Journal of Okayama Medical Association
Published by Okayama Medical Association

Full-text articles are available 3 years after publication.


Uematsu, Katsutoshi
125_129.pdf 2.81 MB
We previously reported a non-invasive, transperineal, urodynamic technique using Doppler ultrasonography. Recently, we developed a new tele-operating system to control the robotic arm of the ultrasound probe that has a pressure-regulating function and a touch-panel that allows the operator to monitor the exact position of the probe. From January 2008 to April 2010, 61 cases were examined using this system. Among them, 41 cases were examined by 2 experienced doctors and 20 cases were examined by 5 inexperienced nurses. We then compared the success rate of taking images sufficient for analyzing the velocity parameters and preparation time for setup between these two groups. In 45 out of 61 cases, whose examinations were successfully carried out, the velocity-flow parameters were compared between 19 cases with bladder outlet obstruction (BOO) and 26 without BOO. Satisfactory images were obtained in 32 cases (78%) by doctors and in 13 cases (65%) by nurses. The preparation time was 9.8 seconds for doctors and 13.2 seconds for nurses, with no statistical difference. The functional cross-sectional area in the prostatic urethra (A1) was significantly smaller in the BOO(+) group (0.056?) compared to the BOO(-) group (0.360?). The velocity ratio (VR) was significantly higher in the BOO(+) group (1.89) than in the BOO(-) group (0.41). In conclusion, the newly developed tele-operating system has made it easier for an inexperienced examiner to obtain velocity parameters using Doppler ultrasound urodynamic measurement.
非侵襲排尿機能検査(non-invasive urodynamic study)
超音波ドプラ(Doppler ultrasonography)
遠隔操作装置(tele-operating system)
下部尿路閉塞(bladder outlet obstruction)
前立腺肥大症(benign prostatic hyperplasia)
原著 (Original Papers)