 100 g of glucose per day. Second, since the brain will burn 100 g of glucose per day in a non-ketotic subject, it follows that, even in the absence of glucosuria, there will be a net daily consumption of glucose. Since the hyperglycemic individual has only an extra 100 or so g of glucose, it follows that the blood glucose concentration would approach the renal threshold in several days in the absence of ketosis. Recall that this is a minimum estimate because glucose oxidation in other organs and glucosuria will remove an additional quantity of glucose. Hyperglycemia can only be maintained in the absence of glucose intake if there is a reduced rate of glucose metabolism in the brain. The brain can diminish its rate of glucose catabolism by several mechanisms, including a diminished metabolic rate in the brain and/or the consumption of non-glucose fuels (free fatty acids or beta-hydroxybutyrate) by this organ.(ABSTRACT TRUNCATED AT 250 WORDS)
已从多个角度评估了酮症在该综合征中的意义。从酸碱平衡方面(pH值、阴离子间隙)考虑,酮症的影响不太显著。然而,就持续性高血糖而言,大脑消耗的葡萄糖低于正常水平至关重要,酮体代谢很可能在这方面发挥重要作用。这一点可以通过一个定量示例来强调。首先,假设一名禁食受试者新生成葡萄糖的最大速率低于每天100克。其次,由于非酮症受试者大脑每天会消耗100克葡萄糖,所以即便没有糖尿,每天也会有葡萄糖的净消耗。由于高血糖个体仅有额外约100克葡萄糖,那么在没有酮症的情况下,血糖浓度会在数天内接近肾阈值。要记得这只是最低估计值,因为其他器官的葡萄糖氧化和糖尿会额外消耗一定量的葡萄糖。只有当大脑的葡萄糖代谢速率降低时,在不摄入葡萄糖的情况下高血糖才能维持。大脑可通过多种机制降低其葡萄糖分解代谢速率,包括降低大脑的代谢率和/或该器官消耗非葡萄糖燃料(游离脂肪酸或β-羟基丁酸)。(摘要截选至250词)
