天津医药

天津医药 ›› 2017, Vol. 45 ›› Issue (1): 87-90.doi: 10.11958/20161140

• 新技术交流 • 上一篇    下一篇

应用自制声学观察装置监测食管运动功能的实验研究

赵春山   

  1. 天津医科大学总医院
  • 收稿日期:2016-10-10 修回日期:2016-12-03 出版日期:2017-01-15 发布日期:2017-01-15
  • 通讯作者: 赵春山 E-mail:zcsdoc@163.com
  • 基金资助:
    基于隧道技术食管粘膜下吞咽感知程序起搏治疗贲门失弛缓症的实验研究

Experimental Study of Animal Esophageal Motility Using Sonic Wave Device

ZHAO chunshan   

  1. Department of Gastroenterology, Tianjin Medical University General Hospital, Tianjin 300052, China

  • Received:2016-10-10 Revised:2016-12-03 Published:2017-01-15 Online:2017-01-15
  • Contact: ZHAO chunshan E-mail:zcsdoc@163.com
  • Supported by:
    Experimentalstudy on the Poem-based swallow-sensory feedback controlled pacemaking system on the treament of achalasia

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摘要: 摘要: 目的 探讨应用声波振荡器、 接收器及数字处理系统组建的声学观察装置对食管下括约肌(LES)运动的 实时监测作用。方法 通过将一种可发出 16 kHz 声波的微型振荡器固定在 LES 下方胃腔内, LES 上方食管腔放置 微型麦克风以接收振荡器发出的声音, 可以实现对 LES 开放和关闭动态变化进行监测。本研究应用专门设计的 LES 模拟器对此装置进行体外测试, 分别收集安静及嘈杂环境中 11 种不同 LES 闭合程度下的声波强度。在犬模型 上进行在体测试, 分别收集犬 LES 静息闭合 (A)、 内镜压迫开放 (B~C) 及再次闭合 (D) 状态下的声波强度。结果 在 体外测试中, LES 开放和闭合的程度由模拟器控制, 安静和嘈杂环境中, 16 kHz 频率时 LES 闭合程度与麦克风捕捉 到的信号强度均呈负相关(均 P<0.05)。在犬体内测试中, LES 的开放或关闭由胃镜机械控制, 而另一个内镜经十 二指肠开口插入, 经幽门进入胃内对 LES 运动进行实时观测。A~D 4 个时段麦克风探测到的平均声信号强度分别 是(-89.63±0.79) dB、(-84.74±0.97) dB、(-82.37±1.93) dB、(-89.86±0.75) dB。结论 声讯技术能够对 LES 进行动态 监测, 有潜力成为研究 LES 功能障碍疾病的有价值的微创检查技术

Abstract: Abstract: Objective To investigate a sonic wave device including micro- oscillator and microphone for real- time monitoring the situation of the esophageal motility of lower esophageal sphincter (LES). Methods A micro-oscillator that can actively send sound waves was located at one side of LES, and a microphone located at the other side can be to capture the sound generated from the oscillator. This device was tested in vitro by utilizing a LES simulator in quiet and noisy environment, as well as in vivo in a pilot model corresponding to moments A-D. Results In the in vitro test, the sound can be captured by the microphone, and its power strength was correlated with closing and opening of LES. The measurements showed statistically significant Pearson correlation coefficients. In the in vivo test, the LES was open and closed by an endoscope, which was monitored in real-time by another endoscope inserted into the distal stomach from the duodenum. The sound power strength corresponding to moments A-D were (- 89.63±0.79) dB, (-84.74±0.97) dB, (-82.37±1.93) dB and (-89.86±0.75) dB. Conclusion The LES dynamics can be monitored by the acoustic interrogation device, which has the potential to become an effective minimally-invasive technique for studying LES dysfunction.

Key words: esophageal motility, endoscope, sonic wave, animal experiment