Van den Berghe G, Wouters P, Weekers F, Mohan S, Baxter R C, Veldhuis J D, Bowers C Y, Bouillon R
Department of Intensive Care Medicine, University Hospital Gasthuisberg, University of Leuven, Belgium.
J Clin Endocrinol Metab. 1999 Apr;84(4):1311-23. doi: 10.1210/jcem.84.4.5636.
Protracted critical illness is marked by protein wasting resistant to feeding, by accumulation of fat stores, and by suppressed pulsatile release of GH and TSH. We previously showed that the latter can be reactivated by brief infusion of GH-releasing peptide (GHRP-2) and TRH. Here, we studied combined GHRP-2 and TRH infusion for 5 days, which allowed a limited evaluation of the metabolic effectiveness of this novel trophic endocrine strategy. Fourteen patients (mean +/- SD age, 68 +/- 11 yr), critically ill for 40 +/- 28 days, were compared to a matched group of community-living control subjects at baseline and subsequently received 5 days of placebo and 5 days of GHRP-2 plus TRH (1 + 1 microg/kg x h) infusion in random order. At baseline, impaired anabolism, as indicated by biochemical markers (osteocalcin and leptin), was linked to hyposomatotropism [reduced pulsatile GH secretion, as determined by deconvolution analysis, and low GH-dependent insulin-like growth factor and binding protein (IGFBP) levels]. Biochemical markers of accelerated catabolism (increased protein degradation and bone resorption) were related to tertiary hypothyroidism and the serum concentration of IGFBP-1, but not to hyposomatotropism. Metabolic markers were independent of elevated serum cortisol. After 5 days of GHRP-2 plus TRH infusion, osteocalcin concentrations increased 19% vs. -6% with placebo, and leptin had rose 32% vs. -15% with placebo. These anabolic effects were linked to increased IGF-I and GH-dependent IGFBP, which reached near-normal levels from day 2 onward. In addition, protein degradation was reduced, as indicated by a drop in the urea/creatinine ratio, an effect that was related to the correction of tertiary hypothyroidism, with near-normal thyroid hormone levels reached and maintained from day 2 onward. Concomitantly, a spontaneous tendency of IGFBP-1 to rise and of insulin to decrease was reversed. Cortisol concentrations were not detectably altered. In conclusion, 5-day infusion of GHRP-2 plus TRH in protracted critical illness reactivates blunted GH and TSH secretion, with preserved pulsatility, peripheral responsiveness, and feedback inhibition and without affecting serum cortisol, and induces a shift toward anabolic metabolism. This provides the first evidence of the metabolic effectiveness of short term GHRP-2 plus TRH agonism in this particular wasting condition.
持续性危重病的特征是对喂养有抵抗的蛋白质消耗、脂肪储备的积累以及生长激素(GH)和促甲状腺激素(TSH)的脉冲式释放受到抑制。我们之前表明,通过短暂输注生长激素释放肽(GHRP - 2)和促甲状腺激素释放激素(TRH)可使后者重新激活。在此,我们研究了GHRP - 2和TRH联合输注5天的情况,这使得对这种新型营养内分泌策略的代谢效果进行了有限的评估。14名患者(平均±标准差年龄,68±11岁),危重病40±28天,在基线时与一组匹配的社区生活对照受试者进行比较,随后随机接受5天的安慰剂以及5天的GHRP - 2加TRH(1 + 1微克/千克·小时)输注。在基线时,生化标志物(骨钙素和瘦素)所表明的合成代谢受损与生长激素分泌不足有关[通过去卷积分析确定的脉冲式GH分泌减少以及低GH依赖性胰岛素样生长因子和结合蛋白(IGFBP)水平]。分解代谢加速的生化标志物(蛋白质降解增加和骨吸收增加)与三发性甲状腺功能减退以及IGFBP - 1的血清浓度有关,但与生长激素分泌不足无关。代谢标志物与血清皮质醇升高无关。在GHRP - 2加TRH输注5天后,骨钙素浓度较安慰剂组增加了19%,而安慰剂组下降了6%,瘦素较安慰剂组升高了32%,而安慰剂组下降了15%。这些合成代谢作用与IGF - I和GH依赖性IGFBP增加有关,从第2天起这些指标达到接近正常水平。此外,尿素/肌酐比值下降表明蛋白质降解减少,这种作用与三发性甲状腺功能减退的纠正有关,从第2天起甲状腺激素水平达到并维持在接近正常水平。同时,IGFBP - 1升高和胰岛素降低的自发趋势得到逆转。皮质醇浓度未检测到明显变化。总之,在持续性危重病中5天输注GHRP - 2加TRH可重新激活迟钝的GH和TSH分泌,保持脉冲性、外周反应性和反馈抑制,且不影响血清皮质醇,并诱导向合成代谢的转变。这为短期GHRP - 2加TRH激动剂在这种特殊消耗状态下的代谢效果提供了首个证据。
