Vaginal development during 2nd gestational trimester: translational study in human female fetuses with disorders of the neural tube.

PURPOSE: One of the most common malformations of the central nervous system is related to embryonic neural tube alterations. We hypothesized that anencephaly affects the development of the vagina during the human second trimester of pregnancy. Our study compared the biometric parameters of the vagina in human female fetuses with neural tube defects. METHODS: In our study, 34 female fetuses were analyzed, 22 normal and 12 anencephalic, aged between 12 and 22 weeks post conception (WPC). After dissection of the pelvis and individualization of the genital tract, we evaluated the length and width of the vagina using the Image J software. We compared the means statistically using the Wilcoxon-Mann-Whitney test and performed linear regression. RESULTS: We do not identify statistical significance between the groups for the measurements of vaginal length (Control 3.12-18.33 mm/mean = 9.08 mm/SD +  - 3.77 vs. Anencephalic 2.91-13.10 mm/mean = 7.24 mm/SD +  - 2.28, p = 0.3469) and vaginal width (Control 1.04-4.86 mm/mean = 2.71 mm/SD + - 0.94 vs. Anencephalic 1.35-3.17 mm/mean = 2.13 mm/SD + - 0.65; p = 0.2503). The linear regression analysis indicated that 78.57% significance was found in the correlations in normocephalic fetuses and 57.14% significance in anencephalic fetuses (12.3-18.6 WPC). CONCLUSIONS: We do not find differences in the length and width of the vagina in anencephalic fetuses but the vaginal length and width shows a lesser tendency of growth in the anencephalic fetuses during the second trimester suggesting that anencephaly can impact the development of the vagina.

Prostate and testicular growth analysis in human fetuses during the second gestational trimester.

BACKGROUND: The 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. METHODS: We 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). RESULTS: The 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. CONCLUSION: The 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.

Urethral and bladder development during the 2nd gestational trimester applied to the urinary continence mechanism: translational study in human female fetuses with neural tube defects.

INTRODUCTION AND HYPOTHESIS: We hypothesized that anencephaly impacts female lower urinary tract development during the human fetal period. The aim of the present study is to compare the biometric parameters of the bladder and urethra in female human fetuses with and without neural tube defects. METHODS: We studied 34 female fetuses (22 normal and 12 anencephalic), aged 12 to 22 weeks post-conception (WPC). After pelvic dissection and individualization of the urinary tract structures, we evaluated the bladder and urethra length and width using Image J software. Means were statistically compared using the Wilcoxon-Mann-Whitney test, and linear regression was performed. RESULTS: We identified statistical significance between the groups regarding bladder length [normal: 6.58-19.98 mm (mean = 12.13 ± 3.21 SD) vs. anencephalic: 4.59-15.27 mm (mean = 8.79 ± 3.31 SD, p = 0.0048] and urethral length [normal: 2.22-7.04 mm (mean = 4.24 ± 1.45 SD) vs. anencephalic: 0.81-6.36 mm (mean = 3.25 ± 1.71 SD, p = 0.05]. We did not observe significant differences in bladder and urethra width between the two groups. The linear regression analysis indicated that the bladder length in anencephalic fetuses increased faster than in normal fetuses. CONCLUSIONS: We observed significant differences in the development of the bladder and urethra in fetuses with anencephaly during the fetal period studied, proving that anencephaly can affect the development of the female fetal lower urinary tract.

Are anogenital distance and external female genitalia development changed in neural tube defects? Study in human fetuses.

BACKGROUND: Anogenital distance (AGD), the distance from the anus to the genitals, is a marker of normal genital development. AGD and other biometric parameters of external female genitalia are important as ultrasonographic markers that can determine fetal gender in the first trimester. Neural tube defects are one of the commonest congenital malformations of the central nervous system, with anencephaly being the most severe defect. Female genitalia development and their association with anencephaly have not been previously described. AIM: The aim of this study was to compare the biometric parameters of external female genitalia in fetuses with anencephaly and compare it to the parameters of normocephalic fetuses at different gestational ages. STUDY DESIGN: We studied 34 female fetuses, 22 normocephalic and 12 anencephalic, aged between 12 and 22 weeks post-conception. The fetuses were placed in the classic lithotomy position and before the fetal dissection, the external female genitalia were photographed with a digital camera. Biometric parameters were recorded and measurements were performed using the Image J software, version 1.46r. Clitoral length and width, clitoris to anus distance, vaginal opening length and width, vaginal opening to labia majora distance, and AGD were measured (Figure). For statistical analysis, the Wilcoxon-Mann-Whitney test was used (p < 0.05). RESULTS: We observed a significant difference between some measurements of the groups: the vaginal opening width was significantly greater in anencephalic fetuses and the vaginal opening length, clitoris to anus distance and vaginal opening to labia majora distance were significantly greater in normocephalic fetuses. For the clitoris length and width, we did not find statistical differences. We also did not find statistical significance in AGD between groups (normocephalic 2.32 mm [2.46-6.42/SD = 2.17] vs. anencephalic 3.93 mm [1.15-6.65/SD = 1.93]; p = 0.499). The linear regression analysis indicated that AGD increased more with age in anencephalic than in the normocephalic group, but without significant differences (r2 = 0.01677; p < 0.318). DISCUSSION: This article is the first to report the female external genitalia parameters in fetuses with anencephaly. In our study we observed some alterations in biometry of the external genitalia in anencephalic fetuses, with a pattern of morphological reduction in this group. The vaginal opening length, clitoris to anus distance and vaginal opening to labia majora distance were significantly lower in anencephalic fetuses but we did not find statistical significance in clitoris measurements and AGD. CONCLUSIONS: Anencephalic fetuses had some alterations in external genitalia development, but the anogenital distances did vary significantly between the groups.

Inguinoscrotal stage of testicular descent: analysis in 217 human fetuses.

BACKGROUND: Testicular descent is a complex process of relevant importance for the comprehension of cryptorchidism. Studies about the inguinoscrotal stage of testicular migration correlating the testicular position with fetal parameters are rare in the literature. Our hypothesis is that the transition of the testis by the inguinal canal is a very fast process and occurs at the end of the third gestational trimester. AIM: To analyze the inguinoscrotal stage of testicular descent during the human fetal period. STUDY DESIGN: This is an observational study in human fetuses. We studied 217 human male fetuses ranging from 10 to 35 weeks postconception (WPC). The fetuses were well preserved and evaluated regarding crown-rump length (CRL) and body weight before dissection. Testicular position was classified as: a) abdominal, when the testis was proximal to the internal ring; b) inguinal, when it was found between the internal and external inguinal rings; and c) scrotal, when being inside the scrotum. Means were statistically compared using the unpaired t-test (P < 0.05). RESULTS: Of the 434 testes, 329 (75.8%) were abdominal, 48 (11.05%) were inguinal, and 57 (13.13%) were scrotal. The first case of inguinal testis was observed in a fetus with 17 WPC, 203 g, and 15 cm CRL. The 48 inguinal testes were observed in 29 fetuses (13.36%), aged between 17 and 29 WPC, weighing between 203 and 1220 g, and with CRL between 15 and 27.5 cm. Of the 29 fetuses with inguinal testes, 23 (79.32%) were aged between 20 and 26 WPC; 3 (10.34%) had 17 WPC; and 3 (10.34%) had more than 26 WPC. All the fetuses with more than 30 WPC had testes in the scrotum. We did not observe fetuses less than 17 WPC with the testes in the canal. DISCUSSION: We found that all fetuses with more than 30 WPC had the testes located in the scrotum and that in fetuses between 17 WPC and 25 WPC, 38 testes (8.7% of the sample) were situated in the canal and only 1 testis in a fetus with 25 WPC was located in the scrotum, showing that the second stage of testicular migration through the inguinal canal rarely occurs before the 20th WPC. CONCLUSION: The inguinoscrotal stage of testicular descent is a fast process, observed only in 13% of the fetuses and occurring with more intensity between 20 and 26 WPC.

Is there a trans-abdominal testicular descent during the second gestational trimester? Study in human fetuses between 13 and 23 weeks post conception

ABSTRACT Objectives To confirm if a real inner descend of testis occurs, correlating the testicular position with fetal parameters and analyzing the position of the testes relative to the internal ring. Material and Methods Twenty nine human fetuses between 13 and 23 weeks post conception (WPC) were studied. The fetuses were carefully dissected with the aid of a stereoscopic lens with 16/25X magnification and testicular position observed. With the aid of a digital pachymeter the distance between the lower pole of the kidney and the upper extremity of the testis (DK-T) was measured to show the position of the testis. During the dissection we also indicated the position of the testes relative to the internal ring. Means were statistically compared using simple linear regression and the paired T-test. Results The 58 testes had abdominal position. The DK-T in the right side measured between 0.17 and 1.82cm (mean=0.79cm) and in the left side it was between 0.12 and 1.84cm (mean=0.87cm), without statistically differences (p=0.0557). The linear regression analysis indicated that DK-T in both sides correlated significantly and positively with fetal age. All fetuses with more than 20 WPC, heavier than 350g and with CRL over 22cm had a greater distance than the average DK-T. We xobserved that the 58 testis remains adjacent to the internal ring throughout the period studied. Conclusions The testes remains adjacent to the internal ring throughout the period studied, indicating that there is no real trans-abdominal testicular descent during the second gestational trimester.

Estudo morfométrico do músculo latíssimo do dorso em fetos humanos / Morphometric study of the latissimus dorsi muscle in human fetuses

Introdução: O músculo latíssimo do dorso (MLD) é largo, triangular e realiza extensão, adução e rotação medial do braço. É vascularizado pelos vasos toracodorsais e ramos perfurantes das artérias intercostais posteriores e lombares, configurando retalho tipo V de Mathes e Nahai, de grande aplicabilidade em cirurgia plástica. O objetivo é analisar a morfometria e a vascularização do MLD em fetos humanos. Método: Dissecou-se a região axilar e o MLD de oito fetos humanos formolizados (três do sexo feminino e cinco do sexo masculino), entre 20 e 32 semanas gestacionais, em decúbito dorsal e abdução completa do braço. Mensuraram-se os comprimentos dos vasos subescapulares e toracodorsais, e foi realizada a morfometria do músculo. Resultados: Em todos os fetos, os vasos toracodorsais conferiram a vascularização primária do MLD. Em 25%, a veia subescapular era tributária direta da veia axilar; 25% dos casos apresentaram veia circunflexa da escápula dupla. O ramo para o músculo serrátil anterior foi único em todos os casos. Em 50% dos casos, o ramo angular da artéria toracodorsal foi visualizado e, em 25% deles, era proveniente do ramo para o músculo serrátil anterior. A distância entre a inserção do músculo e a entrada do pedículo neurovascular variou entre 1,1 e 1,9 cm em fetos de 21 e 26 semanas, respectivamente. Todos os fetos apresentaram a margem anterior do músculo na linha axilar média. Conclusão: A morfometria constante e a reduzida variação anatômica do pedículo vascular encontradas possibilitam a realização de pesquisas envolvendo o uso do MLD em reconstruções cirúrgicas intraútero.

Introduction: The latissimus dorsi muscle (LDM) is a flat triangular muscle which extends, adducts and draws the arm medially. Its blood supply is from the thoracodorsal vessels and the perforating branches of the posterior intercostal and lumbar arteries, therefore, it is a type V flap variety, which has great applicability in plastic surgery. This study aims to analyze the morphometry and the vascularization of MLD in human fetuses. Methods: The axillary region and LDM of eight human fetuses (3 females, 5 males), between 20 and 32 weeks of gestational ages, were dissected in supine position with complete abduction of the arm. The subscapular and thoracodorsal vessels lengths were measured and the morphology of the muscle was studied. Results: In all fetuses, the dominant vascular pedicle of LDM was the thoracodorsal vessels. In 25% of cases the subscapular vein was tributary of the axillary vein. Double circumflex scapular vein were found in 25% of the cases. In all fetuses, the serratus anterior branch was unique. In 50% of the cases the angular branch of the thoracodorsal artery was found, 25% of them were from the serratus anterior branch. The length between its insertion and the entry of the neurovascular pedicle was 1.1 to 1.9 cm in fetuses of 21 and 26 weeks, respectively. In all fetuses, the anterior border of the muscle was at the mid-axillary line. Conclusion: The constant morphometry and reduced anatomical variation of the vascular pedicle enables new studies regarding the use of LDM in surgical reconstructions in utero.

A study on maturation of thyroid gland in human fetuses

The thyroid gland is the first endocrine gland to appear on the embryonic period. Its organogenesis beginswhen the medium endoderm cells start getting thick, forming a diverticulum, in the primitive pharynx floor.In this report, we describe the histological maturation of thyroid gland in human fetuses, correlating the tissueaspects with pregnancy stage. Twenty human fetuses were used in this study in different developmental stages.The fetuses from 20 to 36 weeks (gestational age) were dissected and the thyroid gland removed. The glandwas then embedded in paraffin, cut in frontal plans portions and stained with Hematoxylin and Eosin (H&E).We observed that the maturation process of the thyroid follicles was directly correlated with the gestationalage, where human fetus with 23 weeks of age did not show any sign of follicles or colloid and the one with35 weeks of age presented follicles with colloid. The conclusion of this study was that maturation process ofthe thyroid follicles tissue is a linear process with the fetal development.

Estudo estrutural do pênis de fetos humanos normais e anencéfalos no segundo trimestre de gestação / Structural study of the penis of normal and anencephalic human fetuses in the second trimester of pregnancy

A anecencefalia é o Defeito do Tubo Neural (DTN) mais severo em fetos humanos. Há uma demanda crescente para reposição tissular em doenças crônicas e cirurgias reconstrutoras. Tecidos fetais têm sido utilizados como substitutos para órgãos sólidos. Comparar a estrutura e morfologia do corpo cavernoso e corpo esponjoso de pênis de fetos humanos anencéfalos e de controle a fim de propor um novo modelo para estudos biológicos e transplantes teciduais. Foram estudados 11 pênis de fetos de controle de 14 a 23 Semanas Pós Concepção (SPC), e cinco pênis de fetos anencéfalos de 18 a 22 SPC. Os órgãos foram removidos e processados pelas técnicas histo e imunohistoquímicas rotineiras. A análise do tecido conjuntivo, células musculares lisas e fibras elásticas foram realizadas em lâminas dos espécimes. Os dados foram expressos em Densidade de àrea (Da) utilizando-se um software de processamento digital. As médias foram comparadas utilizando-se o Teste - T não pareado e quando aplicável, a regressão linear simples foi utilizada. Foi considerada significância estatística se p<0,05. O septo intercavernoso encontrava-se presente em todas as amostras. Não foram observadas diferenças da Da do tecido colágeno e musculatura lisa dos pênis de fetos anencéfalos quando comparados aos normais. A regressão linear simples sugere que durante o desenvolvimento humano há um aumen2to gradual do tecido colágeno (R2=0,45) e uma diminuição da musculatura lisa (R =0,62) no corpo cavernoso de ambos os grupos. A elastina encontrava-se presente apenas em fetos a partir da 20ª SPC. Não houve diferença na estrutura da genitália entre fetos normais e enencéfalos. Apresença da elastina em fetos a partir da 20ª SPC é um dado objetivo da manutenção da capacidade de ereção nestes grupos. A histo e imunohistoquímica sugerem que o desenvolvimento do pênis destes fetos encontra-se inalterado. Futuros estudos deverão ser realizados com o objetivo de avaliar fetos anencéfalos como um potencial ...

Anencephaly is the most severe neural tube defect (NTD) in human fetuses. There is an increasing need for tissue replacement in chronic diseases and reconstructive surgeries. Fetal tissues have been used as a substitute for native organs. Compare the structure and morphology of the corpora cavernosa and spongiosum of penises from anencephalic and normal human fetuses to propose a new model for biological studies and tissue transplantation. We studied 11 penises from normal human fetuses, aged 14 to 23 weeks post-conception (WPC), and 5 penises from anencephalic fetuses, aged 18 to 22 WPC. The organs were removed and processed by routine histological and immunolabeling techniques. Analysis of connective tissue (Cot), smooth muscle (SMC) and elastic fibers (EF) were performed in sections. Data were expressed as area density (Ad) using digital processing and software. Means were statistically compared using the unpaired t test and linear regression was performed. Statistical significance was considered if p < 0.05. The Intracavernosal septum was present in all samples. We did not observe differences in the Ad of Cot and SMC in the penises of anencephalic fetuses when compared to normal ones. The simple linear regression suggested that during human development there is a gradual increase in Cot (R2= +0.45) and a decrease of SMC (R2=- 0.62) in the corpora cavernosa in both groups studied. Elastin was observed only in fetuses from 20th WPC. There was no difference in the structure of the corpora cavernosa and corpus spongiosum of anencephalic fetuses compared to normal ones. Elastin was documented from 20th WPC, which suggests the maintenance of erectile function. Histochemistry and immunolabeling suggested that penile shaft development is maintained and unaltered in anencephalic fetuses. Further studies should be performed to analyze anencephalic fetuses as a potential tissue donating group and a model for biological studies