Objectives: In this review we will describe the testicular vessels anatomy and the implications of these vessels in surgical treatment of high undescended testis. Material and Methods: We performed a narrative review of the literature about the role of the testicular arteries anatomy in the treatment of high undescended testis. We also studied two human testes to illustrate the testicular vascularization. Results: Each testis is irrigated by three arteries: testicular artery (internal spermatic artery), a branch of the right aorta; deferential artery (vasal artery), a branch of the inferior vesicle artery that originates from the anterior trunk of internal iliac artery and cremasteric artery (external spermatic artery), a branch of the inferior epigastric artery. There are important communications among the three arteries with visible anastomotic channels between the testicular and deferential arteries. Conclusions: Laparoscopic transection of the testicular vessels by dividing the spermatic vessels (Fowler-Stephens surgery) is safe in patients with high abdominal testis due to the great collateral vascular supply between testicular, vasal and cremasteric arteries; also, two-stage Fowler-Stephens orchiopexy appears to carry a higher rate of success than the single stage approach.
BackgroundThe second gestational trimester is a very important period for male genital development. We analyzed the testicular and prostatic volume growth and compared them to the biometric parameters in human fetuses.MethodsWe studied 64 testes and 32 prostates from 32 fetuses, aged 10–22 weeks postconception. Fetuses were evaluated regarding total length, crown‐rump length, and bodyweight. The same observer performed all the measurements. After testicular and prostatic dissection, the prostate and testicular length, width and thickness were recorded with the aid of computer programs (Image Pro and ImageJ software, version 1.46r). Testicular volume (TV) and prostatic volume (PV) were calculated using the ellipsoid formula. Statistical analysis was performed with the GraphPad Prism program (version 6.01).ResultsThe fetuses presented PV between 6.1 and 297.18 mm2 (mean = 77.98 mm3). Linear regression analysis indicated that the PV in these fetuses increased significantly and positively with fetal age (r2 = .3120; p < .0001). We did not observe significant differences between the TV (right testis: 0.39–63.94 mm3; mean = 19.84 mm3; left testis: 0.52–55.37 mm3, mean = 17.25 mm3). Linear regression analysis also indicated that the right and left TV (right: r2 = .6649; p < .0001 and left: r2 = .6792; p < .001) increased significantly and positively with fetal age.ConclusionThe prostatic growth was slower during the second gestational trimester, with significant correlations with fetal biometric parameters. The testicular growth was moderate and showed a significant correlation with fetal parameters during the studied period in human fetuses.
Analyze the biometric parameters and the size (area) of abdominal wall defect (AWD) in fetuses with gastroschisis and omphaloceles and correlate them with the herniated internal organs. We studied 22 fetuses (11 with AWDs and 11 without anomalies). In all fetuses we evaluated the xiphopubic distance (XPD) and iliac crest distance (ICD). In fetuses with AWDs we dissected the abdominal wall and measured the width and length of the defect for calculating its area and studying the correlation between the size of the defect with the organs that were herniated. For statistical analysis, the Anova and Tukey post-test were used (p < 0.05). The XPD in the control group had mean of 4.2 mm (2.3–5.9; SD ± 1.11), while in the AWDs it was 4.2 mm (2.9–5.5; SD ± 0.98) (p = 0.4366). The ICD had mean values of 2.5 mm (1.6–3.4; SD ± 0.58) in the control group, and 2.3 mm (1.2–3.0; SD ± 0.56) in AWDs fetuses (p = 0.6963). The number of herniate organs do not have significant correlation with the area of the defect (r2 = 0.2504, p = 0.5068). There is no correlation between the size (area) of abdominal wall defects and the number of the internal organs that herniated. Therefore, the hole size is not a predictor of the severity of the gastroschisis or omphalocele.
Background:To analyze the incidence of epididymal anomalies (EAs) associated to spermatic obstruction in patients with undescended testis (UT) according to testicular position and age. Materials and Methods: We studied 87 patients (110 testis) with cryptorchidism and analyzed the presence of EAs correlated with the testicular position, age and patency of the processus vaginalis (PV). To analyze the relations between the testis and epididymis we considered three situations: (a) Normal pattern: the epididymis was attached to the testis at the head and tail and epididymis totally attached to the testis; (b) EAs: when the epididymis was attached to the testis only at the head (Figure -1A) and (c) EAs associated to spermatic obstruction: epididymis was attached to the testis only at the tail (Figure -1B) and when there are no visible connection between testis and epididymis (Figure -1C). We used the Wilcoxon-Mann-Whitney test and the Chi-square test for contingency analysis (p <0.05). Results: The mean age of the patients was 5.18 years (SD=2.867). Of 110 testes analyzed, 14 were abdominal (12.72%); 83 inguinal (75.45%) and 13 suprascrotal (11.81%). Normal relationships between testis and epididymis were observed in 54 patients (62.1%) with no significant differences in relation to the patient's age (p=0.666). Epididymal tail disjunction was observed in 23 patients (26.44%), with no significant differences in relation to age (p=0.59). EAs associated to spermatic obstruction were observed in 16 patients (18.4%), also with no significant differences in relation to age (p=0.684). We did not observe significant correlation between the testis position and the incidence of EAs (p=0.119). We did not observe significant correlations between patency of the PV (64.7%) and incidence of EAs (p=0.742). Conclusions: Epididymal anomalies associated with spermatic obstruction are present in almost 20% of undescended testes, without significant correlation with age, testicular position and patency of the PV. This information needs to be correlated to the infertility risk of this congenital anomaly.
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