Wang Xiangyang, Wang Ruojiang, Zhang Yuyang, Wu You, Wu Xu, Luo Zihao, Chang Yu, Zhang Xiansheng, Pan Tingrui
School of Biomedical Engineering, Division of Life Sciences and Medicine, University of Science and Technology of China, Hefei, Anhui, 230026, China.
Suzhou Institute for Advanced Research, University of Science and Technology of China, Suzhou, Jiangsu, 215123, China.
Microsyst Nanoeng. 2024 Sep 20;10(1):131. doi: 10.1038/s41378-024-00721-5.
Erectile dysfunction (ED) is a prevalent type of sexual dysfunction, and continuous monitoring of penile tumescence and rigidity during spontaneous nocturnal erections is crucial for its diagnosis and classification. However, the current clinical standard device, limited by its active mechanical load, is bulky and nonwearable and strongly interferes with erections, which compromises both monitoring reliability and patient compliance. Here, we report a wearable adaptive rigidity monitoring (WARM) system that employs a measurement principle without active loads, allowing for the assessment of penile tumescence and rigidity through a specifically designed elastic dual-ring sensor. The dual-ring sensor, comprising two strain-sensing rings with distinct elastic moduli, provides high resolution (0.1%), robust mechanical and electrical stability (sustaining over 1000 cycles), and strong interference resistance. An integrated flexible printed circuit (FPC) collects and processes sensing signals, which are then transmitted to the host computer via Bluetooth for ED assessment. Additionally, we validated the WARM system against the clinical standard device using both a penile model and healthy volunteers, achieving high consistency. Furthermore, the system facilitates the continuous evaluation of penile erections during nocturnal tumescence tests with concurrent sleep monitoring, demonstrating its ability to minimize interference with nocturnal erections. In conclusion, the WARM system offers a fully integrated, wearable solution for continuous, precise, and patient-friendly measurement of penile tumescence and rigidity, potentially providing more reliable and accessible outcomes than existing technologies. Erectile dysfunction (ED) is a prevalent sexual dysfunction, and continuous monitoring of penile tumescence and rigidity during spontaneous nocturnal erections is crucial for its diagnosis and classification. However, the current clinical standard device, limited by its active mechanical load, is bulky, nonwearable, and creates pronounced interference with erections, which compromises both monitoring reliability and patient compliance. Here, we report a wearable adaptive rigidity monitoring (WARM) system (Fig. 1a) that employs a measurement principle without active loads (Fig. 1b), allowing for the assessment of penile tumescence and rigidity through a specifically designed elastic dual-ring sensor. The dual-ring sensor, comprising two strain-sensing rings with distinct elastic moduli, provides high resolution (0.1%), robust mechanical and electrical stability (sustaining over 1000 cycles), and strong interference resistance. Additionally, we validate the WARM system against the clinical standard device using both a penile model and healthy volunteers, achieving high consistency. Furthermore, the system facilitates the continuous evaluation of penile erections during nocturnal tumescence tests, with concurrent sleep monitoring, demonstrating its ability to minimize interference with nocturnal erections (Fig. 1c). In conclusion, the WARM system offers a fully integrated, wearable solution for continuous, precise, and patient-friendly measurement of penile tumescence and rigidity, potentially providing more reliable and accessible outcomes than those from existing technologies.
勃起功能障碍(ED)是一种常见的性功能障碍类型,在自然夜间勃起过程中持续监测阴茎的肿胀和硬度对于其诊断和分类至关重要。然而,当前的临床标准设备受其主动机械负载的限制,体积庞大且不可穿戴,并且会对勃起产生强烈干扰,这损害了监测的可靠性和患者的依从性。在此,我们报告一种可穿戴自适应硬度监测(WARM)系统,该系统采用无主动负载的测量原理,通过专门设计的弹性双环传感器来评估阴茎的肿胀和硬度。双环传感器由两个具有不同弹性模量的应变传感环组成,提供高分辨率(0.1%)、强大的机械和电气稳定性(可持续超过1000次循环)以及强抗干扰能力。集成的柔性印刷电路板(FPC)收集并处理传感信号,然后通过蓝牙将其传输到主机计算机进行ED评估。此外,我们使用阴茎模型和健康志愿者将WARM系统与临床标准设备进行了验证,结果具有高度一致性。此外,该系统有助于在夜间肿胀测试期间对阴茎勃起进行连续评估,并同时监测睡眠,证明其能够将对夜间勃起的干扰降至最低。总之,WARM系统提供了一种完全集成的、可穿戴的解决方案,用于连续、精确且对患者友好的阴茎肿胀和硬度测量,可能比现有技术提供更可靠且更易获得的结果。勃起功能障碍(ED)是一种常见的性功能障碍,在自然夜间勃起过程中持续监测阴茎的肿胀和硬度对于其诊断和分类至关重要。然而,当前的临床标准设备受其主动机械负载的限制,体积庞大、不可穿戴,并且对勃起产生明显干扰,这损害了监测的可靠性和患者的依从性。在此,我们报告一种可穿戴自适应硬度监测(WARM)系统(图1a),该系统采用无主动负载的测量原理(图1b),通过专门设计的弹性双环传感器来评估阴茎的肿胀和硬度。双环传感器由两个具有不同弹性模量的应变传感环组成,提供高分辨率(0.1%)、强大的机械和电气稳定性(可持续超过1000次循环)以及强抗干扰能力。此外,我们使用阴茎模型和健康志愿者将WARM系统与临床标准设备进行了验证,结果具有高度一致性。此外,该系统有助于在夜间肿胀测试期间对阴茎勃起进行连续评估,并同时监测睡眠,证明其能够将对夜间勃起的干扰降至最低(图1c)。总之,WARM系统提供了一种完全集成且可穿戴的解决方案,用于连续、精确且对患者友好的阴茎肿胀和硬度测量,可能比现有技术的结果更可靠且更易获得。
