Istituto Auxologico Italiano, IRCCS, Experimental Laboratory for Auxo-endocrinological Research, Milan and Verbania, Italy.
J Endocrinol Invest. 2013 Apr;36(4):255-60. doi: 10.3275/8523. Epub 2012 Jul 24.
Repetition of voluntary exercise bouts and of different pharmacological GH-releasing stimuli at 2-h intervals is associated with a complete abolishment of GH responsiveness. By contrast, a different pattern is observed after repeated neuromuscular electrostimulation, which is characterized by preservation of GH responsiveness. Aim of the study was to evaluate GH responses to repeated bouts of respiratory muscle endurance training (RMET) by mean of a specific commercially available device (Spiro Tiger®). Eight healthy men underwent an incremental progressive RMET protocol of 11 daily sessions. Blood samplings for GH, cortisol and lactate (LA) determinations were collected during the 12th session, which was composed of two consecutive bouts of RMET (of identical intensity and duration: 1 min at a respiration rate of 28 acts/min, 5 min at 32 acts/min, 5 min at 34 acts/min, 4 min at 36 acts/min) at a 2 h interval. Baseline GH levels (mean: 0.9±0.4 ng/ml) significantly (p<0.01) increased after the first bout of RMET (peak: 15.7±4.0 ng/ml). The administration of the second bout of RMET resulted in a significantly lower (p<0.05) GH increase (peak: 3.9±0.8 ng/ml) in comparison with the first one. Baseline LA levels (mean: 1.2±0.1 mmol/l) significantly increased (p<0.001) after the first bout of RMET (peak: 2.3±0.2 mmol/l). The administration of the second RMET bout resulted in a comparable LA increase (from a basal value of 1.2±0.1 mmol/l up to a peak of 2.0±0.1 mmol/l, p<0.001). The first bout of RMET caused a significant increase of cortisol levels (p<0.01), starting from a basal mean value of 142.9±9.4 ng/ml up to a peak of 188.8±10.3 ng/ml. By contrast, the second bout of RMET did not induce any significant change of cortisol levels (basal: 149.1±9.0 ng/ml, peak: 168.5±5.1 ng/ml). In conclusion, a single bout of RMET is capable of stimulating GH and cortisol secretions and LA production. When a second bout is repeated after 2 h, there is a blunting of GH and cortisol responses with a preservation of LA release. Further studies are needed to schedule long-term RMET protocols capable of persistently stimulating GH-IGF-I release and to maximally enhance the ergogenic and metabolic benefits of this intervention either in normal subjects (e.g. athletes) or patients with an impairment of motor capabilities requested to perform normal daily activities (i.e. severely obese and elderly people).
重复自愿运动和不同的药理学 GH 释放刺激,每 2 小时一次,与 GH 反应的完全消除有关。相比之下,在重复神经肌肉电刺激后观察到不同的模式,其特征是 GH 反应性得以保留。本研究的目的是通过一种特定的商业上可用的设备(Spiro Tiger®)评估重复呼吸肌耐力训练(RMET)对 GH 反应的影响。八名健康男性接受了 11 次递增递增 RMET 方案。在第 12 次会议期间采集了用于 GH、皮质醇和乳酸(LA)测定的血液样本,该会议由两次连续的 RMET 回合(强度和持续时间相同:每分钟 28 次呼吸率 1 分钟,32 次/分钟 5 分钟,34 次/分钟 5 分钟,36 次/分钟 4 分钟),间隔 2 小时。RMET 第一回合后,基础 GH 水平(平均值:0.9±0.4ng/ml)显著(p<0.01)升高(峰值:15.7±4.0ng/ml)。与第一回合相比,第二回合 RMET 的给药导致 GH 增加明显降低(p<0.05)(峰值:3.9±0.8ng/ml)。RMET 第一回合后,基础 LA 水平(平均值:1.2±0.1mmol/l)显著升高(p<0.001)(峰值:2.3±0.2mmol/l)。第二回合 RMET 导致可比的 LA 增加(从基础值 1.2±0.1mmol/l 增加到峰值 2.0±0.1mmol/l,p<0.001)。第一回合 RMET 导致皮质醇水平显著升高(p<0.01),从基础平均值 142.9±9.4ng/ml 升高至 188.8±10.3ng/ml。相比之下,第二回合 RMET 不会引起皮质醇水平的任何显著变化(基础值:149.1±9.0ng/ml,峰值:168.5±5.1ng/ml)。总之,单次 RMET 回合能够刺激 GH 和皮质醇的分泌和 LA 的产生。当 2 小时后重复第二回合时,GH 和皮质醇反应会减弱,但 LA 释放会保持。需要进一步的研究来制定长期的 RMET 方案,以持续刺激 GH-IGF-I 的释放,并最大限度地提高这种干预对正常受试者(例如运动员)或需要进行正常日常活动的运动能力受损患者的运动能力和代谢益处(即严重肥胖和老年人)。
