Measuring the Pupillary Light Reflex Using Portable Instruments in Applied Settings.

Q2 Medicine
Nicola S Gray, Menna Price, Jennifer Pink, Chris O'Connor, Ana Antunes, Robert J Snowden
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Abstract

The early components of the pupillary light reflex (PLR) are governed by the parasympathetic nervous system. The use of cheap, portable pupillometry devices may allow for the testing of parasympathetic-system health in field settings. We examined the reliability of two portable instruments for measuring the PLR and their sensitivity to individual differences known to modulate the PLR. Parameters of the PLR were measured in a community sample (N = 108) in a variety of field settings. Measurements were taken using a commercial pupillometer (NeuroLight, IDMED) and an iPhone using the Reflex Pro PLR analyser (Brightlamp). The parameters of baseline pupil diameter, constriction latency, amplitude and relative amplitude of constriction, and constriction velocity were measured. Individual differences related to age, levels of anxiety, and post-traumatic stress disorder (PTSD) symptomology were assessed. Some measures could not be attained using the iPhone under these field conditions. The reliability of the measures was high, save for the measurement of contraction latency which was particularly unreliable for the iPhone system. The parameters of the PLR showed the same internal relationships as those established in laboratory-based measurements. Age was negatively correlated with all the reliable PLR parameters for both systems. Effects of anxiety and PTSD symptomology were also apparent. The study demonstrated that a hand-held portable infrared pupillometer can be used successfully to measure the PLR parameters under field settings and can be used to examine individual differences. This may allow these devices to be used in workplaces, sports fields, roadsides, etc., to examine parasympathetic activity where needed.

在应用环境中使用便携式仪器测量瞳孔光反射。
瞳孔光反射(PLR)的早期部分由副交感神经系统控制。使用廉价的便携式瞳孔测量仪可以在野外环境中测试副交感神经系统的健康状况。我们研究了两种便携式瞳孔测量仪测量副交感神经系统的可靠性,以及它们对已知会调节副交感神经系统的个体差异的敏感性。我们在各种野外环境中对社区样本(N = 108)的副交感神经系统参数进行了测量。测量使用了商用瞳孔计(NeuroLight,IDMED)和 iPhone 的 Reflex Pro PLR 分析仪(Brightlamp)。测量参数包括基线瞳孔直径、收缩潜伏期、收缩幅度和相对幅度以及收缩速度。评估了与年龄、焦虑程度和创伤后应激障碍(PTSD)症状有关的个体差异。在这些现场条件下,使用 iPhone 无法实现某些测量。除了收缩潜伏期的测量在 iPhone 系统上特别不可靠外,其他测量的可靠性都很高。PLR 的参数显示出与实验室测量相同的内部关系。在两种系统中,年龄与所有可靠的 PLR 参数均呈负相关。焦虑和创伤后应激障碍症状的影响也很明显。该研究表明,手持便携式红外瞳孔计可成功用于测量现场环境下的 PLR 参数,并可用于研究个体差异。这样,这些设备就可以用于工作场所、运动场、路边等需要检查副交感神经活动的地方。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Vision (Switzerland)
Vision (Switzerland) Health Professions-Optometry
CiteScore
2.30
自引率
0.00%
发文量
62
审稿时长
11 weeks
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