A wireless, battery-free device for electrical neuromodulation of bladder contractions

IF 8.7 1区 医学 Q1 ENGINEERING, BIOMEDICAL Materials Today Bio Pub Date : 2024-09-13 DOI:10.1016/j.mtbio.2024.101233
Jun Li , Guoxian Deng , Xianping Li , Lingxuan Yin , Chunhui Yuan , Wei Shao , Xiaowen Xia , Junan Yan , Jiwei Yao
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Abstract

Lower urinary tract dysfunction (LUTD) is a prevalent condition characterized by symptoms such as urinary frequency, urgency, incontinence, and difficulty in urination, which can significantly impair patient's quality of life and lead to severe physiological complications. Despite the availability of diverse treatment options, including pharmaceutical and behavioral therapies, these approaches are not without challenges. The objective of this study was to enhance treatment options for LUTD by developing a wireless, battery-free device for managing bladder contractions. We designed and validated a compact, fully implantable, battery-free pulse generator using the magnetic induction coupling mechanism of wireless power transmission. Weighing less than 0.2 g and with a volume of less than 0.1 cubic centimeters, this device enables precise stimulation of muscles or neurons at voltages ranging from 0 to 10 V. Wireless technology allows real-time adjustment of key stimulation parameters such as voltage, duration, frequency, pulse width, and pulse interval. Our findings demonstrate that the device effectively controlled bladder contractions in mice when used to stimulate the Major Pelvic Ganglion (MPG). Additionally, the device successfully managed micturition in mice with bilateral transection of the pudendal nerve. In conclusion, the development of this innovative wireless pulse generator provides a safer and more cost-effective alternative to conventional battery-powered neurostimulators for bladder control, addressing the limitations of such devices. We anticipate that this novel technology will play a pivotal role in the future of electrical stimulation therapies for voiding dysfunctions.

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无需电池的无线膀胱收缩神经调节装置
下尿路功能障碍(LUTD)是一种以尿频、尿急、尿失禁和排尿困难等症状为特征的常见疾病,会严重影响患者的生活质量,并导致严重的生理并发症。尽管有包括药物和行为疗法在内的多种治疗方案,但这些方法并非没有挑战。本研究的目的是通过开发一种用于控制膀胱收缩的无线、免电池设备来改进 LUTD 的治疗方案。我们设计并验证了一种结构紧凑、完全可植入、无需电池的脉冲发生器,它采用了无线电力传输的磁感应耦合机制。该设备重量不到 0.2 克,体积小于 0.1 立方厘米,能以 0 到 10 V 的电压对肌肉或神经元进行精确刺激。无线技术允许对电压、持续时间、频率、脉冲宽度和脉冲间隔等关键刺激参数进行实时调整。我们的研究结果表明,当该设备用于刺激骨盆大神经节(MPG)时,能有效控制小鼠的膀胱收缩。此外,该装置还成功控制了双侧阴部神经切断的小鼠的排尿。总之,这种创新型无线脉冲发生器的开发为传统的电池供电膀胱控制神经刺激器提供了更安全、更具成本效益的替代方案,解决了此类设备的局限性。我们预计这项新技术将在未来治疗排尿功能障碍的电刺激疗法中发挥关键作用。
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来源期刊
CiteScore
8.30
自引率
4.90%
发文量
303
审稿时长
30 days
期刊介绍: Materials Today Bio is a multidisciplinary journal that specializes in the intersection between biology and materials science, chemistry, physics, engineering, and medicine. It covers various aspects such as the design and assembly of new structures, their interaction with biological systems, functionalization, bioimaging, therapies, and diagnostics in healthcare. The journal aims to showcase the most significant advancements and discoveries in this field. As part of the Materials Today family, Materials Today Bio provides rigorous peer review, quick decision-making, and high visibility for authors. It is indexed in Scopus, PubMed Central, Emerging Sources, Citation Index (ESCI), and Directory of Open Access Journals (DOAJ).
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