保持热度调查夜间条件对男性性兴奋时阴茎皮肤温度的影响--夜间勃起检测的新方法

IF 1.6 Q3 UROLOGY & NEPHROLOGY
BJUI compass Pub Date : 2024-02-22 DOI:10.1002/bco2.328
Hille J. Torenvlied, Evelien Trip, Wouter Olthuis, Loes I. Segerink, Jack J. H. Beck
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引用次数: 0

摘要

本研究的目的是在受控环境下评估夜间环境条件对阴茎勃起温度的影响,从而研究在勃起功能障碍诊断中使用温度测量检测夜间勃起的可行性。这项研究在荷兰圣安东尼斯泌尿科进行。阴茎温度热敏电阻测量是在参与者裸体和模拟过夜状态(内裤和毯子)下视觉唤醒勃起时进行的。主要结果变量为勃起时的峰值温度和基线温度。为了尽量减少连续测量之间勃起强度和持续时间差异的影响,我们对环境条件的先后顺序进行了随机化。平均温度分别上升了 1.70°C 和 0.67°C。裸体勃起后阴茎温度立即恢复到基线,而模拟过夜条件下的测量则出现了 "持续高温效应",即在勃起后的整个 30 分钟内,阴茎温度都保持在峰值温度。这项研究结果表明,阴茎温度不仅在裸体性唤起时明显升高,而且在模拟夜间条件下也能检测到。这突出了利用温度测量进行夜间勃起检测的潜力,为开发用于非卧床勃起功能障碍诊断的现代化无创传感器系统迈出了关键的第一步。要深入了解利用阴茎温度测量进行夜间勃起检测的可行性,并评估 "保持热度效应 "对后续勃起检测的影响,还需要开展进一步的研究,包括通宵研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

‘Staying Hot’: Investigating the influence of overnight conditions on the penile skin temperature during male sexual arousal—A novel methodology for nocturnal erection detection

‘Staying Hot’: Investigating the influence of overnight conditions on the penile skin temperature during male sexual arousal—A novel methodology for nocturnal erection detection

Objective

The objective of this study is to assess the impact of overnight environmental conditions on erectile penile temperature within a controlled setting, with the aim of investigating the feasibility of using temperature measurements for nocturnal erection detection in erectile dysfunction diagnostics.

Subjects/patients and methods

We conducted a proof-of-concept study involving 10 healthy male participants aged 20 to 25. The study was carried out at the Department of Urology, St. Antonius Ziekenhuis, the Netherlands. Penile temperature thermistor measurements were taken during visually aroused erections of participants in naked state and in simulated overnight condition (underwear and blankets). Main outcome variables were peak and baseline temperature during erectile periods. To minimize the impact of differences in erectile strength and duration between consecutive measurements, we applied randomization to the order of the environmental conditions.

Results

We observed a significant increase in penile temperature during erection in both the naked (p < 0.01) and simulated overnight condition (p < 0.01). The mean temperature increase was 1.70 and 0.67°C, respectively. While penile temperature returned to baseline immediately after naked erections, the ‘Staying Hot effect’ was noted in the simulated overnight condition measurements, where the temperature remained elevated at peak temperature for the entire 30-min period following the erection.

Conclusions

The findings from this study indicate that the penile temperature not only significantly increases during naked sexual arousal but is also detectable under simulated overnight conditions. This underscores the potential of using temperature measurements for nocturnal erection detection, representing a crucial initial step in developing a modernized, non-invasive sensor system for ambulatory erectile dysfunction diagnostics. Further research, including an overnight study, is needed to gain insights into the feasibility of utilizing penile temperature measurements for nocturnal erection detection and to assess the impact of the ‘Staying Hot effect’ on subsequent erection detection.

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CiteScore
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