Debevec Tadej, Pialoux Vincent, Millet Grégoire P, Martin Agnès, Mramor Minca, Osredkar Damjan
Faculty of Sport, University of Ljubljana, Ljubljana, Slovenia.
Department of Automation, Biocybernetics and Robotics, Jožef Stefan Institute, Ljubljana, Slovenia.
Front Physiol. 2019 Apr 16;10:437. doi: 10.3389/fphys.2019.00437. eCollection 2019.
Pre-term birth provokes life-long anatomical and functional respiratory system sequelae. Although blunted hypoxic ventilatory response (HVR) is consistently observed in pre-term infants, it remains unclear if it persists with aging and, moreover, if it influences hypoxic exercise capacity. In addition, it remains unresolved whether the previously observed prematurity-related alterations in redox balance could contribute to HVR modulation.
Twenty-one prematurely born adult males (gestational age = 29 4 weeks], and 14 age matched controls born at full term (gestational age = 39 2 weeks) underwent three tests in a randomized manner: (1) hypoxia chemo-sensitivity test to determine the resting and exercise poikilocapnic HVR and a graded exercise test to volitional exhaustion in (2) normoxia (FO = 0.21), and (3) normobaric hypoxia (FO = 0.13) to compare the hypoxia-related effects on maximal aerobic power (MAP). Selected prooxidant and antioxidant markers were analyzed from venous samples obtained before and after the HVR tests.
Resting HVR was lower in the pre-term (0.21 0.21 L ⋅ min ⋅ kg) compared to full-term born individuals (0.47 0.23 L ⋅ min ⋅ kg; < 0.05). No differences were noted in the exercise HVR or in any of the measured oxidative stress markers before or after the HVR test. Hypoxia-related reduction of MAP was comparable between the groups.
These findings indicate that blunted resting HVR in prematurely born men persists into adulthood. Also, active adults born prematurely seem to tolerate hypoxic exercise well and should, hence, not be discouraged to engage in physical activities in hypoxic environments. Nevertheless, the blunted resting HVR and greater desaturation observed in the pre-term born individuals warrant caution especially during prolonged hypoxic exposures.
早产会引发终身的呼吸系统解剖和功能后遗症。尽管在早产儿中一直观察到低氧通气反应(HVR)减弱,但尚不清楚这种情况是否会随着年龄增长而持续存在,此外,它是否会影响低氧运动能力。此外,之前观察到的与早产相关的氧化还原平衡改变是否会导致HVR调节仍未得到解决。
21名早产成年男性(胎龄=29±4周)和14名足月出生的年龄匹配对照者(胎龄=39±2周)以随机方式进行了三项测试:(1)低氧化学敏感性测试,以确定静息和运动时的变碳酸血症性HVR,以及在(2)常氧(FIO₂=0.21)和(3)常压低氧(FIO₂=0.13)下进行渐增运动测试直至自愿疲劳,以比较低氧对最大有氧功率(MAP)的影响。从HVR测试前后采集的静脉样本中分析选定的促氧化剂和抗氧化剂标志物。
与足月出生个体(0.47±0.23L·min·kg;P<0.05)相比,早产儿的静息HVR较低(0.21±0.21L·min·kg)。在HVR测试前后,运动HVR或任何测量的氧化应激标志物均未发现差异。两组之间与低氧相关的MAP降低相当。
这些发现表明,早产男性静息HVR减弱的情况会持续到成年期。此外,早产的活跃成年人似乎对低氧运动耐受性良好,因此,不应劝阻他们在低氧环境中进行体育活动。然而,早产儿静息HVR减弱和更大程度的去饱和现象值得谨慎对待,尤其是在长时间低氧暴露期间。
