Hobbs Malcolm B
Faculty of Media, Arts & Society, Southampton Solent University, Southampton, Hampshire, UK.
Aviat Space Environ Med. 2014 Nov;85(11):1121-4. doi: 10.3357/ASEM.4003.2014.
Nitrogen (N2) in air causes cognitive impairment from gas narcosis when breathed at increased ambient pressures. This impairment might be reduced by using enriched air nitrox (EANx) mixtures, which have a higher oxygen and lower N2 content compared to air. This study aimed to investigate if divers differed in memory ability and self-assessment when breathing air and EANx30.
The effect of depth (shallow vs. deep) and breathing gas (air vs. EANx30) on memory ability and subjective ratings of impairment was compared in 20 divers.
Memory performance was significantly worse in deep water (Air: M = 22.1%, SD = 21.7%; EANx30: M = 22.1%, SD = 17.2%) compared to shallow water (Air: M = 29.2%, SD = 18.3%; EANx30: M = 33.3%, SD = 18.2%), but this impairment did not differ significantly between air and EANx30. Subjective ratings of impairment increased significantly from shallow water (Air: M = 5.2, SD = 5.9; EANx30: M = 3.0, SD = 4.4) to deep water (Air: M = 36.8, SD = 25.3; EANx30: M = 24.8, SD = 16.1) when breathing both air and EANx30. However, ratings were significantly lower when breathing EANx30 compared to air when in the deep water.
It was concluded EANx30 does not reduce narcotic impairment over air. Additionally, divers were able to make a correct global self-assessment they were impaired by narcosis, but were unable to make a finer assessment, leading them to erroneously believe that EANx30 was less narcotic than air.
当在升高的环境压力下呼吸时,空气中的氮气(N₂)会因气体麻醉导致认知障碍。使用富氧空气氮氧化合物(EANx)混合气可能会减轻这种障碍,与空气相比,EANx混合气的氧气含量更高,氮气含量更低。本研究旨在调查潜水员在呼吸空气和EANx30时记忆能力和自我评估是否存在差异。
比较了20名潜水员在深度(浅与深)和呼吸气体(空气与EANx30)对记忆能力和主观损伤评分的影响。
与浅水(空气:M = 29.2%,标准差 = 18.3%;EANx30:M = 33.3%,标准差 = 18.2%)相比,深水(空气:M = 22.1%,标准差 = 21.7%;EANx30:M = 22.1%,标准差 = 17.2%)中的记忆表现明显更差,但空气和EANx30之间的这种损伤没有显著差异。当呼吸空气和EANx30时,主观损伤评分从浅水(空气:M = 5.2,标准差 = 5.9;EANx30:M = 3.0,标准差 = 4.4)到深水(空气:M = 36.8,标准差 = 25.3;EANx30:M = 24.8,标准差 = 16.1)显著增加。然而,在深水中呼吸EANx30时的评分显著低于呼吸空气时的评分。
得出的结论是,EANx30与空气相比并不能减少麻醉损伤。此外,潜水员能够正确地整体自我评估他们因麻醉而受损,但无法进行更精细的评估,导致他们错误地认为EANx30的麻醉性比空气小。
