感觉热":探索通过阴茎温度测量检测夜间勃起的可行性

IF 1.6 Q3 UROLOGY & NEPHROLOGY
BJUI compass Pub Date : 2024-05-30 DOI:10.1002/bco2.372
Hille J. Torenvlied, Evelien Trip, Wouter Olthuis, Loes I. Segerink, Rob C. M. Pelger, Jack J. H. Beck
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引用次数: 0

摘要

目的 "感觉热 "观察性研究旨在评估利用夜间阴茎温度测量检测夜间勃起的可行性,从而促进勃起功能障碍无创诊断系统的发展和现代化。 受试者/患者和方法 在这项概念验证研究中,按照 Torenvlied 等人的 "保持热度 "研究中概述的方法,招募了 10 名 20-25 岁的健康男性。主要结果测量包括 RigiScan 记录的夜间勃起时的阴茎基线温度和峰值温度。此外,还对大腿温度进行了参考测量,以评估夜间温度变化。 结果 在夜间勃起时观察到阴茎温度明显升高(p = 0.008,n = 9),最初勃起时平均升高 1.47°C。这凸显了阴茎温度测量在检测勃起开始时的实用性。由于初次勃起后温度持续升高,即 "持续高温效应",因此在准确确定勃起持续时间和随后的勃起开始时间方面存在挑战。参考大腿温度测量有助于解决这一难题。 结论 在同时进行 RigiScan 记录的同时检查夜间阴茎温度,对使用温度方法检测夜间勃起的可行性产生了宝贵的启示。感觉热 "研究结果表明,健康的年轻男性在夜间勃起时阴茎温度会明显升高,这凸显了将这种测量方法整合到非卧床勃起功能障碍诊断现代化工具设计中的潜力。进一步开发可全面评估勃起持续时间和质量的先进传感器系统对于提高临床适用性至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

‘Feeling Hot’: Exploring the feasibility of nocturnal erection detection through penile temperature measurements

‘Feeling Hot’: Exploring the feasibility of nocturnal erection detection through penile temperature measurements

Objectives

The observational ‘Feeling Hot’ study aims to evaluate the feasibility of employing overnight penile temperature measurements for the detection of nocturnal erections, thereby contributing to the advancement and modernization of a non-invasive diagnostic system for erectile dysfunction.

Subjects/Patients and Methods

In this proof-of-concept study, 10 healthy men aged 20–25 were recruited, following the methodology outlined in the ‘Staying Hot’ study by Torenvlied et al. Participants underwent ambulatory overnight penile temperature measurements concurrent with RigiScan recordings. Key outcome measures included baseline and peak penile temperatures during RigiScan-annotated nocturnal erections. Reference measurements of the thigh temperature were also taken to assess nocturnal temperature variations.

Results

Statistically significant penile temperature increases (p = 0.008, n = 9) were observed during nocturnal erections, with an average elevation of 1.47°C noted during the initial erections. This underscores the practical utility of penile temperature measurements in detecting erection onset. Challenges arose in accurately determining erection duration and subsequent erection onsets due to the persistence of elevated temperatures following initial erections, termed the ‘Staying Hot effect’. Reference thigh temperature measurements aided in addressing this challenge.

Conclusion

Examining overnight penile temperature alongside simultaneous RigiScan recordings has yielded valuable insights into the viability of using the temperature methodology for detecting nocturnal erections. The ‘Feeling Hot’ study findings demonstrate significant penile temperature elevation during nocturnal erections in healthy young men, highlighting the potential of integrating this measurement methodology into the design of a modernized tool for ambulatory erectile dysfunction diagnostics. Further development of an advanced sensor system to comprehensively assess erection duration and quality is essential for enhancing clinical applicability.

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CiteScore
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