近红外光谱作为一种有用的研究工具来测量视觉要求高的近距离工作时前额叶皮层的活动

H. Richter, A. Crenshaw, D. Domkin, G. Elçadi
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引用次数: 3

摘要

在许多现代工作场所,努力工作压倒了休息和恢复的需要,以避免视觉表现的恶化,这是司空见惯的。在疲劳的情况下,前额皮质能够分配更多的精神/身体资源来完成给定的工作任务。然而,由于疲劳是需要恢复性休息的生理标志,因此对肌肉骨骼和心理健康的不良后果是可以预料到的。本文概述了目前的证据表明,利用近红外光谱探测前额叶大脑活动可以推动视觉工效学研究的进展,并提供了验证所提出方法的试点数据。更好地了解劳累大脑和/或眼睛“看得清楚”对与年龄有关的健康后果,可能有助于人体工程学利益攸关方找到更好的方法,以满足更安全和更富有成效的工作环境的需要。技术摘要背景:与通常的骨骼肌不同,睫状肌负责晶体晶状体的聚焦,眼外肌负责眼球运动的收敛,它们对疲劳具有抵抗力。目的:本文的双重目标是简要概述目前的证据,这些证据表明,利用近红外光谱探测血流和血流动力学前额叶脑活动可以推动视觉人体工程学研究的进展,并为所提出的方法提供试点数据。方法:视觉任务包括持续聚焦对比度变化的黑白Gabor光栅。四名年龄中位数为46岁(四分位数范围为44-50)的参与者从65厘米的距离注视光栅。三个平衡的10分钟任务需要通过(i) 0.0屈光度透镜,(ii) - 1.5屈光度透镜和(iii) - 3.5屈光度透镜对光栅目标进行中央固定和调节/收敛,同时保持最大焦点。用单通道近红外光谱仪对局部氧合血红蛋白(HbO2)进行无创测定。近红外光谱探针放置在右侧背外侧前额叶皮层或Brodmann区46附近的前额叶皮层。调节反应和对比阈值并行测量。结果:一般估计方程分析显示,在所有三种情况下,基线减去背外侧前额皮质血流量(ΔHbO2)随着时间的推移显着增加。时间的影响可能是由于不断增加的脑力劳动来补偿视觉注意力增加所引起的逐渐加重的脑力疲劳。背外侧前额叶皮层ΔHbO2的增加在振幅调节反应较大的参与者中(即在视觉表现最差的参与者中)的幅度也较大。结论:近红外光谱法记录的背外侧前额叶皮层氧血红蛋白变化可用于分析近距离工作时视觉系统的紧张程度。
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Near-Infrared Spectroscopy as a Useful Research Tool to Measure Prefrontal Cortex Activity During Visually Demanding Near Work
OCCUPATIONAL APPLICATIONS Effort, which overrides the need for rest and recuperation to avoid deterioration in visual performance, is commonplace in many contemporary workplaces. The prefrontal cortex is capable of allocating more mental/physical resources to carry out a given work task in the presence of fatigue. However, adverse musculoskeletal and mental health consequences are an anticipated outcome of this since fatigue is a physiological sign of the need for recuperative rest. This article outlines the current evidence suggesting that probing into prefrontal brain activity with near-infrared spectroscopy could advance progress in visual ergonomic research, and pilot data are provided that exemplify the proposed approach. Improved understanding of the age-related health consequences of straining the brain and/or the eyes “to see well” will likely help ergonomic stakeholders find better methods to meet the needs of safer and more productive work environments. TECHNICAL ABSTRACT Background: Unlike the usual skeletal muscles, ciliary muscles responsible for focusing the crystalline eye lens and extraocular muscles responsible for convergence eye movements appear resistant to fatigue. Purpose: The dual goals of this article are to briefly outline the current evidence that suggests that probing into blood flow and hemodynamic prefrontal brain activity with near-infrared spectroscopy could advance progress in visual ergonomic research and to provide pilot data exemplifying the proposed approach. Methods: The vision task consisted of sustained focusing on a contrast-varying black-and-white Gabor grating. Four participants with a median age of 46 (interquartile range 44–50) fixated the grating from a distance of 65 cm. Three counterbalanced 10-minute tasks required central fixation and accommodation/convergence on the grating target through (i) 0.0 diopter lenses, (ii) −1.5 diopter lenses, and (iii) −3.5 diopter lenses while maintaining maximal focus. Non-invasive measurements of local oxyhemoglobin (HbO2) were quantified with a one-channel near-infrared spectrometer. The near-infrared spectroscopy probe was placed on the prefrontal cortex in the vicinity of the right dorsolateral prefrontal cortex or Brodmann area 46. Accommodation response and contrast threshold were measured in parallel. Results: General estimating equation analyses showed that baseline-subtracted dorsolateral prefrontal cortex blood flow (ΔHbO2) increased significantly over time in all three lens conditions. The effect of time may be caused by a continuous increase in mental effort to compensate for progressively more mental fatigue induced by increased visual attention. The increase of dorsolateral prefrontal cortex ΔHbO2 was also larger in magnitude in participants with larger amplitudes accommodation response (i.e., in participants who minimized deterioration in visual performance). Conclusion: The results from this study indicate that oxyhemoglobin changes recorded over the dorsolateral prefrontal cortex with near-infrared spectroscopy can be used to assay the degree to which the visual system is strained during demanding near work.
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