Our Experience in the Management of Spermatic Cord Torsion (SCT) in Adults in Urology at Cocody-Abidjan University Hospital in 10 Years (2014-2023) ()
1. Introduction
Spermatic cord torsion (SCT) is the rotation of the spermatic cord around its vascular-deferential axis, leading to strangulation of the blood vessels supplying the testicle, resulting in a more or less complete cessation of its vascularization. There are two types of testicular torsion (intra- and supra-vaginal). The two age groups affected are newborns and young adults, with the intravaginal form being more common in the latter. This is a rare pathology in adults. SCT is an andrological emergency with an estimated frequency of one case per 4000 men under 25 years of age [1]. No paraclinical examination has proven its usefulness for the definitive diagnosis of SCT, which makes it one of the rare urological conditions where a simple clinical suspicion authorizes surgical exploration. In Africa, more than 75% of patients are operated on after 24 hours, and the preservation rate is only 58%, making it one of the main causes of secondary infertility on the continent. In Africa, the time for consultation and treatment is delayed. In West Africa, specifically in Burkina Faso, Kabore et al. conducted a study on the management of SCT. In this study, which dates from 2011, he was only able to preserve 45% of the testes [2]. At the University Hospital Center (UHC) of Cocody-Abidjan, little work focused on this pathology and its management in adults. When it occurs in adults, it most often results in an orchidectomy, thus compromising subsequent fertility.
The aim of the study was to investigate the factors promoting testicular necrosis in SCT leading to orchiectomy.
2. Methods
2.1. Study Type and Population
This was a retrospective cohort study conducted in the Urology-Andrology department of the Cocody-Abidjan University Hospital. Data collection covered the period from January 2014 to December 2023.
Inclusion criteria: patients diagnosed with SCT. Sudden onset of scrotal pain in a non-febrile context with positive governor sign and negative prehn sign and operated on and followed up in the urology department of the Cocody University Hospital.
Exclusion criteria: patients diagnosed in the department but whose treatment and follow-up were carried out in another (private) center.
2.2. Sample and Method
Included were all patients received with a large acute bursa, in whom the diagnosis of SCT was suggested and confirmed during surgical exploration and treated in the urology department of the University Hospital of Cocody-Abidjan.
Thus, a sample of 31 patients was retained. All patients were operated on in emergencies under local-regional anesthesia. The approach was transverse scrotal. After detorsion, the testicle had a blackish appearance (necrotic), and an orchidectomy was performed immediately. If the testicle was bluish or purplish, testicular warming was performed in a physiological serum bath. A minimum of 5 to 10 minutes of recoloration was allowed to pass before deciding on an orchidopexy.
The 5 relevant variables that were analyzed were the time elapsed between the start of SCT and detorsion, the number of turns of the coils, the history of unoperated torsion or sub torsion, the history of scrotal and/or testicular pathology and laterality. Correlation between the occurrence of testicular necrosis and the treatment time, and the number of coil turns with statistical test X2 with a significant P value at the 5% threshold.
3. Results
During the study period, 31 files of patients admitted for SCT were collected, which represents a frequency of 0.95% of all hospitalizations in the urology department of Cocody-Abidjan.
The mean age (Table 1) of the patients was 25.39 years, with extremes ranging from 18 to 54 years and a standard deviation of 7.597 years. The [18 - 25] age group was the most represented, i.e., 64.5%. The mean consultation time (Table 2) was 48 hours and 30 minutes, with extremes of 1 hour, 20 minutes, and 4 days. Among the patients, 14 (45.16%) had consulted before 6 am. The other 19 (54.89%) came after the 6th hour. 12 patients (38.7%) had consulted between 6 and 24 hours, and 5 patients (16.13%) had consulted after 24 hours. Surgical exploration confirmed SCT in 31 (31/31) patients, an epididymal cyst in 1 patient (1/31), and testicular atrophy associated with necrosis in one patient (1/31). A total of 12 orchidectomies were performed and associated with contralateral orchidopexy, i.e., 38.71%. Then, 19 contralateral orchidopexies, i.e., 61.71%. There were correlations between late consultation time and necrosis (8/19) (Table 3 and Table 4). Also, between the time to treatment, the number of turns of the coils is greater than or equal to 2 (12/12). However, there was no correlation between the type of torsion and necrosis, nor was there any correlation between laterality (right or left) and necrosis. All patients who had pathology associated with the strangulated testicle had necrosis (2/2), but there was no significant statistical link due to the small sample size.
Table 1. Distribution of patients according to age groups.
Age group (year) |
Number of cases |
Percentage (%) |
[18 - 25] |
20 |
64.5 |
[25 - 35] |
09 |
29.0 |
[35 - 45] |
01 |
03.2 |
[45 - 55] |
01 |
03.2 |
Table 2. Distribution of patients by consultation time.
Consultation time (in hours) |
Effective |
Frequency (in %) |
<6 h |
14 |
45.16 |
6 h - 12 h |
12 |
38.7 |
>24 h |
5 |
16.13 |
Total |
31 |
100.0 |
Table 3. Correlation between consultation time and surgical procedure.
Type of treatment |
Consultation time (hours) |
<6 |
[6 - 24] |
>24 |
Orchidopexy |
Yes |
14 (45.2%) |
12 (38.7%) |
5 (16.1%) |
Orchiectomy |
Yes |
3 (25.0%) |
5 (41.7%) |
4 (33.3%) |
No |
11 (57.9%) |
7 (36.8%) |
1 (5.3%) |
Table 4. Correlation between surgical management time and surgical procedure.
Surgical gesture |
Support time (hours) |
<6 |
[6 - 24] |
[24 - 48] |
[48 - 72] |
Orchidopexy |
Yes |
19 (61.3%) |
6 (19.4%) |
5 (16.1%) |
1 (3.2%) |
Orchiectomy |
Yes |
6 (50.0%) |
3 (25.0%) |
2 (16.7%) |
1 (8.3%) |
No |
13 (68.4%) |
3 (15.8%) |
3 (15.8%) |
0 (0.0%) |
Correlation between the delay in treatment and the type of intervention (p = 0.047). The p-value is less than 0.05, so the difference is significant. There is a correlation between the delay in treatment and orchiectomy. Delay in treatment, therefore, favors orchiectomy.
Correlation between consultation time and type of intervention (p = 0.038). The p-value is less than 0.05, so the difference is significant. There is a correlation between consultation time and orchiectomy. Delay in consultation is, therefore, a negative factor because it favors orchiectomy.
4. Discussion
SCT is one of the surgical emergencies. It can occur at any age, with a peak frequency between 18 and 22 years [3]. The series confirms that SCT is not exceptional in adults, and the most affected age group was [18 to 25 years]. 1 patient (1/31) was 47 years old; this particularly caught our attention. We looked for postmen at his place. Regarding his body shape, he was frail and slender. He had an atrophic testicle; therefore, discordance between the container (vaginal) and content (testicle) would further weaken his natural means of fixity. However, there is a selection bias linked to the fact that most children who come for emergency consultation for a large acute painful bursa are treated in the pediatric surgery department.
The time between the onset of painful symptoms and arrival at the emergency room plays an important role in the prognosis of the testicle. Out of 14 patients (45.16%) who consulted before 6 hours, 11 patients underwent orchidopexy, and 3 patients underwent orchidectomy. Then, out of 12 patients (38.7%) who consulted between 6 and 24 hours, 7 patients underwent orchidopexy, and 5 patients underwent orchidectomy. Finally, out of 5 patients (16.13%) who consulted after 24 hours, 4 patients underwent orchidectomy, and 1 patient underwent orchidopexy. It is noted that consultation time plays a crucial role in the prognosis of torsion because the risk of necrosis increases from 21% before the 6th hour to 80% after 24 hours.
The average consultation time (ACT) was 48.5 hours with extremes of 1 h, 20 min, and 4 days. This time is much higher than the 27.5 hours found by Zini et al. [4]. The lengthening of the consultation time in certain centers is often delayed for socioeconomic and cultural reasons. Indeed, pathologies of the external genitalia are surrounded by great modesty in our regions, and the inadequacy of specialized structures associated with the lack of financial means push patients to consult, as a first-line treatment, in peripheral structures, where care is less expensive but often without a specialist. In addition, in certain peripheral structures, it was necessary to perform a scrotal ultrasound to confirm the SCT before referring the patient to the urologist. The ultrasound service, which is often outside this emergency department, has contributed to extending the treatment time. Also, as adults tolerate pain more than children, they often hesitate even to self-medicate before going to the hospital.
Scrotal pain, whether or not associated with swelling, is the main symptom. It allows the diagnosis to be suggested when the onset is sudden and its intensity is violent without signs of infection and urinary signs. Other signs found are the governor’s sign (ascension, horizontalization, retraction to the ring) and the abolition of the cremasteric reflex [5].
Scrototomy allowed the confirmation of SCT in 31 patients, an epididymal cyst in 1 patient or 3.22%, and testicular atrophy associated with necrosis in one patient or 3.22%. This high percentage of suspected SCT in the series (31/31) has also been reported by Hodonou et al. [6] and Sarr et al. Indeed, Hodonou et al. [6] had reported 72.72% (24/32). Similarly, Sarr et al. reported that 74% of SCTs were confirmed at scrototomy (58/78).
This is why the dogma of systematic surgical exploration of any large acute bursa suspected of SCT is still relevant in hospitals with modest equipment, even if elsewhere, progress in imaging encourages moderation.
Torsion was intra-vaginal in 28 (28/31) cases and supra-vaginal in 3 (3/31) cases. These results differ from those of Sarr et al., who reported five cases of supra-vaginal torsion in patients who were all over 15 years old. This shows us that this anatomical form is not exceptional in adolescents and young adults.
This frequency of intra-vaginal torsion in our study can be explained by the predominance of adolescents who are most exposed to this type of torsion. Due to the rapid increase in testicular mass during their growth. As said by Brandt et al. [7] intra-vaginal torsion of the spermatic cord results either from an anomaly of the testicular fixation system or from a disproportion between the volume of the testicle and the fixation systems. It is the most common form outside of neonatal forms.
The orchidectomy rate in the study was 38.71%. This rate is higher than the 15 and 18% reported by Zini et al. [8] and Hodonou et al. and also lower than the data of Kabore et al., who had found 55% of orchidectomies. Most of our patients who underwent orchidectomy had consulted after 6 hours of evolution of the torsion. This observation confirms that one of the prognostic factors of testicular preservation is the delay between the appearance of the torsion and surgical detorsion. As for BAYNE et al. [9], the delay in consultation of our patients was considered the main predictive factor of an orchidectomy for testicular necrosis.
After the detorsion of a testicle that appeared to be necrotic, some authors have found a spectacular recoloration. Sarr et al. reported in their study that the high rate of orchidectomy would be linked to the choice of orchidectomy immediately without prior detection of a blackish or chocolate-colored testicle in order to avoid the passage of anti-spermatoid antibodies into the systemic circulation.
Fixation of the contralateral testicle to a SCT is currently recommended by all authors, especially after an orchidectomy Fabiani et al. [10], which was respected in the series where contralateral fixation was 100% in castrated patients and 74.19% in patients with preservation of the affected testicle. A bilateral orchidopexy is a preventive treatment for a new ipsilateral or contralateral torsion [11].
At the end of the study, the factors favoring testicular necrosis during SCT were the same as reported in the literature [12]-[20], namely the delay in treatment and the number of coils of the turns. However, some particularities were noted, such as the delay in consultation, the delay in admission to the operating room, and a case in a patient aged 47. As for the long consultation time [21], it was favored by age (elderly person more able to tolerate pain), self-medication, consultation first in a non-urological center before transfer to urology, the absence of ultrasound within said service, the performance of a confirmatory paraclinical examination [22] before transfer. The average consultation and operating room admission intervals are long because, during intern shifts, there were 3 operating rooms reserved for all surgical emergencies. And they were often busy admitting certain patients.
A patient between 45 and 55 years old presented with a case of testicular torsion; this is extremely rare at that age. His testicle was lower than normal, weakening of the means of fixity containing contents. The factors analyzed in this study are already known for their involvement in the prognosis related to testicular preservation.
5. Conclusions
SCT at the Cocody-Abidjan University Hospital occurred preferentially in young people aged between 18 and 25. Orchiectomy following testicular necrosis was performed in 38.71% of cases. The negative factors were the long consultation time, the length of time taken to take care of the patient, and the number of coils that turned greater than 2. This is an absolute urological emergency that can compromise the endocrine and exocrine functions of the testicle by stricture of the vessels of the cord after the 6th hour. Scrotal Doppler ultrasound can be useful. However, it should never delay surgical exploration, which has diagnostic and therapeutic benefits. Indicators such as the delay in consultation and the lengthening of the time taken to take care of the patient are the main factors favoring orchidectomies in the case of SCT.
The factors analyzed in this study are already known for their involvement in the prognosis related to testicular preservation. However, having an operating room dedicated only to urology, raising awareness of the population on the prognosis of torsion, and continuing training of emergency doctors in peripheral hospitals could reduce the orchiectomy rate during torsion.
Authors’ Contributions
AF and NC wrote the manuscript. IC and EKY participated in patient monitoring and carried out data collection. DDY and MLST carried out the bibliographic research.
Informed Consent
The study was carried out in the urology department of the Cocody University Hospital, requiring the favorable opinion of the head of the department and the medical and scientific director of the Cocody University Hospital, who is responsible for the establishment’s ethics committee. We did not require patient consent since this is a retrospective study. Nevertheless, the medical data of each patient were transmitted only to the principal investigator or any person authorized by the latter under conditions guaranteeing their confidentiality.