Perineal descent and levator ani hernia: a dynamic magnetic resonance imaging study

PURPOSE: Patients with symptomatic pelvic organ prolapse often have multifocal pelvic floor defects that are not always evident of physical examination. In this study, dynamic magnetic resonance imaging of symptomatic patients with pelvic floor prolapse demonstrated unsuspected levator ani hernia. This study was designed to identify any specific symptoms and/or physical findings associated with these hernias.METHODS: Eighty consecutive patients with pelvic organ prolapse, fecal and/or urinary incontinence, or chronic constipation received standardized questionnaires, physical examination, and dynamic magnetic resonance imaging. Fishers exact test was used to compare symptoms and examination findings between patients with or without levator ani hernia.RESULTS: Twelve patients (15 percent) were found to have unilateral (n = 8) or bilateral (n = 4) levator ani hernias on dynamic magnetic resonance imaging. No one specific symptom was directly associated with the presence of a levator ani hernia. Furthermore, levator ani hernias were not found more frequently in patients with previous pelvic floor surgery. Perineal descent on physical examination was associated with the finding of a levator ani hernia in nine patients (P = 0.02). Although not statistically significant, there was a trend toward a lower incidence of levator ani hernia in females using estrogen replacement therapy (P = 0.06).CONCLUSIONS: Patients with symptomatic pelvic organ prolapse and perineal descent on physical examination may have a levator ani hernia. Although the significance of levator ani hernia needs to be determined, the recurrence rate after the surgical management of pelvic organ prolapse remains unacceptably high, and ongoing investigation of all associated abnormalities is warranted.Data were obtained from the Johns Hopkins Pelvic Floor Database. Poster presentation at The American Society of Colon and Rectal Surgery Meeting, Boston, Massachusetts, June 24 to 29, 2000.     

Dynamic magnetic resonance imaging defecography: a diagnostic alternative in the assessment of pelvic floor disorders in proctology

PURPOSE: Standard diagnostic proctologic procedures in the assessment of pelvic floor disorders include clinical evaluation and endoscopy. Particular aspects of combined pelvic floor disorders, especially those involving more than one pelvic compartment, may remain undetected without additional technical diagnostic procedures such as videoproctoscopy, cinedefecography, or colpocystodefecography. The aim of the study was to review the potentials of dynamic magnetic resonance imaging defecography to elucidate the underlying anatomic and pathophysiologic background of pelvic floor disorders in proctologic patients. PATIENTS AND METHODS: Dynamic magnetic resonance imaging defecography was performed in 20 Patients (13 females) with main diagnoses such as rectal prolapse or intussusception, rectocele, descending perineum, fecal incontinence, outlet obstruction, and dyskinetic puborectalis muscle after clinical evaluation. The investigation was performed on a 1.5 T-magnetic resonance imaging machine in supine position. The rectum was filled with Gd-DTPA enriched ultrasound gel. First a T1/T2 weighted investigation of the pelvis was performed, followed by defecography with evacuation of the rectum. Images were obtained in a sagittal plane in a frequency of 1 image/second (true FISP) at rest and during straining. The obtained magnetic resonance imaging video tapes were analyzed off-line with cinematographic evaluation of bladder base, uterus, and anal canal position in relation to the pubococcygeal line by a blinded radiologist. Investigation time was 20 minutes. RESULTS: In dynamic magnetic resonance imaging defecography of the pelvic floor, 12 patients with descending perineum, 10 rectoceles (10 females), 6 cystoceles (6 females), 4 enteroceles (4 females), 8 intussusceptions (5 females), and a dyskinetic puborectalis muscle in 3 males were detected. In 11 females and 3 males multifocal disorders were found, involving more than one compartment in females, whereas in males complex defects were restricted to the posterior compartment. Magnetic resonance imaging defecography revealed diagnoses consistent with clinical results in 77.3 percent and defects in addition to clinical diagnoses in combined pelvic floor disorders in 34 percent. CONCLUSIONS: In complex pelvic floor disorders, involving more than a single defect, dynamic magnetic resonance imaging represents a convenient diagnostic procedure in females and to a lesser extent in males, in particular in terms of dynamic imaging of pelvic floor organs during defecation. In addition to the clinical assessment, dynamic magnetic resonance imaging had clinical impact in proctologic and interdisciplinary treatment.Presented in part at the 116th German Congress of Surgery, 1999     

盆腔器官脱垂的动态MRI研究进展

盆腔器官脱垂(pelvic organ prolapse,POP)是指由于盆底支持结构薄弱导致的盆腔器官疝出.动态MRI为无放射性、无创、快捷、全面、高分辨率的检查方法,其软组织对比性强,可清晰显示静息位及动态位时盆底肌肉和筋膜组织结构及功能上的变化,了解盆腔多组织器官的状况,为临床提供客观影像学数据.动态MRI常用于...     

全骨盆底悬吊术在女性骨盆底功能重建中的应用

目的探讨利用全骨盆底网片悬吊术治疗女性盆腔脏器脱垂并进行骨盆底重建的可行性和有效性。方法对2005年1月至2006年6月确诊为盆腔脏器脱垂的53例患者采用蝶形聚丙烯网片进行经阴道全骨盆底悬吊术,根据临床检查及主诉对手术前后脱垂情况进行评估,观察疗效并定期随访。结果手术时间平均97min,出血量平均160ml,53例均在术后2～6d出院,术后1、3、9、12个月随访,根据国际尿控协会制定的盆腔脏器脱垂定量分度法客观评估子宫脱垂、阴道前后壁膨出等症状全部得到纠正,无复发、无阴道扭曲和缩短、无性生活障碍,满意度达94．3％。结论全骨盆底网片悬吊术是经阴道的微创手术,对盆腔脏器脱垂患者在保留子宫的同时进行骨盆底功能重建,复发率低,值得临床进一步推广。     

Simultaneous dynamic proctography and peritoneography for pelvic floor disorders

PURPOSE: We sought to evaluate a new diagnostic technique for the identification of rectal and pelvic floor pathology in patients with obstructed defecation, pelvic fullness/ prolapse, and/or chronic intermittent pelvic floor pain. METHODS: Thirteen symptomatic women with either a nondiagnostic physical examination or nondiagnostic dynamic proctography (DPG) were studied. After placement of intraperitoneal and intrarectal contrast material, resting and straining pelvic x-rays were obtained in all patients, and defecation was videotaped using fluoroscopy. RESULTS: Simultaneous DPG and peritoneography identified clinically suspected and unsuspected enteroceles in 10 of the 13 patients studied. An enterocele or other pelvic floor hernia was ruled out by the technique in three of the women studied. Rectoceles and rectal prolapse that were identified during physical examination were confirmed by DPG with peritoneography. Simultaneous DPG and peritoneography also gave a qualitative assessment of the severity and clinical significance of the identified pelvic floor disorders. Results of simultaneous DPG and peritoneography affected operative treatment planning in 85 percent of patients studied. CONCLUSION: Simultaneous DPG and peritoneography identifies both rectal and pelvic floor pathology and provides a qualitative assessment of pelvic floor pathology severity, which allows for better treatment planning in selected patients with obstructed defecation and pelvic prolapse.Video presentation at the meeting of The American Society of Colon and Rectal Surgeons, Chicago, Illinois, May 2 to 7, 1993.     

Pelvic Floor Imaging

The purpose of this paper is to describe the current modalities of pelvic floor imaging: pelvic floor and endoanal ultrasonography, cystourethrography, evacuation proctography, dynamic colpocystoproctography, magnetic resonance imaging and endoanal magnetic resonance imaging.As there are no set standards for prescribing imaging tests in pelvic floor disorders, we drew up a table of tests to be performed according to the anatomical abnormality observed on physical examination or functional sign reported by the patient.     

Dynamic Transperineal Ultrasound in the Diagnosis of Pelvic Floor Disorders

PURPOSE: Defecating proctography and more recently, magnetic resonance imaging have both been used for diagnosis in patients with pelvic floor dysfunction. This pilot study assessed the feasibility of dynamic transperineal ultrasound in a range of specific disorders affecting evacuation. METHODS: A protocol of sagittal and transverse transperineal imaging was established defining the infralevator viscera and soft tissues and the margins of the puborectalis muscle. Dynamic measurements were possible for the extent of puborectalis shortening, the anorectal angle, and the movement during straining of the anorectal junction. Calculations were made of the depth of demonstrated rectoceles, the posterior urethrovesical angle, and the movement of the urethrovesical junction. Diagnoses were confirmed by proctography (where appropriate) and clinical examination. RESULTS: Transverse images of the anal sphincter were comparable with those obtained using endoanal ultrasonography. Sagittal images permitted the measurement of puborectalis contraction and the anorectal angle comparable with those obtained during defecography. Cystoceles were able to be diagnosed during closure of the posterior urethrovesical angle and abnormal urethrovesical junction descent during straining. Rectoceles, peritoneoceles, enteroceles, and rectoanal intussusception were readily identified using dynamic transperineal ultrasonography. CONCLUSION: Dynamic transperineal ultrasound is a simple, noninvasive way to assess dynamically the interaction of the pelvic viscera and their relationship to the pelvic floor musculature in patients with evacuatory disorders and pelvic floor dysfunction.     

Diagnosing enteroceles using dynamic magnetic resonance imaging

PURPOSE: Enteroceles are in part difficult to detect but a frequent finding in pelvic floor disorders. The aim of this study was to evaluate magnetic resonance colpocystorectography in the diagnosis of enteroceles. METHODS: In this prospective study 11 volunteers and 55 patients with pelvic floor descent were examined. In addition to magnetic resonance colpocystorectography, a dynamic cystoproctography was performed on 34 patients. Opacification of organs was used. An enterocele was assessed in relationship to the pubococcygeal reference line (magnetic resonance colpocystorectography) or the width of the rectovaginal space (dynamic cystoproctography). A clinical gynecologic examination served as reference. RESULTS: The clinical examination diagnosed an enterocele in 43, magnetic resonance colpocystorectography in 49, and dynamic cystoproctography in 14 cases. Magnetic resonance colpocystorectography further subdivided the enteroceles according to their contents (mesenteric fat or fluid, 12; small bowel, 32, large bowel, 3; and rectosigmoidocele, 2). Magnetic resonance colpocystorectography proved statistically significantly superior to dynamic cystoproctography (15 cases) and the reference. Sensitivity and specificity of magnetic resonance colpocystorectography were 100 percent each. It was able to reveal clinically missed enteroceles as being peritoneoceles associated with a rectocele or a uterovaginal prolapse (10 cases). CONCLUSION: Magnetic resonance colpocystorectography is a promising method for diagnosis of enteroceles, because hernial canal, sac, and contents are reliably identified.Presented at Radiology 1998, Birmingham, United Kingdom, June 1 to 3, 1998.     

Dynamic transperineal ultrasound in the diagnosis of pelvic floor disorders: pilot study

PURPOSE: Defecating proctography and more recently, magnetic resonance imaging have both been used for diagnosis in patients with pelvic floor dysfunction. This pilot study assessed the feasibility of dynamic transperineal ultrasound in a range of specific disorders affecting evacuation. METHODS: A protocol of sagittal and transverse transperineal imaging was established defining the infralevator viscera and soft tissues and the margins of the puborectalis muscle. Dynamic measurements were possible for the extent of puborectalis shortening, the anorectal angle, and the movement during straining of the anorectal junction. Calculations were made of the depth of demonstrated rectoceles, the posterior urethrovesical angle, and the movement of the urethrovesical junction. Diagnoses were confirmed by proctography (where appropriate) and clinical examination. RESULTS: Transverse images of the anal sphincter were comparable with those obtained using endoanal ultrasonography. Sagittal images permitted the measurement of puborectalis contraction and the anorectal angle comparable with those obtained during defecography. Cystoceles were able to be diagnosed during closure of the posterior urethrovesical angle and abnormal urethrovesical junction descent during straining. Rectoceles, peritoneoceles, enteroceles, and rectoanal intussusception were readily identified using dynamic transperineal ultrasonography. CONCLUSION: Dynamic transperineal ultrasound is a simple, noninvasive way to assess dynamically the interaction of the pelvic viscera and their relationship to the pelvic floor musculature in patients with evacuatory disorders and pelvic floor dysfunction.     

Dynamic magnetic resonance imaging used in evaluation of female pelvic prolapse: experience from nine cases

Prolapse of pelvic organs in a female can be simple or complex. To make a definite diagnosis of pelvic prolapse preoperatively, dynamic magnetic resonance (MR) is an alternative to conventional fluoroscopic or sonographic examination, with the advantage of providing greater details, and thus helping the surgeon to have a good preoperative plan. Nine women suffering from pelvic prolapse with or without urinary stress incontinence underwent dynamic MR imaging examination (1.0T Magnex100/HP, Shimadzu, Kyoto, Japan) before surgery. All patients were examined in the supine position. A single-shot ultra-high speed scan (FE/8/3.02-20 degrees, 128, 100%-100% 1 NEX 1 slice 10 mm L1.0 second) was used to obtain midline sagittal images, with the patients at rest and during pelvic strain. MR images were then obtained every 4 seconds. Each examination was analyzed, based on specific measurements, to determine the presence and extent of prolapse of pelvic organs. The pubococcygeal, levator hiatus width and muscular pelvic floor relaxation lines, and the angle of the levator plate were identified. Based on these measurements, multicompartment involvement in the pelvic prolapse was confirmed in five patients (5/9). Four patients (4/9) had single compartment involvement. Seven patients underwent surgery. All patients reported significant improvement in their symptoms and signs after surgical intervention. Two patients had an almost complete recovery. MR demonstrated simple or complex organ descent in all pelvic compartments, and may become a standard preoperative examination for pelvic floor abnormalities. The MR images facilitated comprehensive planning by the surgeon; thus, they can increase the success rate and help to accurately predict the outcome of the surgical intervention. The surgeons also expressed high postsurgical satisfaction with the information provided by dynamic MR.     

A comparison between dynamic pelvic magnetic resonance imaging and videoproctography in patients with constipation

PURPOSE: This study attempts to compare the diagnostic efficacy of dynamic pelvic magnetic resonance imaging with that of videoproctography for the presence of rectocele, sigmoidocele, and intussusception as well as the measurement of anorectal angle and perineal descent in constipated patients. METHODS: Patients volunteering for the study and fulfilling the criteria for videoproctography to evaluate constipation were also scheduled for dynamic pelvic magnetic resonance imaging. Patients undergoing videoproctography were placed in the left lateral decubitus position, after which 50 ml of liquid barium paste was introduced into the rectum. After this, approximately 100 ml of thick barium paste similar to stool in consistency was injected into the rectum, and the patient was instructed to defecate while video images were taken. For dynamic pelvic magnetic resonance imaging, air, to be used as contrast, was allowed to accumulate in the rectumvia examination with the patient in the prone position. A capsule was taped to the perineal skin immediately posterior to the anal orifice for marking. Sagittal and axial T1 images were obtained through the pelvis at 8-mm intervals with dynamic breathhold sagittal images of the anorectal region obtained at rest and during strain and squeeze maneuvers. Total acquisition time per maneuver was approximately 19 seconds. The tests were performed by different examiners blinded to the result of the other evaluation. The investigations were independently interpreted, findings compared, and patients questioned regarding their impression of dynamic pelvic magnetic resonance imaging and videoproctography. RESULTS: From June 1996 to April 1997, 22 patients (15 females) with a mean age of 68 (range, 21–85) years underwent both videoproctography and dynamic pelvic magnetic resonance imaging. Dynamic pelvic magnetic resonance imaging was only able to detect 1 of 12 (8.3 percent) anterior rectoceles and one of two (50 percent) posterior rectoceles identified by videoproctography. It failed to recognize any of the rectoanal intussusception (zero of four) but did show 9 of 12 (75 percent) sigmoidoceles. Significant discrepancy of measurement of the anorectal angle and perineal descent exists between the two studies, and dynamic pelvic magnetic resonance imaging was not able to detect any (0 of 11) of the patients with increased fixed perineal descent and only half (one of two) of the patients with increased dynamic perineal descent noted on videoproctography. All 22 patients preferred dynamic pelvic magnetic resonance imaging over videoproctography because of greater comfort. CONCLUSION: Occasionally, the increased cost of new technology can be justified by the enhanced diagnostic yield. The ability to avoid unnecessary surgery or, conversely, to continue to search for otherwise occult pathology that can be surgically corrected justifies routine application of these new tools. However, this study has shown that, despite a cost of approximately ten times more for dynamic pelvic magnetic resonance imaging than for videoproctography, no clinical changes were made. Thus, on the basis of this study, we cannot endorse the routine application of dynamic pelvic magnetic resonance imaging for the evaluation of constipated patients. In certain selected individuals, it may play a role, but further study is necessary to clarify its exact role.Supported in part by a generous educational grant from the Caporella family.     

Total pelvic mesh repair

INTRODUCTION: This report describes our technique and experience in restoring the pelvic floor of females with pelvic organ prolapse. METHODS: Total pelvic mesh repair uses a strip of Marlex Mesh® secured between the perineal body and the sacrum. Two additional strips, attached to the first, are tunneled laterally to the pubis and support the vagina and bladder laterally. Candidates for the procedure have failed previous standard repair or manifest combined organ prolapse on physical and cystodefecography exams. RESULTS: From January 1990 to December 1999, 236 females had total pelvic mesh repair, and 205 (87 percent) were available for follow-up. Median age was 64 (range, 32–89) years, median parity 2 (range, 1–9); 63 percent had birth-related complications. Bladder protrusion, vaginal protrusion, or both were the predominant chief complaint (54 percent), followed by anorectal protrusion (48 percent). Findings on physical examination showed degrees of prolapse of rectum (74 percent) and vagina (57 percent), perineal descent (63 percent), enterocele (47 percent), and rectocele (44 percent). Mean procedure time and length of hospital stay were 3.2 (standard deviation 0.75) hours and 6 (standard deviation 2.2) days, respectively. Reoperation rate because of complications of the total pelvic mesh repair procedure was 10 percent. Marlex® erosion into rectum or vagina occurred in 5 percent of patients and constituted 46 percent of the complications requiring reoperation. Additional surgical procedures at various intervals subsequent to total pelvic mesh repair have been performed in 36 percent of patients to further improve bladder function and have been performed in 28 percent of patients to improve anorectal function. There has been no recurrence of rectal or vaginal prolapse to date. Reports of overall satisfaction for correction of primary symptoms for patients grouped into early (0.5–3 years), middle (>3–6 years) and late (>6 years) were 68 percent, 73 percent, and 74 percent respectively. CONCLUSION: Total pelvic mesh repair is a safe and effective operation for females with pelvic organ prolapse.Presented at the meeting of the American Society of Colon and Rectal Surgeons, Boston, Massachusetts, June 24 to 29, 2000.     

Dynamic imaging of pelvic floor with transperineal sonography

Real-time transperineal sonography has enhanced the appreciation of morphology and dynamics of the pelvic floor. Standard images are obtained from longitudinal and axial planes by placing the transducer between the vagina and rectum. This fast, effective, noninvasive and inexpensive examination represents the preferred initial diagnostic imaging tool for women with pelvic floor dysfunctions, such as prolapse and incontinence. Received: 10 April 2001 / Accepted: 21 May 2001     

Female pelvic floor dysfunction--an imaging perspective

Female pelvic floor dysfunction encompasses a range of morbidities, including urinary incontinence, female pelvic organ prolapse, anal incontinence and obstructed defecation. Patients often present with symptoms covered by several specialties including gastroenterology, colorectal surgery, urology and gynecology. Imaging can therefore bring clinicians from multiple specialties together by revealing that we frequently deal with different aspects of one underlying problem or pathophysiological process. This article provides an interdisciplinary imaging perspective on the pelvic floor. Modern pelvic floor imaging comprises defecation proctography, translabial and endorectal ultrasound, and static and dynamic MRI. This Perspectives focuses on the potential use of translabial ultrasound, including 3D and 4D applications, for diagnosis of pelvic floor disorders. Over the next decade, pelvic floor imaging will most likely be integrated into mainstream diagnostics in obstetrics and gynecology and colorectal surgery. Using imaging to facilitate communication between different specialties has the potential to greatly improve the multidisciplinary management of complex pelvic floor disorders.     

Dynamic magnetic resonance imaging evaluation of the structural and functional results of postanal repair for neuropathic fecal incontinence

PURPOSE: The aim of this study was to determine whether dynamic magnetic resonance imaging of the pelvic floor can discriminate between patients who improve after postanal repair for neurogenic fecal incontinence and those who remain symptomatic. METHODS: Pelvic floor measurements obtained during dynamic magnetic resonance imaging in eight females whose anal incontinence had improved after postanal repair were compared with those from nine females who remained symptomatic. All subjects also underwent standard anorectal physiology testing. RESULTS: There was no significant difference between groups with respect to any measurement of anterior or middle pelvic floor compartments. Additionally, there was no difference in posterior pelvic floor configuration when symptomatic patients were compared with those who had improved. However, dynamic magnetic resonance measurements revealed patients who remained symptomatic had significantly greater posterior pelvic floor weakness. Anorectal physiology was unable to differentiate between groups. CONCLUSIONS: There is no difference in static pelvic floor measurements when subjects remaining symptomatic after postanal repair are compared with those who have improved. In contrast, dynamic measurements may be able to predict failure in those who demonstrate excessive posterior pelvic floor mobility.     

Magnetic resonance imaging of anatomic and dynamic defects of the pelvic floor in defecatory disorders

OBJECTIVE: Endoanal ultrasound identifies anal sphincter anatomy, and evacuation proctography visualizes pelvic floor motion during simulated defecation. These complementary techniques can evaluate obstructed defecation and fecal incontinence. Our aim was to develop a single, nonionizing, minimally invasive modality to image global pelvic floor anatomy and motion. METHODS: We studied six patients with fecal incontinence and seven patients with obstructed defecation. The anal sphincters were imaged with an endoanal magnetic resonance imaging (MRI) coil and endoanal ultrasound (five patients). MR fluoroscopy acquired images every 1.4-2 s, using a modified real-time, T2-weighted, single-shot, fast-spin echo sequence, recording motion as patients squeezed pelvic floor muscles and expelled ultrasound gel; no contrast was added to other pelvic organs. Six patients also had scintigraphic defecography. RESULTS: Endoanal ultrasound and MRI were comparable for imaging defects of the internal and external sphincters. Only MRI revealed puborectalis and/or external sphincter atrophy; four of these patients had fecal incontinence. MR fluoroscopy recorded pelvic floor contraction during squeeze and recorded relaxation during simulated defecation. Corresponding comparisons for angle change and perineal descent during defecation were not significant; only MRI, but not scintigraphy, identified excessive perineal descent in two patients. CONCLUSIONS: Pelvic MRI is a promising single, comprehensive, nonradioactive modality to measure structural and functional pelvic floor disturbances in defecatory disorders. This method may provide insights into mechanisms of normal and disordered pelvic floor function in health and disease.     

Pelvic organ prolapse

Pelvic organ prolapse is downward descent of female pelvic organs, including the bladder, uterus or post-hysterectomy vaginal cuff, and the small or large bowel, resulting in protrusion of the vagina, uterus, or both. Prolapse development is multifactorial, with vaginal child birth, advancing age, and increasing body-mass index as the most consistent risk factors. Vaginal delivery, hysterectomy, chronic straining, normal ageing, and abnormalities of connective tissue or connective-tissue repair predispose some women to disruption, stretching, or dysfunction of the levator ani complex, connective-tissue attachments of the vagina, or both, resulting in prolapse. Patients generally present with several complaints, including bladder, bowel, and pelvic symptoms; however, with the exception of vaginal bulging, none is specific to prolapse. Women with symptoms suggestive of prolapse should undergo a pelvic examination and medical history check. Radiographic assessment is usually unnecessary. Many women with pelvic organ prolapse are asymptomatic and do not need treatment. When prolapse is symptomatic, options include observation, pessary use, and surgery. Surgical strategies for prolapse can be categorised broadly by reconstructive and obliterative techniques. Reconstructive procedures can be done by either an abdominal or vaginal approach. Although no effective prevention strategy for prolapse has been identified, considerations include weight loss, reduction of heavy lifting, treatment of constipation, modification or reduction of obstetric risk factors, and pelvic-floor physical therapy.     

Rare pelvic floor hernias

The case of a 64-year-old female who presented with difficult evacuation of stool is reported. A posterior perineal hernia was diagnosed by dynamic proctography. The patient had an unusual herniation of the upper rectum through the perineal defect. At surgery, there was no peritoneal sac, since the herniation occurred extraperitoneally. The patient was treated with repair of the pelvic floor using Marlex mesh and rectopexy. Pelvic floor hernias are rare and often difficult to diagnose. The three types, in order of decreasing frequency, are obturator, perineal, and sciatic. The etiology, diagnosis, and treatment of each is discussed.     

Urodynamic evaluation of the bladder and pelvic floor

Pelvic floor disorders including lower urinary tract dysfunction are common, and may be evaluated by urodynamic tests, such as cystometry, uroflowmetry, pressure flow studies, electromyography, and video-urodynamics. These urodynamic tests provide objective information regarding the normal and abnormal function of the urinary tract and pelvic floor, and provide a better understanding of the pathophysiologic processes that cause lower urinary tract symptoms. This article describes typical urodynamic studies and their roles in the evaluation of common pelvic floor disorders, including stress urinary incontinence, overactive bladder, and pelvic organ prolapse.     

Virtual reality: new method of teaching anorectal and pelvic floor anatomy

PURPOSE: A clear understanding of the intricate spatial relationships among the structures of the pelvic floor, rectum, and anal canal is essential for the treatment of numerous pathologic conditions. Virtual-reality technology allows improved visualization of three-dimensional structures over conventional media because it supports stereoscopic-vision, viewer-centered perspective, large angles of view, and interactivity. We describe a novel virtual reality-based model designed to teach anorectal and pelvic floor anatomy, pathology, and surgery. METHODS: A static physical model depicting the pelvic floor and anorectum was created and digitized at 1-mm intervals in a CT scanner. Multiple software programs were used along with endoscopic images to generate a realistic interactive computer model, which was designed to be viewed on a networked, interactive, virtual-reality display (CAVE or ImmersaDesk). A standard examination of ten basic anorectal and pelvic floor anatomy questions was administered to third-year (n = 6) and fourth-year (n = 7) surgical residents. A workshop using the Virtual Pelvic Floor Model was then given, and the standard examination was readministered so that it was possible to evaluate the effectiveness of the Digital Pelvic Floor Model as an educational instrument. RESULTS: Training on the Virtual Pelvic Floor Model produced substantial improvements in the overall average test scores for the two groups, with an overall increase of 41 percent (P = 0.001) and 21 percent (P = 0.0007) for third-year and fourth-year residents, respectively. Resident evaluations after the workshop also confirmed the effectiveness of understanding pelvic anatomy using the Virtual Pelvic Floor Model. CONCLUSION: This model provides an innovative interactive educational framework that allows educators to overcome some of the barriers to teaching surgical and endoscopic principles based on understanding highly complex three-dimensional anatomy. Using this collaborative, shared virtual-reality environment, teachers and students can interact from locations world-wide to manipulate the components of this model to achieve the educational goals of this project along with the potential for virtual surgery.