As dimensões ósseas da pelve podem estar relacionadas à gênese dos prolapsos de órgãos pélvicos? Uma revisão sistemática de estudos observacionais para avaliação de risco e prognóstico / Can the bone dimensions of the pelvis be related to the genesis of pelvic organ prolapses? A systematic review of observational studies for risk assessment and prognosis

Objetivo: Averiguar qual o papel desempenhado pelas dimensões ósseas da pelve em relação à gênese do prolapso de órgãos pélvicos por meio de publicações dos últimos quinze anos. Métodos: Trata-se de uma revisão sistemática de estudos ob- servacionais para avaliação de risco e prognóstico por meio de um levantamento bibliográfico virtual de artigos científicos publicados em revistas digitais entre os anos 2007 e 2022, nas bases de dados PubMed, BVS e ScienceDirect. Resultados: Uma área pélvica anterior mais ampla e um maior diâmetro interespinhoso foram caracterizados como possíveis causas para prolapso de órgãos pélvicos. A maior parte dos estudos contou com mensurações ósseas diversificadas, nas quais as demais dimensões não apresentaram significância estatística. Conclusão: Os estu- dos avaliados nesta revisão sugerem uma nova medida do assoalho pélvico rela- cionada a mulheres com prolapso, com apresentação de uma maior área anterior, em grande parte influenciada pelo diâmetro interespinhoso, o qual leva a um au- mento da carga sobre o assoalho pélvico. Porém, ainda assim, urge a necessidade de mais estudos para corroborar nossos achados.

Objective: To investigate the role played by the bone dimensions of the pelvis in relation to the genesis of pelvic organ prolapses through publications from the last fifteen years. Methods: This is a systematic review of obser- vational studies for risk assessment and prognosis through a virtual bibliographic survey of scientific articles published in digital journals between 2007 and 2022, in PubMed, BVS and ScienceDirect databases. Results: A wider anterior pelvic area and a larger interspinous diameter were characterized as possible causes for pelvic organ prolapses. Most of the studies have diversified bone measurements, in which the other dimensions weren't statistically significant. Conclusion: The studies evaluated in this review suggest a new measure- ment of the pelvic floor related to women with prolapse, with a larger anterior area, largely influenced by the interspinous diameter, which leads to an increased load on the pelvic floor. However, even so, there is an urgent need for further studies to corroborate our findings.

[Dynamic magnetic resonance imaging of the pelvic floor: clinical application]. / Dynamische Magnetresonanztomographie des Beckenbodens: Klinische Anwendung.

BACKGROUND: Dynamic magnetic resonance imaging (MRI) of the pelvic floor plays a key role in imaging complex pelvic floor dysfunction. The simultaneous detection of multiple findings in a complex anatomic setting renders correct analysis and clinical interpretation challenging. OBJECTIVES: The most important aspects (anatomy of the pelvic floor, three compartment model, morphological and functional analysis, reporting) for a successful clinical use of dynamic MRI of the pelvic floor are summarized. MATERIALS AND METHODS: Review of the scientific literature on dynamic pelvic MR imaging with special consideration of the joint recommendations provided by the expert panel of ESUR/ESGAR in 2016. RESULTS: The pelvic floor is a complex anatomic structure, mainly formed by the levator ani muscle, the urethral support system and the endopelvic fascia. Firstly, morphological changes of these structures are analysed on the static sequences. Secondly, the functional analysis using the three compartment model is performed on the dynamic sequences during squeezing, straining and defecation. Pelvic organ mobility, pelvic organ prolapse, the anorectal angle and pelvic floor relaxation are measured and graded. The diagnosis of cystoceles, enteroceles, rectoceles, the uterovaginal as well as anorectal decent, intussusceptions and dyssynergic defecation should be reported using a structured report form. CONCLUSIONS: A comprehensive analysis of all morphological and functional findings during dynamic MRI of the pelvic floor can provide information missed by other imaging modalities and hence alter therapeutic strategies.

Lies, damned lies, and pelvic floor illustration: Confused about pelvic floor anatomy? You are not alone.

Dissection reveals elegant simplicity in pelvic floor structure. So, why are so many of us confused about the pelvic floor? The pelvic floor is in an invisible region between what we see from above and below, so our experience does not help. It is confusing because there is conflict between existing illustrations, so we do not know which are false and which are true. To resolve conflicts in pelvic anatomy we must: recognize the Vesalian principle that truth lies in the body, not necessarily in books; commit to focusing on structures rather than words; and overcome "theory-induced blindness," the psychological principle that discounts what is seen when it contradicts a theory we believe. We should revive century-old standards that require accuracy in anatomical illustration analogous to the p value in statistics. Committing to anatomical accuracy will ensure that we no longer navigate in surgery and research using a flawed map.

Fascial Organisation and Lymphatic Systems Around the Pelvic Floor: A Literature Review.

This review summarises the anatomy and lymphatic systems around the pelvic floor. We investigated the lymphovascular network in the anorectal region, focusing on the hiatal ligament, which comprises smooth muscle fibres derived from the longitudinal muscle and connecting the anal canal and coccyx, and the endopelvic fascia, which seems to comprise collagen and elastic fibres. During rectal surgery, endopelvic fascia is recognized as a sheet of fascia covering the levator ani muscle. Endopelvic fascia is extensively attached to the smooth muscle fibres diverging from the longitudinal muscle of the rectum. Analysis of the lymphovascular network using submucosal India ink injection and indocyanine green fluorescence imaging suggests a functional lymphatic flow between rectal muscle fibres and hiatal ligament and endopelvic fascia. Precise analysis of the lymphatic systems of fascial organization around the pelvic floor may be useful in formulating therapeutic strategies for low rectal cancer.

Genital Hiatus Size as a Predictor of Progression of Pelvic Organ Prolapse.

OBJECTIVE: This study aimed to determine if genital hiatus (GH) size is a predictor of worsening pelvic organ prolapse and a preference for a therapeutic intervention in women with pelvic organ prolapse who opt for expectant management over therapeutic intervention at their initial encounter. METHODS: This was a retrospective cohort study analyzing the GH size of women who opted for expectant management in the initial treatment of pelvic organ prolapse at one academic institution from 2002 to 2015. Participants were divided into 2 groups: (1) large GH was defined as ≥4 cm and (2) normal GH was defined as <4 cm. The primary outcome was women opting for therapeutic intervention for their prolapse at a later visit, defined as pessary insertion or surgical intervention. Secondary measures evaluated GH as a predictor of worsening anatomy or symptoms. RESULTS: One hundred eleven participants were enrolled. Fifty-two women had a large GH, and 59 women had a normal GH. Median length of follow-up was 24 months (range, 6-110 months). Of the 52 with a large GH, 22 (42%) opted for intervention; of the 59 women with a normal GH, 16 (27%) opted for intervention. There was no statistically significant difference between groups in the number who eventually chose intervention (P = 0.09). There was no difference in secondary outcomes between groups with respect to worsening bother, worsening pelvic organ prolapse quantification stage, or an increase in the prolapse leading edge of ≥2 cm. CONCLUSIONS: Women with a large GH, when compared with those with a normal GH, were not more likely to choose intervention over continued observation.

MR defecography in the assessment of anatomic and functional abnormalities in stress urinary incontinence before and after pelvic reconstruction.

PURPOSE: Magnetic resonance defecography (MRD) was used to evaluate anatomic and functional pelvic floor disorders in women with stress urinary incontinence (SUI) before and after midurethral sling (MUS) intervention. METHOD: We performed MRD in both SUI patients and continent controls. Static MR was used to describe the anatomic abnormalities in levator ani muscle and periurethral ligaments (PUL). Dynamic MR was used to depict the function of the urethra and pelvic floor. We compared the MRD parameters between the SUI patients and continent controls before surgery. For SUI patients, dynamic MR images evaluated the functional changes of the urethra and pelvic floor after surgery. RESULTS: In SUI group, 75.8 % have PUL defects, 65.7 % discontinuity or complete loss of pubococcygeal muscle, as compared to the continent groups (p < 0.01). There was no significant difference between the perimenopausal volunteers and SUI patients in the puborectalis defection (p > 0.05). The dynamic MR showed the urethral hypermobility, functional urethra shortening, bladder neck funneling, urethra opening and cystocele were significantly associated with SUI patients (p < 0.01). Postoperative MR indicated that SUI patients after MUS had a lower risk of bladder funneling and urethral opening at the defection phase (p < 0.01), but no significant difference in urethral hypermobility or pelvic floor prolapse was seen (p>0.05). CONCLUSIONS: MRD with high-resolution and defecation phases provides a detailed anatomic and functional evaluation of the pelvic floor in female SUI before and after pelvic reconstruction.

Prediction of transabdominal total mesorectal excision difficulty according to the angle of pelvic floor muscle.

BACKGROUND: Total mesorectal excision (TME) is challenging to perform in a deep, narrow pelvis. While previous studies used pelvimetry to assess bony pelvic structures, there is no consensus on exact definition of deep, narrow pelvis. We hypothesized that the shape of pelvic floor muscle may impact the performance of transabdominal pelvic dissection. We aimed to evaluate which parameters of the shape of pelvic floor muscle impact the difficulty of TME and present a predictive reference value for TME difficulty. METHODS: From January 2015 to December 2015, 85 consecutive patients who had undergone curative resection for middle to lower rectal cancer were retrospectively studied. Pelvimetry was performed using preoperative T2-weighted magnetic resonance imaging. Predictive factor analysis for surgical duration was studied using linear regression. Mann-Whitney U test, comparing surgical duration between two groups classified by predictive factor, was used for the analysis of reference value. RESULTS: Multivariate analysis revealed that body mass index, protective stoma, number of surgeon, and incline angle of pelvic floor muscle (ß) were independent predictors of surgical duration. Test statistics of Mann-Whitney U for the difference in surgical duration between groups above and below a ß of 54° were maximized. CONCLUSIONS: The incline angle of pelvic floor muscle is an independent predictor of surgical duration. In patients with steeper incline of PFM, transabdominal TME is expected to be difficult. This index is novel, but needs to be further validated.

Interactive three-dimensional teaching models of the female and male pelvic floor.

Controversies regarding structure and function of the pelvic floor persist because of its poor accessibility and complex anatomical architecture. Most data are based on dissection. This "surgical" approach requires profound prior knowledge, because applying the scalpel precludes a "second look." The "sectional" approach does not entail these limitations, but requires segmentation of structures and three-dimensional reconstruction. This approach has produced several "Visible Human Projects." We dealt with limited spatial resolution and difficult-to-segment structures by proceeding from clear-cut to more fuzzy boundaries and comparing segmentation between investigators. We observed that the bicipital levator ani muscle consisted of pubovisceral and puborectal portions; that the pubovisceral muscle formed, together with rectococcygeal and rectoperineal muscles, a rectal diaphragm; that the external anal sphincter consisted of its subcutaneous portion and the puborectal muscle only; that the striated urethral sphincter had three parts, of which the middle (urethral compressor) was best developed in females and the circular lower ("membranous") best in males; that the rectourethral muscle, an anterior extension of the rectal longitudinal smooth muscle, developed a fibrous node in its center (perineal body); that the perineal body was much better developed in females than males, so that the rectourethral subdivision into posterior rectoperineal and anterior deep perineal muscles was more obvious in females; that the superficial transverse perineal muscle attached to the fibrous septa of the ischioanal fat; and that the uterosacral ligaments and mesorectal fascia colocalized. To facilitate comprehension of the modified topography we provide interactive 3D-PDFs that are freely available for teaching purposes. Clin. Anat. 33:275-285, 2020. © 2019 Wiley Periodicals, Inc.

Do Pelvic Organ Prolapse Quantification Examination Ba and D Guide the Selection of Operation for Severe Pelvic Organ Prolapse?

Purpose: To determine whether the preoperative Ba and D point could help to guide the choice of surgical procedure for POP. Materials and Methods: This prospective cohort study included 250 subjects with anterior/apical defect from January 2012 to June 2015. All subjects underwent a complete preoperative evaluation and completed 12 months of follow-up. Based on the connection of preoperative Ba and D point of Pelvic Organ Prolapse Quantification (POP-Q), patients were assigned two groups: 137 patients who underwent anterior vaginal repair with mesh (AVM) and 113 patients who underwent AVM combined with sacrospinous ligament fixation (SSLF). The primary outcomes were anatomical cure and recurrence rate of both procedures. Secondary outcomes were prolapse symptom, quality of life and sexual function based upon validated questionnaires. The complications were also recorded in both groups. Results: Both groups were homogeneous preoperatively. The anatomical success rates for the anterior, apical and posterior vaginal compartments were 99.2%, 97.0% and 97.7% in the AVM group, respectively. For patients who underwent AVM-SSLF, the anatomical success rates for the anterior, apical and posterior compartments were 96.1%, 98.1% and 98.1%, respectively. The recurrence for both techniques was low. Both procedures presented a significant improvement with regard to postoperative quality of life (QOL), prolapse symptoms, and sexual function after 1-year follow-up. Conclusion: The preoperative Ba and D point correlated with surgical choice for the treatment of anterior/apical prolapse, which further decided the surgical outcomes for prolapse support.

Smooth muscle of the male pelvic floor: An anatomic study.

Knowledge of the anatomy of the male pelvic floor is important to avoid damaging the pelvic floor muscles during surgery. We set out to explore the structure and innervation of the smooth muscle (SM) of the whole pelvic floor using male fetuses. We removed en-bloc the entire pelvis of three male fetuses. The specimens were serially sectioned before being stained with Masson's trichrome and hematoxylin and eosin, and immunostained for SMs, and somatic, adrenergic, sensory and nitrergic nerve fibers. Slides were digitized for three-dimensional reconstruction. We individualized a middle compartment that contains SM cells. This compartment is in close relation with the levator ani muscle (LAM), rectum, and urethra. We describe a posterior part of the middle compartment posterior to the rectal wall and an anterior part anterior to the rectal wall. The anterior part is split into (1) a centro-levator area of SM cells localized between the right and left LAM, (2) an endo-levator area that upholsters the internal aspect of the LAM, and (3) an infra-levator area below the LAM. All these areas are innervated by autonomic nerves coming from the inferior hypogastric plexus. The core and the infra-levator area receive the cavernous nerve and nerves supplying the urethra. We thus demonstrate that these muscular structures are smooth and under autonomic influence. These findings are relevant for the pelvic surgeon, and especially the urologist, during radical prostatectomy, abdominoperineal resection and intersphincteric resection. Clin. Anat., 2019. © 2019 Wiley Periodicals, Inc.

MRI of the Male Pelvic Floor.

The pelvic floor is a complex structure that supports the pelvic organs and provides resting tone and voluntary control of the urethral and anal sphincters. Dysfunction of or injury to the pelvic floor can lead to gastrointestinal, urinary, and sexual dysfunction. The prevalence of pelvic floor disorders is much lower in men than in women, and because of this, the majority of the published literature pertaining to MRI of the pelvic floor is oriented toward evaluation of the female pelvic floor. The male pelvic floor has sex-specific differences in anatomy and pathophysiologic disorders. Despite these differences, static and dynamic MRI features of these disorders, specifically gastrointestinal disorders, are similar in both sexes. MRI and MR defecography can be used to evaluate anorectal disorders related to the pelvic floor. MRI can also be used after prostatectomy to help predict the risk of postsurgical incontinence, to evaluate postsurgical function by using dynamic voiding MR cystourethrography, and subsequently, to assess causes of incontinence treatment failure. Increased tone of the pelvic musculature in men secondary to chronic pain can lead to sexual dysfunction. This article reviews normal male pelvic floor anatomy and how it differs from the female pelvis; MRI techniques for imaging the male pelvis; and urinary, gastrointestinal, and sexual conditions related to abnormalities of pelvic floor structures in men.Online supplemental material is available for this article.©RSNA, 2019.

[Pathologic and functional anatomy basis of intersphincteric resection].

The anorectum is a complex region, whose anatomic structure is the basis and premise of intersphincteric resection (ISR) for low rectal cancer. With the development of pelvic surgery and minimally invasive surgery, the anatomic approaches, surgical planes, extent of excision and reconstruction strategies of ISR have been better understood. Surgeons can furthest preserve anal function as well as adhere to the principles of radical resection. However, the anatomy of the anorectum has not been fully understood. We hope further exploration of the anal canal anatomy, including the perirectal fascia, rectourethral muscle, anococcygeal ligament, hiatal ligament, levator ani muscle, internal and externals phincter, intersphincteric nerves, conjointed longitudinal muscle, intersphincteric spaces and the surgical approaches, by reviewing relevant literatures combined with the experiences of our clinical practice and applied anatomy, will help to improve the accuracy of the surgeries and increase the oncologic and functional outcomes of ISR.

Improvement in early urinary continence recovery after robotic-assisted radical prostatectomy based on postoperative pelvic anatomic features: a retrospective review.

BACKGROUND: We investigated the impact of postoperative membranous urethral length and other anatomic characteristics of the pelvic floor shape as measured by magnetic resonance imaging on the improvement in continence following robotic-assisted radical prostatectomy. METHODS: We retrospectively reviewed data from 73 patients who underwent postoperative prostate magnetic resonance imaging following robotic-assisted radical prostatectomy between 2013 and 2018. Patient demographics; pre-, peri-, and post-operative parameters; and pelvic anatomic features on magnetic resonance imaging were reviewed. Patients who used no urinary incontinence pads or pads for protection were considered to have achieved complete continence. RESULTS: Urinary continence was restored in 27.4, 53.4, 68.5, and 84.9% of patients at 1, 3, 6, and 12 months after robotic-assisted radical prostatectomy, respectively. When patients were divided into early and late continence groups based on urinary continence at 3 months after robotic-assisted radical prostatectomy, no significantly different clinical characteristics or surgical outcomes were found. However, the mean membranous urethral length (18.5 mm for the early continence group vs. 16.9 mm for the late continence group), levator muscle width (7.1 vs. 6.5 mm, respectively), and bladder neck width on the trigone side (7.2 mm vs. 5.4 mm, respectively) were significantly different between groups (all p < 0.05). Multivariate logistic regression analysis showed that membranous urethral length (odds ratio, 1.227; 95% confidence interval, 1.011-1.489; p = 0.038) and bladder neck width (odds ratio, 1.585; 95% confidence interval, 1.050-2.393; p = 0.028) were associated with the period of early urinary continence. CONCLUSIONS: Postoperative membranous urethral length and bladder neck width were significantly associated with early urinary continence recovery after robotic-assisted radical prostatectomy. It is highly recommended that surgeons focus on preserving the membranous urethral length and increasing the bladder neck width on the trigone side during surgery to achieve optimal continence outcomes after robotic-assisted radical prostatectomy.

The fascial connections of the pectineal ligament.

In clinical settings, the pectineal ligament forms a basic landmark for surgical approaches. However, to date, the detailed fascial topography of this ligament is not well understood. The aim of this study was to describe the morphology of the pectineal ligament including its fascial connections to surrounding structures. The spatial-topographical relations of 10 fresh and embalmed specimens were dissected, stained, slice plastinated, and analyzed macroscopically, and in three cases histological approaches were also used. The pectineal ligament is attached ventrally and superiorly to the pectineus muscle, connected to the inguinal ligament by the lacunar ligament and to the tendinous origin of rectus abdominis muscle and the iliopubic tract. It forms a site of origin for the internal obturator muscle, and throughout its curved course, the ligament attaches to both the fasciae of iliopsoas and the internal obturator muscle. However, dorsally, these fasciae pass free from the bone, while the pectineal ligament itself is adhered to it. The organ fasciae are seen apart from the pectineal ligament and its connections. The pectineal ligament seems to form a connective tissue junction between the anterior and medial compartment of the thigh. This ligament, however, is free to other compartments arisen from the embryonal gut and to the urogenital ridge. These features of the pectineal ligament are important to consider during orthopedic and trauma surgical approaches, in gynecology, hernia and incontinence surgery, and in operations for pelvic floor and neovaginal reconstructions. Clin. Anat. 32:961-969, 2019. © 2019 Wiley Periodicals, Inc.

Laparoscopic surgical anatomy for pelvic floor surgery.

Understanding anatomy is one of the pillars for performing a safe, effective, and efficient surgery, but recently, it is reported that there has been a decline in teaching anatomy during the preclinical years of medical school. There is also evidence that by the time a medical student becomes a clinician, a considerable proportion of the basic anatomy knowledge is lost. Hence, it is crucial for surgeons performing or assisting in pelvic floor surgery to revisit this integral clinical aspect of pelvic anatomy for performing a safe surgery. Pelvic organ prolapse repair, especially abdominal laparoscopic sacrocolpopexy, which is the gold standard of pelvic organ prolapse repair, presents a significant challenge to surgeons because the technique requires thorough and meticulous negotiation through abdomino-pelvic vascular structures and nerves supplying the pelvis, rectum, and ureters. The abdominal laparoscopic sacrocolpopexy surgery requires surgeons to have a deep understanding of anatomy to prevent potential life-threatening complications, which is as critical as it is for a pilot to understand the navigation route for a safe landing. This review is an extensive look and a great reminder to laparoscopic surgeons working in the pelvic cavity, especially those performing a pelvic floor surgery, about the anatomical safe routes for performing laparoscopic pelvic floor repairs. For easy reading and clear understanding, we have described step by step the safe anatomical journey a surgeon needs to take during laparoscopic sacrocolpopexy. We divided the technique into five critical anatomic locations (landmarks), which serves as our "flight map" for performing safe and efficient laparoscopic sacrocolpopexy.

Pelvic magnetic resonance imaging parameters predict urinary incontinence after robot-assisted radical prostatectomy.

OBJECTIVE: Urinary incontinence (UI) is a major prostate cancer (PCa) treatment-related morbidity. It has been reported that post-prostatectomy UI is related to the width of the pelvic floor muscles (PFM) and the length of the urethra. However, the details of these anatomical parameters are unknown. The aim of this study was to investigate whether preoperative pelvic parameters or anatomical parameters of the urethra, as measured by magnetic resonance imaging (MRI), are correlated with UI. METHODS: Between 2010 and 2017, 571 patients with localized PCa underwent robot-assisted radical prostatectomy (RARP) at Okayama University Hospital. Patients treated by a single experienced surgeon were included in the study. Preoperative prostate volume, obturator internal muscle, anal sphincter muscle, levator ani muscle (LAM), urethra wall thickness (UWT), and membranous urethral length (MUL) were measured by MRI. Patients were divided into two groups depending on leakage status 1 year after RARP using Expanded Prostate Index Composite Item 1. RESULTS: Seventy patients were included in this retrospective study. Based on leakage status, 37 and 33 patients were allocated to the no-leakage and leakage groups, respectively. There were significant differences between the two groups in age (P = 0.03), MUL (P < 0.001), UWT (P = 0.03), and LAM (P = 0.001). Multivariate logistic regression analyses revealed that MUL and LAM predicted UI 1 year after RARP. CONCLUSIONS: Pelvic parameters measured by MRI before RARP may be useful in the prediction of UI. In particular, MUL and LAM can predict postoperative UI by strict definition.

Assessment of Pelvic Floor Anatomy for Male-to-Female Vaginoplasty and the Role of Physical Therapy on Functional and Patient-Reported Outcomes.

BACKGROUND: Rapid increase in number of male-to-female vaginoplasties emphasizes the need for preoperative measures to optimize final surgical and patient-reported outcomes. Hormonal therapy and socioeconomic factors may contribute to a higher incidence of pelvic floor dysfunction in patients undergoing male-to-female vaginoplasty. The purpose of this study was to evaluate the incidence of pelvic floor dysfunction in this population and the role of physical therapy in its treatment. METHODS: From July 2016 to July 2018, patients scheduled to undergo male-to-female vaginoplasty were evaluated by a physical therapist for pelvic floor dysfunction. Patient charts were reviewed for demographics, comorbidities, and length of hormonal therapy. Those with and without symptoms were compared. Symptomatic patients underwent therapy. Assessment of symptom severity and its impact on daily living were completed at 2- to 3-month intervals with physical therapy using the 6-item Urinary Distress Index 6 and 8-item Colorectal Anal Distress Index components of the 20-item Pelvic Floor Distress Inventory (PFDI-20) before and after surgery. A third component of the PFDI-20, the 6-item Pelvic Organ Prolapse Distress Inventory, was also included in the postoperative assessment. RESULTS: Over a 24-month period, a total of 40 patients with a mean age of 40.7 (19-72) years and body mass index of 27.1 kg/m (22-39 kg/m) were enrolled. Comorbidities included 4 patients (10%) with diabetes and 6 patients (15%) with hypertension. Patients with symptoms had a significantly higher mean age (P < 0.01). Only 1 patient (2.5%) had new-onset pelvic floor dysfunction after surgery, and there was no significant increase in severity of symptoms in those with a previous pelvic floor dysfunction postoperatively. Physical therapy significantly (P < 0.01) reduced severity of symptoms and its impact on daily living as assessed by the Urinary Distress Index and Colorectal Anal Distress Index before and after surgery and by the PFDI-20 and 7-item Pelvic Floor Dysfunction Index postoperatively. CONCLUSIONS: A high incidence of pelvic floor dysfunction may exist in patients undergoing male-to-female vaginoplasty preoperatively. Screening at this early stage with both preoperative and postoperative therapy can significantly reduce pelvic floor dysfunction and improve symptoms and quality of life for this population.

Spatial distribution of smooth muscle tissue in the male pelvic floor with special reference to the lateral extent of the rectourethralis muscle: Application to prostatectomy and proctectomy.

The anatomy of the rectourethralis muscle is essential for performing radical prostatectomy and proctectomy. The rectourethralis muscle is known to continue to the rectal wall posteriorly and to the membranous urethra anteriorly. However, the lateral extent of the rectourethralis muscle remains unclear. This study aimed to verify the hypothesis that the rectourethralis muscle laterally extends and directly adheres to the levator ani. Eight male cadavers were used for macroscopic dissection, and three male cadavers were used for immunohistological analysis using anti-smooth muscle and anti-skeletal muscle antibodies. The rectourethralis muscle laterally extended smooth muscle fibers both superoposteriorly and inferoanteriorly toward the levator ani. The smooth muscle fibers sandwiched the levator ani superoanteriorly and inferoanteriorly. A few smooth muscle fibers of the rectourethralis muscle inserted into the levator ani. This study clarified the spatial distribution of the rectourethralis muscle and its detailed positional relationship with the levator ani. The findings are valuable especially to urologists and anorectal surgeons for dissecting an optimal layer around the urethra and the rectum, and for avoiding rectal or urethral injuries during surgery. Clin. Anat. 31:1167-1176, 2018. © 2018 Wiley Periodicals, Inc.

Impact of subsequent pregnancies on pelvic floor functional anatomy.

INTRODUCTION AND HYPOTHESIS: Vaginal childbirth clearly has an effect on pelvic floor anatomy, and pregnancy itself also likely plays a role. This study investigated the effects of consecutive pregnancies by comparing pelvic organ support and function in urogynecological patients delivered by cesarean section (CS) only. METHODS: This was a retrospective study using 161 archived data sets of urogynecological patients delivered exclusively by CS presenting with symptoms of pelvic floor dysfunction between 2007 and 2015. Patients had undergone an interview, clinical examination using the Pelvic Organ Prolapse Quantification (POP-Q) system, and 3D/4D translabial ultrasound (TLUS) using Voluson systems. Measures of functional pelvic floor anatomy were obtained from stored ultrasound (US) volumes at a later date, using proprietary software, and blinded against all other data. RESULTS: One hundred and sixty-one women delivered exclusively by CS were seen in a urogynecological clinic. Volume data analysis was possible in 151 patients. Mean age was 52 (26-82) years, with a mean body mass index (BMI) of 29.5 (18.4-48.7) kg/m2. Forty-three (28.5%) women had one CS, 67 (44.4%) had two, and 41 (27.1%) had three or more. On multivariate analysis, adjusting for age, BMI, history of hysterectomy, and incontinence or prolapse surgery, there were no significant differences between groups. CONCLUSIONS: On comparing women with one, two, or three or more CS, we found no significant differences in any measured sonographic parameters of pelvic organ descent and pelvic floor muscle function. This implies that subsequent pregnancies after the first are unlikely to exert significant additional effects on pelvic floor functional anatomy.