How to make calibration less painful-A proposition for an automatic, reliable and time-efficient procedure.

Psychophysiology Pub Date : 2024-05-01 Epub Date: 2024-01-17 DOI:10.1111/psyp.14505
Karolina Świder, Stephan Moratti, Ricardo Bruña
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Abstract

In behavioral and neurophysiological pain studies, multiple types of calibration methods are used to quantify the individual pain sensation stimuli. Often, studies lack a detailed calibration procedure description, data linearity, and quality quantification and omit required control for sex pain differences. This hampers study repetition and interexperimental comparisons. Moreover, typical calibration procedures require a high number of stimulations, which may cause discomfort and stimuli habituation among participants. To overcome those shortcomings, we present an automatic calibration procedure with a novel stimuli estimation method for intraepidermal stimulation. We provide an in-depth data analysis of the collected self-reports from 70 healthy volunteers (37 males) and propose a method based on a dynamic truncated linear regression model (tLRM). We compare its estimates for the sensation (t) and pain (T) thresholds and mid-pain stimulation (MP), with those calculated using traditional estimation methods and standard linear regression models. Compared to the other methods, tLRM exhibits higher R2 and requires 36% fewer stimuli applications and has significantly higher t intensity and lower T and MP intensities. Regarding sex differences, t and T were found to be lower for females compared to males, regardless of the estimation method. The proposed tLRM method quantifies the calibration procedure quality, minimizes its duration and invasiveness, and provides validation of linearity between stimuli intensity and subjective scores, making it an enabling technique for further studies. Moreover, our results highlight the importance of control for sex in pain studies.

如何减少校准的痛苦--一种自动、可靠、省时的程序。
在行为学和神经生理学疼痛研究中,使用多种类型的校准方法来量化单个痛觉刺激。这些研究往往缺乏对校准程序、数据线性度和质量量化的详细描述,也没有对性别疼痛差异进行必要的控制。这妨碍了重复研究和实验间比较。此外,典型的校准程序需要大量的刺激,这可能会引起参与者的不适和刺激习惯化。为了克服这些缺点,我们提出了一种自动校准程序,该程序采用了一种新颖的刺激估算方法,用于表皮内刺激。我们对收集到的 70 名健康志愿者(37 名男性)的自我报告进行了深入的数据分析,并提出了一种基于动态截断线性回归模型(tLRM)的方法。我们将其对感觉阈值(t)、疼痛阈值(T)和中痛刺激阈值(MP)的估计值与使用传统估计方法和标准线性回归模型计算得出的估计值进行了比较。与其他方法相比,tLRM 的 R2 更高,所需的刺激次数减少了 36%,t 强度明显更高,T 和 MP 强度更低。在性别差异方面,无论采用哪种估算方法,女性的 t 和 T 值都低于男性。所提出的 tLRM 方法量化了校准程序的质量,最大限度地缩短了时间,降低了侵入性,并验证了刺激强度和主观评分之间的线性关系,使其成为一种可用于进一步研究的技术。此外,我们的研究结果还强调了疼痛研究中性别控制的重要性。
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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