Björkman O, Felig P, Wahren J
Clin Physiol. 1984 Jun;4(3):227-41. doi: 10.1111/j.1475-097x.1984.tb00117.x.
The aim of the present study was to investigate the influence of hepatic glycogen depletion and increased lipolysis on the response of splanchnic glucose output and ketogenesis to combined glucagon and insulin deficiency in normal man. Healthy subjects were studied after a 60-h fast and compared with a control group studied after an overnight fast. Net splanchnic exchange of glucose, gluconeogenic precursors, free fatty acids (FFA) and ketone acids were measured in the basal state and during intravenous infusion of somatostatin (9 micrograms/min) for 90-140 min (overnight fasted subjects) or for 5 h (60-h fasted subjects). During the infusion of somatostatin, euglycemia was maintained by a variable intravenous infusion of glucose. Prior to somatostatin infusion, after an overnight (12-14 h) fast, splanchnic uptake of glucose precursors (alanine, lactate, pyruvate, glycerol) could account for 26% of splanchnic glucose output (SGO) indicating primarily glycogenolysis. Somatostatin infusion resulted in a 50% reduction in both insulin and glucagon concentrations and a transient decline in SGO which returned to baseline values by 86 +/- 11 min at which point the glucose infusion was no longer necessary to maintain euglycemia. Arterial concentrations of FFA and beta-OH-butyrate and splanchnic beta-OH-butyrate production rose 2.5-fold, 6-fold and 7.5-fold, respectively, in response to somatostatin infusion. In the 60-h fasted state, basal SGO (0.29 +/- 0.03 mmol/min) was 60% lower than after an overnight fast and basal splanchnic uptake of glucose precursors could account for 85% of SGO, indicating primarily gluconeogenesis. Somatostatin administration suppressed the arterial glucagon and insulin concentrations to values comparable to those observed during the infusion in the overnight fasted state. SGO fell promptly in response to the somatostatin infusion and in contrast to the overnight fasted state, remained inhibited by 50-100% for 5 h. Infusion of glucose was consequently necessary to maintain euglycemia throughout the 5-h infusion of somatostatin. Splanchnic uptake of gluconeogenic precursors was unchanged during somatostatin despite the sustained suppression of SGO. Basal arterial concentration and splanchnic exchange of beta-OH-butyrate were respectively 22-fold and 6- to 7-fold elevated and basal FFA concentration was 70% increased as compared to the corresponding values in the overnight fasted state.(ABSTRACT TRUNCATED AT 400 WORDS)
本研究的目的是探讨肝糖原耗竭和脂解增加对正常男性内脏葡萄糖生成及生酮作用在胰高血糖素和胰岛素联合缺乏时反应的影响。健康受试者在禁食60小时后接受研究,并与禁食过夜后的对照组进行比较。在基础状态以及静脉输注生长抑素(9微克/分钟)90 - 140分钟(禁食过夜的受试者)或5小时(禁食60小时的受试者)期间,测量内脏葡萄糖、糖异生前体、游离脂肪酸(FFA)和酮酸的净交换量。在输注生长抑素期间,通过可变的葡萄糖静脉输注维持血糖正常。在禁食过夜(12 - 14小时)后,在输注生长抑素之前,内脏对葡萄糖前体(丙氨酸、乳酸、丙酮酸、甘油)的摄取可占内脏葡萄糖生成(SGO)的26%,主要表明糖原分解。输注生长抑素导致胰岛素和胰高血糖素浓度均降低50%,SGO短暂下降,在86±11分钟时恢复到基线值,此时不再需要输注葡萄糖来维持血糖正常。作为对输注生长抑素的反应,动脉中FFA和β-羟基丁酸的浓度以及内脏β-羟基丁酸的生成分别升高了2.5倍、6倍和7.5倍。在禁食60小时的状态下,基础SGO(0.29±0.03毫摩尔/分钟)比禁食过夜后低60%,内脏对葡萄糖前体的基础摄取可占SGO的85%,主要表明糖异生。给予生长抑素将动脉中胰高血糖素和胰岛素浓度抑制到与禁食过夜状态下输注期间观察到的值相当的水平。SGO对生长抑素输注迅速下降,与禁食过夜状态不同,在5小时内持续被抑制50 - 100%。因此在整个5小时的生长抑素输注期间需要输注葡萄糖来维持血糖正常。尽管SGO持续受到抑制,但在生长抑素输注期间内脏对糖异生前体的摄取没有变化。与禁食过夜状态下的相应值相比,基础动脉β-羟基丁酸浓度和内脏交换分别升高了22倍和6 - 7倍,基础FFA浓度增加了70%。(摘要截断于400字)
