Van Dorp Eveline, Los Michel, Dirven Perjan, Sarton Elise, Valk Pierre, Teppema Luc, Stienstra Rudolf, Dahan Albert
Department of Anesthesiology, Leiden University Medical Center, Leiden, The Netherlands.
Aviat Space Environ Med. 2007 Jul;78(7):666-72.
Exposure to a hypoxic environment has a deleterious effect on physiological and mental functions. We studied the effect of added inspired CO2 during artificially induced hypoxic normobaric hypoxia (oxygen saturation approximately 80%) on complex task performance.
In random order, 22 healthy volunteers were exposed to 3 gas mixtures for 50 min each: sham hypoxia (SH, PetO2 103 mmHg without inspired CO2); isocapnic hypoxia (IH, PetO2 approximately 40 mmHg, PetcO2 clamped to 0.4 mmHg above resting values); and poikilocapnic hypoxia (PH, PetO2 approximately 40 mmHg; no inspired CO2). Brain oxygenation was measured using near infrared spectroscopy. During minutes 25-45 of hypoxia, subjects performed vigilance and task performance tests used in aviation research: the Vigilance and Tracking test and the Multi-Attribute Task battery (MAT-bat). The tests varied in difficulty with the tracking tests considered most difficult.
PetCO2 levels differed significantly among groups: IH 42.8 +/- 0.7, SH 39.0 +/- 0.7, and PH 36.8 +/- 0.7 mmHg. Brain oxygenation levels were significantly higher during IH than PH (62.2 +/- 1.0 vs. 59.1 +/- 1.3%). The results of the performance tests indicated a negative effect of PH vs. SH on most function tests. For the Tracking test of the MAT-bat, performance was worst during PH, but returned to baseline during IH.
We demonstrate the ability of added inspired CO2 to improve performance during hypoxia by preventing PH-associated hypocapnia-induced vasoconstriction of brain blood vessels. Our results are relevant to aerospace medicine and other circumstances in which complex tasks are performed in a hypoxic environment such as mountain climbing and working in confined spaces.
暴露于低氧环境会对生理和心理功能产生有害影响。我们研究了在人工诱导的常压低氧(氧饱和度约80%)期间添加吸入二氧化碳对复杂任务表现的影响。
22名健康志愿者按随机顺序分别暴露于三种气体混合物中,每种持续50分钟:假低氧(SH,呼气末氧分压103 mmHg,无吸入二氧化碳);等碳酸血症性低氧(IH,呼气末氧分压约40 mmHg,呼气末二氧化碳分压维持在高于静息值0.4 mmHg);以及变碳酸血症性低氧(PH,呼气末氧分压约40 mmHg;无吸入二氧化碳)。使用近红外光谱法测量脑氧合。在低氧的第25 - 45分钟期间,受试者进行航空研究中使用的警觉性和任务表现测试:警觉性和追踪测试以及多属性任务组块(MAT - bat)。测试难度各异,追踪测试被认为最难。
各组间呼气末二氧化碳水平差异显著:IH为42.8±0.7 mmHg,SH为39.0±0.7 mmHg,PH为36.8±0.7 mmHg。脑氧合水平在IH期间显著高于PH(62.2±1.0%对59.1±1.3%)。表现测试结果表明,与SH相比,PH对大多数功能测试有负面影响。对于MAT - bat的追踪测试,PH期间表现最差,但在IH期间恢复到基线水平。
我们证明了添加吸入二氧化碳能够通过防止与PH相关的低碳酸血症诱导的脑血管收缩来改善低氧期间的表现。我们的结果与航空航天医学以及其他在低氧环境中进行复杂任务的情况相关,如登山和在密闭空间工作。
