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Journal of Korean Medical Science Mar 2022It is quite difficult to distinguish retractile testis from gliding testis, which requires different treatment planning in the clinic setting. We evaluated practice...
BACKGROUND
It is quite difficult to distinguish retractile testis from gliding testis, which requires different treatment planning in the clinic setting. We evaluated practice patterns of urologists in Korea regarding the diagnosis and management of retractile and gliding testes.
METHODS
We mailed or e-mailed self-completion questionnaires consisting of 20 items to 106 urologists practicing in Korean hospitals concerning the diagnosis and treatment of cryptorchidism. We collected and analyzed the responses statistically.
RESULTS
Responses were received from 62 urologists. The response rate was 58.5%. Thirty-seven urologists (59.7%) actually felt they had difficulty in distinguishing retractile testis from gliding testis in the clinic setting. This rate was higher for non-pediatric urologists (78.1%) than for pediatric urologists (40.0%) ( = 0.006). In cases of infant retractile testis, only five urologists (8.1%) said that they would perform orchiopexy immediately, with 54 (87.1%) urologists saying they would do follow-up. In cases of preschool-age children with retractile testis, 17 urologists (27.4%) said that they would perform orchiopexy immediately with 41 (66.1%) urologists saying they would do follow-up. In cases of infant gliding testis, 37 urologists (59.7%) said that they would perform orchiopexy immediately with 24 (38.7%) urologists saying they would do a follow-up.
CONCLUSION
More than half (59.7%) of Korean urologists revealed it challenging to distinguish retractile testis and gliding testis in the clinical setting. The more it was difficult to diagnose retractile testis with certainty, the more frequent surgical correction was chosen for treatment. Therefore, it is essential to prevent unnecessary surgical treatment by establishing a practical guideline.
Topics: Asian People; Child; Child, Preschool; Comprehension; Cryptorchidism; Humans; Infant; Male; Urologists
PubMed: 35347906
DOI: 10.3346/jkms.2022.37.e98 -
Canadian Family Physician Medecin de... Jun 2017To review the differences between normal, retractile, ectopic, ascended, and undescended testes and to describe the optimal way to perform a testicular examination to... (Review)
Review
OBJECTIVE
To review the differences between normal, retractile, ectopic, ascended, and undescended testes and to describe the optimal way to perform a testicular examination to distinguish one from the other, as well as to demonstrate that ultrasound imaging is not necessary and to clarify when to consider specialist referral.
SOURCES OF INFORMATION
This paper is based on selected findings from a MEDLINE search on undescended testes and orchiopexy referrals, and on our experience at the Urology Clinic at the Children's Hospital of Eastern Ontario in Ottawa, including review of referrals to our clinic for undescended testes and the resultant findings of normal variants versus surgical cases. The MeSH headings used in our MEDLINE search included and .
MAIN MESSAGE
An is defined as the true absence of one testis (or both testes) from normal scrotal position. Ectopic and ascended testes will likewise be absent from the scrotum, the latter having been present at one point in development. Differentiating among testicular examination findings is important, as descended and retractile testes are managed conservatively, while prompt surgical intervention should be offered for ascended, ectopic, and undescended testes. Uncertainty surrounding the diagnosis of an undescended testis causes anxiety, might lead to unwarranted imaging, and might increase the wait list for specialty assessment. For this reason, avoidance of ultrasound in the evaluation of undescended testes was included in the recent Choosing Wisely Canada campaign. We seek to clarify the physical examination findings in the evaluation of possible undescended testes, the suggested referral parameters, and the subsequent management.
CONCLUSION
Undescended testes and their variants are common. As decision for referral is based on the primary care physician's physical examination findings, we clarify distinguishing between normal and abnormal findings on testicular examination to aid in appropriate referral for subspecialist evaluation. Consultation, if needed, should be sought at 6 months' corrected gestational age, or at detection if later than 6 months, without delay for ultrasound imaging, as surgical management is recommended for those patients with undescended, ectopic, or ascended testes.
Topics: Child; Child, Preschool; Cryptorchidism; Humans; Infant; Male; Orchitis; Physical Examination; Primary Health Care; Referral and Consultation; Scrotum; Testis; Ultrasonography
PubMed: 28615391
DOI: No ID Found -
Advances in Urology 2023Ascending testis or acquired undescended testis develops in approximately 30% of cases of retractile testis, and orchiopexy is recommended for these cases. This study...
OBJECTIVES
Ascending testis or acquired undescended testis develops in approximately 30% of cases of retractile testis, and orchiopexy is recommended for these cases. This study aimed at assessing the intraoperative anatomical findings of ascending testis and acquired undescended testis in search of better management for retractile testis.
METHODS
We retrospectively collected data of patients with confirmed diagnosis of retractile testis between February 2012 and November 2021. Orchiopexy was performed for cases with ascending testis and for patients with increasing difference of right and left testicular volume. The site of gubernaculum attachment and patent processus vaginalis were evaluated during surgery.
RESULTS
A total of 119 testes in 71 patients with retractile testis were included in this study. Sixteen retractile testes in 12 patients (17%) underwent orchiopexy. The weight at birth was significantly higher, and bilateral retractile testes were significantly more common in the follow-up group than in the surgical intervention group. In the surgical intervention group, the abnormal site of gubernaculum attachment was found in 12 out of 16 testes (75%), and patent PV was found in nine out of sixteen testes (56%). Sites of gubernaculum attachment in testes with patent PV were significantly higher than in sites with closed processus vaginalis, and all testes with patent processus vaginalis had abnormal site of gubernaculum attachment.
CONCLUSION
Patients with ascending testis and acquired undescended testis have clinical features and intraoperative abnormal findings similar to a cryptorchidism. Therefore, our surgical indication for retractile testis is considered appropriate.
PubMed: 37720542
DOI: 10.1155/2023/8764631 -
The Canadian Journal of Urology Aug 2017To characterize our contemporary clinical experience with cryptorchidism.
INTRODUCTION
To characterize our contemporary clinical experience with cryptorchidism.
MATERIALS AND METHODS
The records of boys referred for cryptorchidism were reviewed from 2001 to 2011. Data regarding the incidence of retractile testes, testicular ascent, surgical approach and outcomes were tabulated. Follow up was both early (< 12 weeks) and late (> 12 weeks).
RESULTS
A total of 1885 patients, or 2593 testes, were identified. Eight hundred and forty-one children (45%) or 1204 testes (46%) were retractile on initial exam-57% bilateral; 187 testes (7%) later 'ascended' on re-examination and underwent surgery--15% bilateral; 1340 (85%) testes were palpable in the inguinal canal and underwent inguinal orchidopexy--98% were successful; 69 (4%) of initially palpable testes were found to be atrophic and removed; 167 (11%) testes were non-palpable and underwent laparoscopy-46 were atrophic and removed; 31 were vanishing; 33 were brought down using an inguinal approach at the same sitting with 97% success; 47 underwent staged Fowler-Stephens orchidopexy (FSO) and 10 underwent non-staged FSO, with 82% and 78% success respectively. All second stages were performed open.
CONCLUSIONS
Almost half of children referred for cryptorchidism had retractile testes. Surgery for later ascent was required in 16% of testes judged to be retractile at a median age of 8 years, emphasizing the need for repeat examination. High success rates with inguinal orchidopexy were achieved, even in non-palpable testes. Testes requiring FSO were uncommonly encountered-approximately 5 testes/year or 4% of testes undergoing surgery-and success was achieved in approximately 80%.
Topics: Child, Preschool; Cryptorchidism; Humans; Male; Retrospective Studies
PubMed: 28832317
DOI: No ID Found -
International Braz J Urol : Official... 2016To assess the incidence of anatomical anomalies in patients with retractile testis.
OBJECTIVES
To assess the incidence of anatomical anomalies in patients with retractile testis.
MATERIALS AND METHODS
We studied prospectively 20 patients (28 testes) with truly retractile testis and compared them with 25 human fetuses (50 testes) with testis in scrotal position. We analyzed the relations among the testis, epididymis and patency of the processus vaginalis (PV). To analyze the relations between the testis and epididymis, we used a previous classification according to epididymis attachment to the testis and the presence of epididymis atresia. To analyze the structure of the PV, we considered two situations: obliteration of the PV and patency of the PV. We used the Chi-square test for contingency analysis of the populations under study (p<0.05).
RESULTS
The fetuses ranged in age from 26 to 35 weeks post-conception (WPC) and the 20 patients with retractile testis ranged in ages from 1 to 12 years (average of 5.8). Of the 50 fetal testes, we observed complete patency of the PV in 2 cases (4%) and epididymal anomalies (EAs) in 1 testis (2%). Of the 28 retractile testes, we observed patency of the PV in 6 cases (21.4%) and EA in 4 (14.28%). When we compared the incidence of EAs and PV patency we observed a significantly higher prevalence of these anomalies in retractile testes (p=0.0116).
CONCLUSIONS
Retractile testis is not a normal variant with a significant risk of patent processos vaginalis and epididymal anomalies.
Topics: Child; Child, Preschool; Cryptorchidism; Epididymis; Fetus; Gestational Age; Humans; Infant; Male; Prospective Studies; Testicular Hydrocele; Testis
PubMed: 27564294
DOI: 10.1590/S1677-5538.IBJU.2015.0538 -
Journal of Pediatric Urology Oct 2017Metachronous undescended testis (mcUDT), an acquired UDT after contralateral orchiopexy, can occur in some boys. If one were able to predict its occurrence, one might... (Comparative Study)
Comparative Study
INTRODUCTION
Metachronous undescended testis (mcUDT), an acquired UDT after contralateral orchiopexy, can occur in some boys. If one were able to predict its occurrence, one might consider a proactive approach or at least one would be able to counsel the parents accordingly. Our hypothesis was there may be characteristics evident at the time of initial orchiopexy which could predict the development of contralateral mcUDT.
OBJECTIVE
The aim was to Identify factors present at initial orchiopexy that predict development of subsequent mcUDT.
STUDY DESIGN
Subjects were identified using the Current Procedural Terminology code for inguinal orchiopexy (54640). We included patients from January 1997 to October 2015. We included patients who underwent orchiopexy for unilateral UDT (uUDT). The study population consisted of patients who had undergone metachronous orchiopexies; controls were patients who were 17 years at time of data collection with a single orchiopexy. Cox proportional hazard regression was used to model the relationship between possible predictors of subsequent UDT using PROC PHREG with SAS Software 9.4.
RESULTS
From 1035 eligible patients we identified 38 with mcUDT and 207 controls (uUDT). Median age at the first orchiopexy of mcUDT patients was 2.5 years (min/max, 0.50/10.4 years) and 8.2 years (min/max 0.70/12.8 years) for uUDT, p < 0.0001. Subjects with a contralateral retractile testis on preoperative exam had a 4.2 times higher rate of subsequent UDT than patients with a contralateral descended testis (95% CI 2.077-8.353). The rate of mcUDT was 6.7 times higher if the testis was a retractile testis under anesthesia (95% CI 2.7-16.5) (Table).
DISCUSSION
Contralateral retractile UDT was a significant predictor of mcUDT. We believe patients with a contralateral retractile testis at time of orchiopexy should be counseled on bilateral orchiopexy. The risks of complications with orchiopexy should be weighed against risks of a subsequent surgery and anesthesia event.
CONCLUSION
A discussion of risks and benefits regarding bilateral orchiopexies should be undertaken with the parents prior to surgery in the setting of an UDT with contralateral retractile testis.
Topics: Abnormalities, Multiple; Child; Child, Preschool; Cohort Studies; Cryptorchidism; Databases, Factual; Humans; Male; Orchiopexy; Predictive Value of Tests; Proportional Hazards Models; Recurrence; Reference Values; Retrospective Studies; Risk Assessment
PubMed: 28434636
DOI: 10.1016/j.jpurol.2017.03.011 -
Pediatric Surgery International Dec 2022Screening for undescended testis (UDT) in Japan is performed as a neonate, then at 1, 3, 10, and 18 months old, and 3 years old. Incidence of ascending testis (AT)...
PURPOSE
Screening for undescended testis (UDT) in Japan is performed as a neonate, then at 1, 3, 10, and 18 months old, and 3 years old. Incidence of ascending testis (AT) after screening was reviewed.
METHODS
All orchiopexy/orchiectomy at a single institute between July 2005 and June 2022 were reviewed retrospectively.
RESULTS
376 boys had 422 procedures; 54/422 (12.8%) were in 48 boys ≥ 4 years old (mean age: 6.7 years; range: 4-13); testes were normal (n = 22; 40.7%), small (n = 25; 46.2%), or atrophied (n = 7; 1.3%). There were 47 orchiopexies and 7 orchiectomies for atrophy. Incidence of AT in boys ≥ 4 years old was 24/422 (5.7%). Of these, 16/422 (3.8%) developed after normal descent and 8/422 (1.9%) were associated with retractile testis (AT + RET). Other indications included delayed treatment for UDT (n = 13), late referral by pediatricians (n = 10), and iatrogenic UDT (n = 6). Surgical intervention in boys ≥ 4 years old (12.8%) was less than that reported in the West (range: 30-50%) as was AT: (5.7% versus 15.4%) and AT + RET (1.9% versus 13.8%).
CONCLUSIONS
Comprehensive UDT screening probably contributed to the lower incidence of surgery and AT (especially AT + RET) in boys ≥ 4 years old.
Topics: Male; Infant, Newborn; Humans; Infant; Child; Child, Preschool; Cryptorchidism; Testis; Incidence; Retrospective Studies; Japan; Orchiopexy
PubMed: 36469123
DOI: 10.1007/s00383-022-05331-8 -
International Journal of Urology :... Mar 2021To investigate the natural course of retractile testis by analyzing its prevalence and outcomes.
OBJECTIVES
To investigate the natural course of retractile testis by analyzing its prevalence and outcomes.
METHODS
This retrospective study included 215 boys in whom retractile testis was diagnosed after reviewing the medical history and physical examinations of the patients. Orchiopexy was performed once the testis became undescended. We investigated the trends in the prevalence and outcomes of retractile testis and compared clinical factors between cases that resolved spontaneously and those that required orchiopexy.
RESULTS
Of 215 boys, 145 were finally evaluated. The mean age at diagnosis was 2 years, and 100 boys were aged ≤2 years when they were hospitalized. Seventy-three boys were referred to our institution through health examinations as babies. The condition improved spontaneously in 89 boys, while 43 boys underwent orchiopexy, and 13 boys remained under follow-up. The follow-up period between diagnosis and resolution was significantly longer in the spontaneous resolution group than in the surgical intervention group (P = 0.011). Bilateral retractile testis improved spontaneously in significantly more boys compared to unilateral retractile testis (P = 0.0010). Spontaneous resolution was observed in boys of all ages, but those diagnosed at ≤3 years of age had a significantly higher rate of spontaneous resolution compared to those who were diagnosed at >3 years of age (P = 0.0019).
CONCLUSIONS
Our findings suggest that retractile testis cannot be affirmed as a variant of normal testis. Performing examinations at a young age is critical for preventing misdiagnosis, screening failures, and unnecessary surgery.
Topics: Aged; Child, Preschool; Cryptorchidism; Humans; Infant; Japan; Male; Retrospective Studies; Testis; Treatment Outcome
PubMed: 33302323
DOI: 10.1111/iju.14458 -
Canadian Urological Association Journal... 2017Cryptorchidism is one of the most common congenital anomalies of the male genitalia, occurring in 1% of boys by the age of one year. Even though the etiology of... (Review)
Review
Cryptorchidism is one of the most common congenital anomalies of the male genitalia, occurring in 1% of boys by the age of one year. Even though the etiology of cryptorchidism is multifactorial, management has evolved with the clear recognition that hormonal treatment is not effective and surgery between 6-18 months of age leads to better testicular outcomes. Diagnostic laparoscopy is considered the standard approach for management of non-palpable testes, and can be combined with one or two-stage orchidopexy, with up to 80-90% success rates. This review discusses the natural history of retractile testicles, indications for hormonal treatment and orchidectomy, ultrasound's role as a diagnostic tool, risks of infertility and testicular cancer, and surgical techniques for inguinal and intra-abdominal testes.
PubMed: 28265313
DOI: 10.5489/cuaj.4343 -
Urologia Internationalis 2020To describe architecture and expression of myosin isoforms of the human cremaster muscle (CM) and to individuate changes in clinically differentiated abnormalities of...
AIM
To describe architecture and expression of myosin isoforms of the human cremaster muscle (CM) and to individuate changes in clinically differentiated abnormalities of testicular descent: cryptorchidism or undescended testis (UDT) and retractile testis (RT).
BACKGROUND
The CM is a nonsomitic striated muscle differentiating from mesenchyme of the gubernaculum testis. Morphofunctional and molecular peculiarities linked to its unique embryological origin are not yet completely defined. Its role in abnormalities of testicular descent is being investigated.
SUBJECTS AND METHODS
Biopsy samples were obtained from corrective surgery in cases of cryptorchidism, retractile testis, inguinal hernia, or hydrocele. Muscle specimens were processed for morphology, histochemistry, and immunohistology.
RESULTS AND CONCLUSIONS
The CM differs from the skeletal muscles both for morphological and molecular characteristics. The presence of fascicles with different characterization and its myosinic pattern suggested that the CM could be included in the specialized muscle groups, such as the extrinsic ocular muscles (EOMs) and laryngeal and masticatory muscles. The embryological origin from the nonsomitic mesoderm is, also for the CM, the basis of distinct molecular pathways. In UDT, the histological alterations of CM are suggestive of denervation; the genitofemoral nerve and its molecular messengers directed to this muscle are likely defective. Compared with the other samples, RT has a distinct myosinic pattern; therefore, it has been considered a well-defined entity with respect to the other testicular descent abnormalities.
Topics: Abdominal Muscles; Child; Child, Preschool; Cryptorchidism; Humans; Infant; Male; Myosins; Prospective Studies; Protein Isoforms; Testicular Diseases
PubMed: 32674099
DOI: 10.1159/000508432