Katrina J Carter, Steven S Laurie, Katherine G Warthen, Stuart H Sater, Bryn A Martin, Ching Mei Feng, Millennia Young, Khader M Hasan, Larry A Kramer, Brandon R Macias
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Abstract
Changes in ocular and brain structure and cerebral spinal fluid (CSF) dynamics from magnetic resonance imaging (MRI) data have been reported in astronauts following long-duration spaceflight. The purpose of this study was to quantify normal variation in these outcomes over a 2-year period in a healthy cohort similar in age to astronauts, but without spaceflight experience. Variation in MRI acquisition, observer measurement, or normal aging over a 2-year period was used to determine thresholds for interpreting measures following long duration spaceflight. Ten healthy participants (5 male) age 38 ± 8 years (mean ± SD) underwent five MRI sessions at baseline, 2, 6, 12, and 24 months to quantify intracranial volumetry, CSF dynamics, pituitary morphology, and ocular structures. Total within-person variation (σ2total), modeled as the sum of the variance components for each outcome measure, was used to define a sensitivity threshold of 2.00 x σ2total. Changes greater than these thresholds can be interpreted as a result of an intervention and have <5% probability of occurring due to expected variability. Thresholds for change due to all sources of variability were: 27 mL for gray matter volume, 16 mL for white matter volume, 0.9 mL for lateral ventricular volume, 26.0 µL for CSF aqueductal stroke volume, 3.2 cm/s for peak-to-peak aqueductal CSF velocity, 0.5 mm for pituitary height, 0.50 mm for optic nerve sheath diameter, and 10.2 mm3 for posterior optic globe volume displacement. Changes on brain MR images after an intervention need to exceed these thresholds to be attributable to that intervention.
据报道,在长期航天飞行后,宇航员的眼和脑结构以及从磁共振成像(MRI)数据得出的脑脊液(CSF)动力学发生了变化。这项研究的目的是在一个与宇航员年龄相近但没有太空飞行经验的健康队列中,量化这些结果在2年内的正常变化。在2年的时间里,MRI采集、观察者测量或正常老化的变化被用来确定解释长时间航天飞行后测量结果的阈值。10名健康参与者(5名男性),年龄38±8岁(平均±SD),在基线、2、6、12和24个月接受了5次MRI检查,以量化颅内容量、脑脊液动力学、垂体形态学和眼部结构。总人内变异(σ2total),建模为每个结果度量的方差成分之和,用于定义2.00 x σ2total的灵敏度阈值。大于这些阈值的变化可以解释为干预的结果,后视球体积位移为3。干预后脑磁共振图像的变化需要超过这些阈值才能归因于该干预。
期刊介绍:
The Journal of Applied Physiology publishes the highest quality original research and reviews that examine novel adaptive and integrative physiological mechanisms in humans and animals that advance the field. The journal encourages the submission of manuscripts that examine the acute and adaptive responses of various organs, tissues, cells and/or molecular pathways to environmental, physiological and/or pathophysiological stressors. As an applied physiology journal, topics of interest are not limited to a particular organ system. The journal, therefore, considers a wide array of integrative and translational research topics examining the mechanisms involved in disease processes and mitigation strategies, as well as the promotion of health and well-being throughout the lifespan. Priority is given to manuscripts that provide mechanistic insight deemed to exert an impact on the field.
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