瞳孔放大可显示触摸的强度。

Psychophysiology Pub Date : 2024-06-01 Epub Date: 2024-02-16 DOI:10.1111/psyp.14538
Antonia F Ten Brink, Iris Heiner, H Chris Dijkerman, Christoph Strauch
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摘要

触觉对我们日常活动的许多方面都很重要。最重要的触觉特征之一是其感知强度。然而,量化感知到的触觉刺激强度并不总能通过公开的反应来实现。在这里,我们展示了瞳孔反应可以在没有公开参与者反应的情况下客观地反映触觉刺激的强度。在实验 1(n = 32)中,我们在追踪瞳孔反应的同时,用触觉器轻触三个据报道敏感度不同的身体部位(手指、前臂和小腿)。与没有刺激的基线相比,触觉刺激导致的瞳孔放大更大。此外,与敏感度较低的部位(前臂和小腿)相比,敏感度较高的部位(手指)的瞳孔放大程度更大。在实验 2(n = 20)中,我们通过三种不同强度的刺激来扩展这些研究结果。同样,与较低强度的刺激相比,较高强度的刺激会使瞳孔放大。总之,在恒定的刺激强度和恒定的刺激位置下,瞳孔在身体更敏感的部位放大得更多。总之,研究结果表明,可以通过瞳孔反应客观地测量所感知的触觉刺激强度,而且这种反应是触觉研究的一种多功能标记。我们的研究结果可能会为以前无法进行的触觉灵敏度客观测试铺平道路,例如在微意识状态下对病人进行测试。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pupil dilation reveals the intensity of touch.

Touch is important for many aspects of our daily activities. One of the most important tactile characteristics is its perceived intensity. However, quantifying the intensity of perceived tactile stimulation is not always possible using overt responses. Here, we show that pupil responses can objectively index the intensity of tactile stimulation in the absence of overt participant responses. In Experiment 1 (n = 32), we stimulated three reportedly differentially sensitive body locations (finger, forearm, and calf) with a single tap of a tactor while tracking pupil responses. Tactile stimulation resulted in greater pupil dilation than a baseline without stimulation. Furthermore, pupils dilated more for the more sensitive location (finger) than for the less sensitive location (forearm and calf). In Experiment 2 (n = 20) we extended these findings by manipulating the intensity of the stimulation with three different intensities, here a short vibration, always at the little finger. Again, pupils dilated more when being stimulated at higher intensities as compared to lower intensities. In summary, pupils dilated more for more sensitive parts of the body at constant stimulation intensity and for more intense stimulation at constant location. Taken together, the results show that the intensity of perceived tactile stimulation can be objectively measured with pupil responses - and that such responses are a versatile marker for touch research. Our findings may pave the way for previously impossible objective tests of tactile sensitivity, for example in minimally conscious state patients.

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