1.Histological analysis of the anterior lobe region in transurethral prostatectomy.
Li YANG ; Bo FENG ; Zheng-Jin LI ; Zhi-Song XIAO ; Yin-Gui YANG
National Journal of Andrology 2012;18(12):1083-1087
OBJECTIVETo explore the possibility of injury to the striated urethral sphincter by incision to the anterior lobe region in transurethral prostatectomy.
METHODSWe incised the anterior lobe region of 60 patients with benign prostatic hyperplasia (BPH) undergoing transurethral prostatectomy. The patients were divided into four groups according to the incision fields: proximate superficial (group 1), proximate deep (group 2), distal superficial (group 3) and distal deep (group 4). The tissues taken from the anterior lobe region were subjected to HE staining, and the smooth and striated muscles were detected by immunohistochemical identification of smooth muscle actin (SMA) and myoglobin (MYO) in the tissues. The prostate volume, age, and PSA level of the patients were analyzed against their positive or negative results. The relative contents of the striated muscle were compared among groups 2, 3 and 4. The independent-sample between-group t-test was used for statistic analysis.
RESULTSThe urethral rhabdosphincter was found in the anterior lobe region, with the smooth muscle intermixed with the striated muscle. The incision injury of the urethral rhabdosphincter was associated with the prostate volume. Increased urethral rhabdosphincter was observed in the anterior lobe region, approaching the apex of the prostate and extending to the urethral lumen.
CONCLUSIONThe anterior lobe region should not be excessively incised in transurethral prostatectomy so as to avoid direct injury of the striated urethral sphincter, which is especially important for prostates of smaller volume or operation near the apex of the prostate.
Aged ; Histological Techniques ; Humans ; Male ; Prostate ; anatomy & histology ; pathology ; Prostatic Hyperplasia ; pathology ; surgery ; Transurethral Resection of Prostate ; Urethra ; anatomy & histology ; pathology
2.Anatomical and histological investigation of the area anterior to the anorectum passing through the levator hiatus.
Xiao Jie WANG ; Zhi Fang ZHENG ; Qian YU ; Wen LI ; Yu DENG ; Zhong Dong XIE ; Sheng Hui HUANG ; Ying HUANG ; Xiao Zhen ZHAO ; Pan CHI
Chinese Journal of Gastrointestinal Surgery 2023;26(6):578-587
Objective: To document the anatomical structure of the area anterior to the anorectum passing through the levator hiatus between the levator ani slings bilaterally. Methods: Three male hemipelvises were examined at the Laboratory of Clinical Applied Anatomy, Fujian Medical University. (1) The anatomical assessment was performed in three ways; namely, by abdominal followed by perineal dissection, by examining serial cross-sections, and by examining median sagittal sections. (2) The series was stained with hematoxylin and eosin to enable identification of nerves, vessels, and smooth and striated muscles. Results: (1) It was found that the rectourethralis muscle is closest to the deep transverse perineal muscle where the longitudinal muscle of the rectum extends into the posteroinferior area of the membranous urethra. The communicating branches of the neurovascular bundle (NVB) were identified at the posterior edge of the rectourethralis muscle on both sides. The rectum was found to be fixed to the membranous urethra through the rectourethral muscle, contributing to the anorectal angle of the anterior rectal wall. (2) Serial cross-sections from the anal to the oral side were examined. At the level of the external anal sphincter, the longitudinal muscle of the rectum was found to extend caudally and divide into two muscle bundles on the oral side of the external anal sphincter. One of these muscle bundles angled dorsally and caudally, forming the conjoined longitudinal muscle, which was found to insert into the intersphincteric space (between the internal and external anal sphincters). The other muscle bundle angled ventrally and caudally, filling the gap between the external anal sphincter and the bulbocavernosus muscle, forming the perineal body. At the level of the superficial transverse perineal muscle, this small muscle bundle headed laterally and intertwined with the longitudinal muscle in the region of the perineal body. At the level of the rectourethralis and deep transverse perineal muscle, the external urethral sphincter was found to occupy an almost completely circular space along the membranous part of the urethra. The dorsal part of the external urethral sphincter was found to be thin at the point of attachment of the rectourethralis muscle, the ventral part of the longitudinal muscle of the rectum. We identified a venous plexus from the NVB located close to the oral and ventral side of the deep transverse perineal muscle. Many vascular branches from the NVB were found to be penetrating the longitudinal muscle and the ventral part of rectourethralis muscle at the level of the apex of the prostate. The rectourethral muscle was wrapped ventrally around the membranous urethra and apex of the prostate. The boundary between the longitudinal muscle and prostate gradually became more distinct, being located at the anterior end of the transabdominal dissection plane. (3) Histological examination showed that the dorsal part of the external urethral sphincter (striated muscle) is thin adjacent to the striated muscle fibers from the deep transverse perineal muscle and the NVB dorsally and close by. The rectourethral muscle was found to fill the space created by the internal anal sphincter, deep transverse perineal muscle, and both levator ani muscles. Many tortuous vessels and tiny nerve fibers from the NVB were identified penetrating the muscle fibers of the deep transverse perineal and rectourethral muscles. The structure of the superficial transverse perineal muscle was typical of striated muscle. These findings were reconstructed three-dimensionally. Conclusions: In intersphincteric resection or abdominoperineal resection for very low rectal cancer, the anterior dissection plane behind Denonvilliers' fascia disappears at the level of the apex of the prostate. The prostate and both NVBs should be used as landmarks during transanal dissection of the non-surgical plane. The rectourethralis muscle should be divided near the rectum side unless tumor involvement is suspected. The superficial and deep transverse perineal muscles, as well as their supplied vessels and nerve fibers from the NVB. In addition, the cutting direction should be adjusted according to the anorectal angle to minimize urethral injury.
Humans
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Male
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Rectum/surgery*
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Anal Canal/anatomy & histology*
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Rectal Neoplasms/surgery*
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Proctectomy
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Urethra/surgery*
3.Autologous buccal mucosal graft for urethral reconstruction.
Wen CHEN ; Sen-kai LI ; Yang-qun LI ; Ming-yong YANG ; Wei-qing HUANG ; Ju-feng FAN ; Hong-feng ZHAI ; Qiang LI
Chinese Journal of Plastic Surgery 2003;19(1):36-38
OBJECTIVETo search for a new method for urethra reconstruction using autologous buccal mucosal graft while lacking of local skin.
METHODSSince 1998, a total of 25 patients with complex hypospadias have been treated using buccal mucosal grafts for urethral reconstruction. The reconstructed urethra was anastomosed with the meatus half year later.
RESULTSAll the reconstructed urethra survived without contracture or stricture except one infection, which healed with no adverse consequence.
CONCLUSIONThe key points for operation success is rich capillary network, thick epidermis and thin lamina propria of the buccal mucosa. Buccal mucosa is an excellent tissue for urethral reconstruction.
Capillaries ; anatomy & histology ; Contracture ; Epidermis ; anatomy & histology ; Humans ; Hypospadias ; surgery ; Male ; Mouth Mucosa ; anatomy & histology ; transplantation ; Mucous Membrane ; Urethra ; surgery ; Urologic Surgical Procedures, Male ; methods
4.Design of a multifunctional and transparent urinary system model.
Wengang HU ; Chibing HUANG ; Jiayu FENG ; Yinfu ZHANG ; Jin WANG ; Xiaoting XU ; Yajun SONG ; Zhen SUN ; Yirong CHEN
Journal of Biomedical Engineering 2014;31(2):293-313
This article describes a novel Multifunctional and Transparent Urinary System Model (MTUSM), which can be applied to anatomy teaching, operational training of clinical skills as well as simulated experiments in vitro. This model covers kidneys, ureters, bladder, prostate, male and female urethra, bracket and pedestal, etc. Based on human anatomy structure and parameters, MTUSM consists of two transparent layers i. e. transparent organic glass external layer, which constraints the internal layer and maintains shape of the model, and transparent silica gel internal layer, which possesses perfect elasticity and deformability. It is obvious that this model is preferable in simulating the structure of human urinary system by applying hierarchical fabrication. Meanwhile, the transparent design, which makes the inner structure, internal operations and experiments visual, facilitates teaching instruction and understanding. With the advantages of simple making, high-findelity, unique structure and multiple functions, this model will have a broad application prospect and great practical value.
Female
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Humans
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Kidney
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Male
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Models, Anatomic
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Models, Biological
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Prostate
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Ureter
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Urethra
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Urinary Bladder
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Urogenital System
;
anatomy & histology
5.The Relationship between Maximal Urethral Closure Pressure and Functional Urethral Length in Anterior Vaginal Wall Prolapse Patients According to Stage and Age.
Sang Wook BAI ; Jung Mi CHO ; Han Sung KWON ; Joo Hyun PARK ; Jong Seung SHIN ; Sei Kwang KIM ; Ki Hyun PARK
Yonsei Medical Journal 2005;46(3):408-413
MUCP (Maximal urethral closure pressure) is known to be increased in patients with vaginal wall prolapse due to the mechanical obstruction of the urethra. However, urethral function following reduction has not yet been completely elucidated. Predicting postoperative urethral function may provide patients with important, additional information prior to surgery. Thus, this study was performed to evaluate the relationship between MUCP and functional urethral length (FUL) according to stage and age in anterior vaginal wall prolapse patients. 139 patients diagnosed with anterior vaginal wall prolapse at Yonsei University Medical College (YUMC) from March 1999 to May 2003 who had underwent urethral pressure profilometry following reduction were included in this study. The stage of pelvic organ prolapse (POP) was determined according to the dependent portion of the anterior vaginal wall (Aa, Ba). (By International Continence Society's POP Quantification system) Patients were divided into one of four age groups: patients in their 40s (n=13), 50s (n=53), 60s (n=54), and 70 and over (n=16). No difference in MUCP was found between the age groups. The FUL of patients in their 40s was shorter than that of patient's in their 50s and 60s. Patients were also divided into stages: stage II (n=35), stage III (n=76), and stage IV (n=25). No significant difference in MUCP was found according to stage and FUL. However, a significant difference was noted between stage III and IV as stage IV was longer. Anterior vaginal wall prolapse is known to affect urethral function due to prolapse itself, but according to our study, prolapse itself did not alter urethral function. This suggests that, regardless of age and stage, prolapse corrective surgery does not affect the urethral function.
Adult
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Age Factors
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Aged
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Female
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Humans
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Middle Aged
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Postoperative Complications
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Pressure
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Urethra/*anatomy & histology/*physiology
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Urinary Incontinence, Stress/etiology/physiopathology
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Uterine Prolapse/pathology/*physiopathology/*surgery
6.The Predictive Values of Various Parameters in the Diagnosis of Stress Urinary Incontinence.
Sang Wook BAI ; Jin Woo LEE ; Jong Seung SHIN ; Joo Hyun PARK ; Sei Kwang KIM ; Ki Hyun PARK
Yonsei Medical Journal 2004;45(2):287-292
The Maximum Urethral Closure Pressure (MUCP) and Functional Urethral Length (FUL) are significant parameters of the Urethral Pressure Profile (UPP), while the Q-tip angle and Bladder Neck Descent (BND) are the significant parameters of urethral hypermobility. We performed a study to evaluate the effects and predictive values of each of these parameters in the diagnosis of Stress Urinary Incontinence (SUI). A retrospective study was done involving 90 SUI patients and 38 non-SUI patients who underwent urodynamic study, Q-tip test and perineal ultrasound at Yonsei Medical Center between January, 1999 and February, 2002. There was no statistical difference between the SUI and non-SUI groups in terms of mean age, delivery history, menopausal age and body mass index. While the FUL and Q-tip angle showed significant differences (33.18 +/- 19.55 vs 33.12 +/- 13.37 mm, p=0.002; 65.94 +/- 21.69 vs 56.45 +/- 26.53 degrees, p=0.02, respectively) neither the MUCP nor the BND showed any significant difference between the two groups (60.06 +/- 29.92 vs 48.97 +/- 42.95 cmH2O, p > 0.05; 1.09 +/- 0.75 vs 0.85 +/- 0.76 cm, p > 0.05; 0.71 +/- 0.80 vs 0.53 +/- 0.72 cm, p > 0.05). The odds ratios for the FUL and Q-tip angle were 1.038 (1.014, 1.061) and 1.017 (1.001, 1.033), respectively. The FUL and Q-tip angle had cut-off values of 1.36 cm (sensitivity: 68.8%, specificity : 54.1%, PPV : 73.8%, NPV : 48.1%) and 20.47 degrees (sensitivity : 93.3%, specificity : 18.17%, PPV : 68.2%, NPV : 60%), respectively, in the diagnosis of SUI. The area under the curve (AUC) of the FUL and Q-tip angle were on average 0.625 (p=0.0016) and 0.575 (p=0.0012), respectively. Both the FUL and Q-tip angle showed a significant difference between SUI patients and the normal group. However, their value as a diagnostic tool was trivial, and since their sensitivity, specificity, positive predictive value and negative predictive value showed inconsistent results at each cut-off value, it would be difficult to apply them to clinical use. A further study is required to set-up standard diagnostic values of these variables for clinical use.
Age Factors
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Aged
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Female
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Human
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*Menopause
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Middle Aged
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Predictive Value of Tests
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Retrospective Studies
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Sensitivity and Specificity
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Urethra/*anatomy & histology
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Urinary Incontinence, Stress/*diagnosis
7.Application of tubularized incised plate in one-stage urethroplasty for hypospadia accompanied with anatomic kak-factors.
Huai YANG ; Li-Chao ZHANG ; Hui-Xu HE ; Yuan-Song XIAO ; Shi-Jian WU
National Journal of Andrology 2011;17(7):606-610
OBJECTIVETo investigate the application of tubularized incised plate (TIP) in urethroplasty for hypospadia accompanied with anatomic kak-factors.
METHODSWe retrospectively studied 191 cases of hypospadia treated by one-stage TIP urethroplasty. Taking the position of the urinary meatus, the development of the glans penis and urethral plate, and the degree of penile ventral curvature as anatomic kak-factors inducing postoperative complications and affecting the appearance, we conducted correlation analyses on the clinical effects of the procedure using SPSS 10.0 statistics.
RESULTSPostoperative complications were closely correlated with the position of the urinary meatus, the nearer its position to the coronary sulcus, the higher the incidence of complications (chi2 = 24.291, P < 0.01). And so were they with the development of the glans penis and urethral plate and the degree of penile ventral curvature. The incidence of postoperative complications was significantly higher in the hypospadia patients with small glans, maldeveloped urethral plate and severe penile ventral curvature than in those with straight penis and well-developed glans and urethral plate (chi2 = 25.419, P < 0.01).
CONCLUSIONTubularized incised plate urethroplasty for hyper-spadias should be chosen according to the position of the meatus, the development of urethral mucous membrane, the degree of ventral curvature and surgery experience in order to achieve a high cure rate and good cosmetic effect.
Adolescent ; Child ; Child, Preschool ; Humans ; Hypospadias ; surgery ; Infant ; Male ; Reconstructive Surgical Procedures ; methods ; Retrospective Studies ; Urethra ; anatomy & histology ; surgery ; Urologic Surgical Procedures ; methods ; Young Adult
8.Anatomy correction of penile epispadias.
Yang-Qun LI ; Huan-Li PAN ; Yong TANG ; Wen CHEN ; Mu-Xin ZHAO ; Zhe YANG ; Xiao-Ji LIU ; Chun-Mei HU ; Yuan-Yuan LIU ; Ning MA ; Miao XIE
Chinese Journal of Plastic Surgery 2011;27(6):424-426
OBJECTIVETo investigate the pathological characters and anatomic correction of penile epispadias.
METHODSThe urethra was formed by local urethra plate mucosa flaps. The contracture on dorsum of penis was released by cutting off the superficial suspensory ligament to reposition the penile and urethral sponge.
RESULTSFrom Jun. 2004 to Dec. 2010, 26 cases with penile epispadias were treated. 18 cases were followed up for 6 months to 5 years. 10 cases were treated successfully with good cosmetic and functional results. Urinary incontinence happened in 8 cases, which healed after tightening operation.
CONCLUSIONSThe anatomic correction of penile epispadias can recover the normal anatomic structure, resulting good cosmetic and functional results.
Adolescent ; Adult ; Child ; Child, Preschool ; Epispadias ; surgery ; Humans ; Male ; Penis ; anatomy & histology ; surgery ; Reconstructive Surgical Procedures ; methods ; Skin Transplantation ; Surgical Flaps ; Urethra ; anatomy & histology ; surgery ; Urologic Surgical Procedures, Male ; methods ; Young Adult
9.Risk factors for the complications of primary hypospadias urethroplasty with the urethral plate reserved.
Xiu-Juan XU ; Shu-Zhu CHEN ; Min WU ; Yi-Dong LIU ; Wei-Jing YE
National Journal of Andrology 2017;23(4):347-352
Objective:
To investigate the risk factors for the complications of urethroplasty in patients with primary hypospadias by postoperative follow-up observation.
METHODS:
We retrospectively analyzed 110 cases of primary hypospadias repair performed from November 2010 to October 2015, including 70 cases of tubularized incised plate (TIP) urethroplasty and 40 cases of inlay internal preputial graft (IIPG) urethroplasty, all with the urethral plate reserved. We followed up the patients for 15.6-36 months, (27.3 ± 0.52) mo for those with and (26.9 ± 0.22) mo for those without complications. The mean age of the two groups of patients was (7.5 ± 0.2) and (7.0 ± 0.5) yr, respectively.
RESULTS:
The follow-up data were collected from all the patients, 17 (15.5%) with and 93 (84.5%) without complications. The success rate of surgery was 84.5%. There were no statistically significant differences in the follow-up time and age between the two groups of patients (P >0.05). Single-factor analysis of variance showed significant differences between the complication and non-complication groups in the preoperative urethral opening (P <0.01), ventral penile curvature (P <0.01), and length of urethral defect (P = 0.04), while multiple linear regression analysis exhibited that only ventral curvature was associated with the postoperative complications of the patients (OR = 1.12, 95% CI: 1.06-1.19, P<0.01).
CONCLUSIONS
We chose single-stage urethroplasty with the urethral plate reserved for the treatment of primary hypospadias and achieved satisfactory outcomes. Ventral penile curvature is an independent risk factor for the complications of primary hypospadias, and a higher degree of curvature is associated with a higher incidnece of complications.
Analysis of Variance
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Child
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Foreskin
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transplantation
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Humans
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Hypospadias
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surgery
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Male
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Penis
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anatomy & histology
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Postoperative Complications
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etiology
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Postoperative Period
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Reconstructive Surgical Procedures
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Regression Analysis
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Retrospective Studies
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Risk Factors
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Treatment Outcome
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Urethra
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surgery
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Urologic Surgical Procedures, Male