Abstract

You have accessJournal of UrologyNovel Imaging/Prostate Oncology/Robotics1 Apr 2014V6-04 A ROLE OF THE PELVIC FLOOR AND PROSTATE IN MALE VOIDING: A MAGNETIC RESONANCE IMAGING STUDY Shigehiro Soh, Koujiro Nishio, Keisuke Suzuki, Tomoyuki Iwahata, Yoshtomo Kobori, Yuko Sadaoka, and Hiroshi Okada Shigehiro SohShigehiro Soh More articles by this author , Koujiro NishioKoujiro Nishio More articles by this author , Keisuke SuzukiKeisuke Suzuki More articles by this author , Tomoyuki IwahataTomoyuki Iwahata More articles by this author , Yoshtomo KoboriYoshtomo Kobori More articles by this author , Yuko SadaokaYuko Sadaoka More articles by this author , and Hiroshi OkadaHiroshi Okada More articles by this author View All Author Informationhttps://doi.org/10.1016/j.juro.2014.02.1867AboutPDF ToolsAdd to favoritesDownload CitationsTrack CitationsPermissionsReprints ShareFacebookTwitterLinked InEmail INTRODUCTION AND OBJECTIVES Bladder neck and urethral motions are particularly important before the transition from urine storage to voiding. For smooth initiation of voiding, synchronization between the pelvic floor muscles and the bladder and urethra is essential, and if this synchronization is disrupted, various types of voiding dysfunction can occur. The real time MRI (rtMRI) is useful for dynamic imaging of intrapelvic soft tissue movement. In this study, rtMRI was used to analyze differences in pelvic floor muscle movement and prostate during voiding between patients with normal voiding and those with voiding dysfuction. METHODS This study included 3 male patients in the normal voiding group and 11 male patients in the voiding dysfunction group. Real rtMRI imaging from urine storage to voiding in the sagittal and coronal planes was performed with patients in the lateral position. With rtMRI during voiding, puborectalis muscle, pubococcygeus muscle, and anterior fibromuscular stroma (AFMS) distance were measured, and urine stream was analyzed. Statistical analysis was performed to compare pelvic floor muscles movemen. RESULTS Prostate position descended with rotation at initiation of voiding (fig. 1). rtMRI has also shown deformation and motion of the bladder neck and urethra due to contraction of the AFMS and pelvic floor muscles during voiding (fig. 1). The deformation of the morphology of the bladder neck and urethra due to contraction of the AFMS and pelvic floor muscles favors the spiral urine stream during voiding (fig. 2). This deformation decreases the flow pressure. AFMS contraction at initiation of voiding was significantly greater in the normal group (P<0.05). Striated urethral sphincter contraction (%) at initiation of voiding tended to decrease with older age (P=0.05). CONCLUSIONS The present results indicate that strong contractions of the pelvic floor muscles and the AFMS are important for normal male micturition, since the bladder neck and urethra are deformed to a shape with no stress that allows for smooth urine streaming. © 2014FiguresReferencesRelatedDetails Volume 191Issue 4SApril 2014Page: e678 Advertisement Copyright & Permissions© 2014MetricsAuthor Information Shigehiro Soh More articles by this author Koujiro Nishio More articles by this author Keisuke Suzuki More articles by this author Tomoyuki Iwahata More articles by this author Yoshtomo Kobori More articles by this author Yuko Sadaoka More articles by this author Hiroshi Okada More articles by this author Expand All Advertisement Advertisement PDF downloadLoading ...

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