U-2 飞行员的较低神经认知功能:与脑白质高信号的关系。
Lower neurocognitive function in U-2 pilots: Relationship to white matter hyperintensities.
机构信息
From the US Air Force School of Aerospace Medicine (S.A.M., J.W., K.M., E.S.K.), Aerospace Medicine Consultation Division, Wright-Patterson AFB, OH; Department of Neurology (S.A.M., J.R.), University of Texas Health Sciences Center, San Antonio; Departments of Neuroradiology (P.M.S.) and Neurology (S.A.M., J.H.S., A.M.W.), 59th Medical Wing, Lackland AFB; Henry Jackson Foundation for the Advancement of Military Medicine (D.F.T.), San Antonio, TX; and Maryland Psychiatric Research Center (L.M.R., B.P., S.N.W., E.H., P.V.K.), University of Maryland School of Medicine, Baltimore.
出版信息
Neurology. 2014 Aug 12;83(7):638-45. doi: 10.1212/WNL.0000000000000694. Epub 2014 Jul 9.
OBJECTIVE
Determine whether United States Air Force (USAF) U-2 pilots (U2Ps) with occupational exposure to repeated hypobaria had lower neurocognitive performance compared to pilots without repeated hypobaric exposure and whether U2P neurocognitive performance correlated with white matter hyperintensity (WMH) burden.
METHODS
We collected Multidimensional Aptitude Battery-II (MAB-II) and MicroCog: Assessment of Cognitive Functioning (MicroCog) neurocognitive data on USAF U2Ps with a history of repeated occupational exposure to hypobaria and compared these with control data collected from USAF pilots (AFPs) without repeated hypobaric exposure (U2Ps/AFPs MAB-II 87/83; MicroCog 93/80). Additional comparisons were performed between U2Ps with high vs low WMH burden.
RESULTS
U2Ps with repeated hypobaric exposure had significantly lower scores than control pilots on reasoning/calculation (U2Ps/AFPs 99.4/106.5), memory (105.5/110.9), information processing accuracy (102.1/105.8), and general cognitive functioning (103.5/108.5). In addition, U2Ps with high whole-brain WMH count showed significantly lower scores on reasoning/calculation (high/low 96.8/104.1), memory (102.9/110.2), general cognitive functioning (101.5/107.2), and general cognitive proficiency (103.6/108.8) than U2Ps with low WMH burden (high/low WMH mean volume 0.213/0.003 cm(3) and mean count 14.2/0.4).
CONCLUSION
In these otherwise healthy, highly functioning individuals, pilots with occupational exposure to repeated hypobaria demonstrated lower neurocognitive performance, albeit demonstrable on only some tests, than pilots without repeated exposure. Furthermore, within the U2P population, higher WMH burden was associated with lower neurocognitive test performance. Hypobaric exposure may be a risk factor for subtle changes in neurocognition.
目的
确定美国空军(USAF)从事反复低气压职业暴露的 U-2 飞行员(U2P)的神经认知表现是否低于没有反复低气压暴露的飞行员,以及 U2P 的神经认知表现是否与脑白质高信号(WMH)负担相关。
方法
我们收集了有反复低气压职业暴露史的 USAF U2P 的多维能力测验 II(MAB-II)和 MicroCog:认知功能评估(MicroCog)神经认知数据,并将这些数据与没有反复低气压暴露的 USAF 飞行员(AFPs)的对照数据进行了比较(U2Ps/AFPs MAB-II 87/83;MicroCog 93/80)。还对 WMH 负担较高与较低的 U2P 之间进行了比较。
结果
与对照组飞行员相比,反复低气压暴露的 U2P 在推理/计算(U2Ps/AFPs 99.4/106.5)、记忆力(105.5/110.9)、信息处理准确性(102.1/105.8)和总体认知功能(103.5/108.5)方面的得分明显较低。此外,WMH 全脑计数较高的 U2P 在推理/计算(高/低 96.8/104.1)、记忆力(102.9/110.2)、总体认知功能(101.5/107.2)和总体认知能力(103.6/108.8)方面的得分明显较低,而 WMH 负担较低的 U2P(高/低 WMH 平均体积 0.213/0.003cm(3)和平均计数 14.2/0.4)。
结论
在这些健康状况良好、功能高度正常的个体中,从事反复低气压职业暴露的飞行员的神经认知表现较低,尽管仅在某些测试中表现出这一点,而没有反复暴露的飞行员。此外,在 U2P 人群中,较高的 WMH 负担与较低的神经认知测试表现相关。低气压暴露可能是神经认知功能轻微变化的危险因素。
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