Ozawa H, Kumon H, Yokoyama T, Watanabe T, Chancellor M B
Department of Urology, Okayama University Medical School, Japan.
J Urol. 1998 Nov;160(5):1787-91.
We believed that a totally noninvasive video urodynamic system could be invented based on the concept of Doppler ultrasonography. To develop this system we measured flow velocity in an experimental urethra using 4 materials, including natural urine.
A cellulose tube was inserted into a standoff pad as an experimental urethra. Degassed water, distilled water, urine and liposome (multi-lamellar particles) solution comprised the 4 materials used to compare signal intensity and flow velocity at various flow rates. The flow rate from the tube was measured with a uroflowmeter. The Doppler image and digital uroflow signal data were processed by a computer.
Doppler signals and flow velocity curves could be sufficiently obtained using distilled water, urine and liposome solution, while degassed water showed no Doppler signals at any flow rate. Minimum flow rate at which clear Doppler signals were continuously detected from the angle in the frontal plane was greater than 3.0 ml. per second for distilled water, greater than 1.5 for urine and greater than 0.3 for liposome solution. Maximum flow velocities were identical in these 3 materials at a flow rate of greater than 2.0 ml. per second. The functional cross-sectional area of the tube showed a constant value irrelevant to the initial flow rate.
Flow velocity could be measured by Doppler ultrasound above a certain minimal flow rate. Dissolved gasses have an important role in creating Doppler signals. Flow velocity, velocity related parameters and functional cross-sectional area can diagnose and localize the area of bladder outlet obstruction. Liposome solution may be helpful in detecting velocity in low flow states in future systems.
我们认为基于多普勒超声检查的概念可以发明一种完全无创的视频尿动力学系统。为开发该系统,我们使用包括天然尿液在内的4种材料测量了实验性尿道中的流速。
将一根纤维素管插入支撑垫中作为实验性尿道。脱气水、蒸馏水、尿液和脂质体(多层颗粒)溶液构成了用于比较不同流速下信号强度和流速的4种材料。用尿流计测量管中的流速。多普勒图像和数字尿流信号数据由计算机处理。
使用蒸馏水、尿液和脂质体溶液可充分获得多普勒信号和流速曲线,而脱气水在任何流速下均未显示多普勒信号。从额平面角度连续检测到清晰多普勒信号的最小流速,蒸馏水大于3.0毫升/秒,尿液大于1.5毫升/秒,脂质体溶液大于0.3毫升/秒。在流速大于2.0毫升/秒时,这3种材料的最大流速相同。管的功能横截面积显示出与初始流速无关的恒定值。
在一定的最小流速以上,可以通过多普勒超声测量流速。溶解气体在产生多普勒信号中起重要作用。流速、与流速相关的参数和功能横截面积可用于诊断和定位膀胱出口梗阻区域。脂质体溶液可能有助于在未来系统中检测低流速状态下的流速。
