Method to Quickly Map Multifocal Pupillary Response Fields (mPRF) Using Frequency Tagging.

Q2 Medicine Vision (Switzerland) Pub Date : 2024-04-09 DOI:10.3390/vision8020017
Jean Lorenceau, Suzon Ajasse, Raphael Barbet, Muriel Boucart, Frédéric Chavane, Cédric Lamirel, Richard Legras, Frédéric Matonti, Maxence Rateaux, Jean-François Rouland, José-Alain Sahel, Laure Trinquet, Mark Wexler, Catherine Vignal-Clermont
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Abstract

We present a method for mapping multifocal Pupillary Response Fields in a short amount of time using a visual stimulus covering 40° of the visual angle divided into nine contiguous sectors simultaneously modulated in luminance at specific, incommensurate, temporal frequencies. We test this multifocal Pupillary Frequency Tagging (mPFT) approach with young healthy participants (N = 36) and show that the spectral power of the sustained pupillary response elicited by 45 s of fixation of this multipartite stimulus reflects the relative contribution of each sector/frequency to the overall pupillary response. We further analyze the phase lag for each temporal frequency as well as several global features related to pupil state. Test/retest performed on a subset of participants indicates good repeatability. We also investigate the existence of structural (RNFL)/functional (mPFT) relationships. We then summarize the results of clinical studies conducted with mPFT on patients with neuropathies and retinopathies and show that the features derived from pupillary signal analyses, the distribution of spectral power in particular, are homologous to disease characteristics and allow for sorting patients from healthy participants with excellent sensitivity and specificity. This method thus appears as a convenient, objective, and fast tool for assessing the integrity of retino-pupillary circuits as well as idiosyncrasies and permits to objectively assess and follow-up retinopathies or neuropathies in a short amount of time.

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利用频率标签快速绘制多焦瞳孔反应场 (mPRF) 的方法。
我们提出了一种在短时间内绘制多焦瞳孔反应场的方法,使用的视觉刺激物占视角的 40°,分为九个连续扇区,同时以特定的、不相称的时间频率对亮度进行调制。我们用年轻健康的参与者(36 人)对这种多焦点瞳孔频率标记(mPFT)方法进行了测试,结果表明,这种多部分刺激固定 45 秒后引起的持续瞳孔反应的频谱功率反映了每个扇区/频率对整体瞳孔反应的相对贡献。我们进一步分析了每个时间频率的相位滞后以及与瞳孔状态相关的几个全局特征。对部分参与者进行的测试/重复测试表明重复性良好。我们还研究了结构(RNFL)/功能(mPFT)之间的关系。然后,我们总结了使用 mPFT 对神经病变和视网膜病变患者进行临床研究的结果,并表明从瞳孔信号分析中得出的特征,尤其是频谱功率的分布,与疾病特征具有同源性,并能以极高的灵敏度和特异性将患者与健康参与者区分开来。因此,该方法是评估视网膜-瞳孔回路完整性和特异性的一种方便、客观和快速的工具,可在短时间内客观地评估和跟踪视网膜病变或神经病变。
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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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