The Significance of the Contralateral Testis Size Measurement with Ultrasonography in Predicting Monorchism in Boys with Nonpalpable Testicles / Palpe Edilemeyen Testisli Cocuklarda Monoorsidizmi Ongormede Ultrasonografiyle Olculen Kontralateral Testis Boyutunun Onemi.
Previous studies have proven the relationship between testicular hypertrophy and undescended testis. However, these evaluations are done with a caliber and/or orchidometer, which are not quite accurate, compared to testicular ultrasonography. The present study investigated the utility of testicular ultrasonography and shown specificity and sensitivity levels of different contralateral testis diameter in predicting monorchism. Of all diameters, a contralateral testis greater than 20 mm can predict monorchism with an accuracy of 80% sensitivity and 83% specificity.
Objective: The aim of this study was to determine the significance of contralateral testis size in predicting monorchism in pediatric patients with unilateral undescended testis.
Materials and Methods: The data of patients who underwent surgical operation by a single pediatric urologist for undescended testis between 2013 and 2016 was evaluated retrospectively. The patients were grouped as having monorchism (M), nonpalpable intra-abdominal testis (NPIAT), and palpable undescended testis (PUDT). The dimensions of the testes were measured ultrasonographically and recorded before operation. Patients with nonpalpable testis underwent diagnostic laparoscopy and patients with PUDT underwent inguinal orchiopexy.
Results: A total of 57 children with a mean age of 31 (11-60) months were evaluated. Of the children, 12 had M, 9 had NPIAT and 36 had PUDT with a similar mean age (p>0.05). The size of the descended testis was found to be significantly small in NPIAT* and PUDT** groups compared to the M group (*p<0.05, **p<0.001). However, the size of the undescended and descended testes was found to be similar between NPIAT and PUDT groups (p>0.05).
Conclusion: The size of the testis in the scrotum might help to localize the position of the undescended testis. Keywords: Monorchism, nonpalpable intra-abdominal testis, palpable undescended testis, testis, ultrasonography
Amac: Calismanin amaci tek tarafli inmemis testisi olan cocuk hastalarda monoorsidizmin ongorusunde kontralateral testis boyutunun oneminin degerlendirilmesidir.
Gerec ve Yontem: 2013 ve 2016 yillari arasinda klinigimizde tek cerrah tarafindan ameliyat edilen inmemis testisi olan cocuk hastalarin verileri retrospektif olarak degerlendirildi. Cocuklar monoorsidizm (M), intraabdominal palpe edilemeyen testis (IAPET) ve palpe edilebilen inmemis testis (PEIT) olarak gruplandirildi. Uygulanan cerrahi yontem oncesinde testis boyutlari ultrasonografik olarak olculdu ve kaydedildi. Palpe edilemeyen testisi olan cocuklara tanisal laparoskopi, PEIT'si olan cocuklara inguinal orsiopeksi operasyonlari uygulandi.
Bulgular: Calismaya alinan 57 cocugun yas ortalamasi 31 ay (11-60) olarak saptandi. Bu hastalarin 12'si M, 9'u IAPET ve 36'si PEIT oldugu izlendi ve yas gruplari arasinda anlamli bir fark saptanmadi (p>0,05). M grubu ile IAPET grubu* ve PEIT grubu** arasinda kontralateral testis boyu acisindan anlamli fark vardi (*p<0,05, **p<0,001); ancak IAPET grubu ve PEIT grubu arasinda kontralateral ve inmemis testis boyutlari acisindan anlamli fark saptanmadi (p>0,05).
Sonuc: Skrotal testis boyutlari inmemis olan testisin lokalizasyonu ile ilgili bilgi verebilir.
Anahtar Kelimeler: Monoorsidizm, palpe edilemeyen intraabdominal testis, palpe edilebilen inmemis testis, testis, ultrasonografi
Undescended testis is one of the most common congenital defects in pediatric population. The overall incidence for undescended testis at birth is 3.7% (1) and 1.1% of these cases would persist up to the age of one year (2). Any children with undescended testis should be operated between 6 and 18 months of age (3,4). If left untreated, fibrosis will occur (5) which would lead to decrease in testicular size, and consequently to function lost. Thus, there are two major concerns in the treatment of undescended testis: increased risk for infertility and testicular malignancy (6,7). Despite all the risks, orchiopexy is the gold standard treatment for undescended testis (5). Ultrasonography is not a reliable and efficient tool in the diagnosis of undescended testis (8). Diagnostic laparoscopy is suggested to be the best method for the diagnosis of undescended testis as it has the advantage of ease of use and flexibility, and high diagnostic accuracy (9,10,11,12). Up to date, no study has shown the efficiency of physical findings in predicting the presence of the impalpable undescended testis. The present study aimed to evaluate the value of testis size in the scrotum in predicting the location of the contralateral testis in case of cryptorchidism.
Materials and Methods
Children who underwent surgical operation for undescended testis in the Department of Pediatric Urology at Marmara University, Faculty of Medicine between 2013 and 2016 were evaluated retrospectively. Medical chart of each child were recorded prospectively. A total of 57 consecutive prepubertal boys with unilateral undescended testis were evaluated. The cohort was divided into 3 groups according to the status of the undescended testis: monorchism (M), nonpalpable intra-abdominal testis (NPIAT), and palpable undescended testis (PUDT) (Figure 1). M is the state in which there are no testicular tissues on the undescended side. NPIAT is the state where testis cannot be palpated during the routine physical examination of the scrotum and inguinal channel but can be found inside the abdominal cavity during the laparoscopic exploration. PUDT is the state where the testis is not in the scrotal cavity but can be palpated during physical examination (13). Prior to any intervention, children were assessed with the aid of ultrasonography and inspections were done both for scrotum and for inguinal channels. The largest diameter of each descended and undescended testis was recorded. The largest diameter of each undescended testis was also measured by a surgical ruler at the time of the surgical intervention and, by this way, verification of the ultrasonographic measurements were done. Since there were no significant differences in diameter measurements between surgical ruler and ultrasonography driven ones, only the ultrasonographic measures are provided in the article. The surgical intervention choice was diagnostic laparoscopy in case of nonpalpable testis (M and NPIAT groups) and was inguinal orchiopexy in PUDT group.
Statistical analyses were performed using the SPSS software version 20 (IBM Corp. Armonk, New York). Descriptive analyses were done and distribution of the variables were assessed by the Kolmogorov-Smirnov test. Age and testicular size did not show a normal distribution. Thus, comparisons between the groups were done using the Mann-Whitney U test. Data was provided as median (minimum-maximum) values. A p value of less than 0.05 was considered to indicate statistical significance.
The number of children in M, NPIAT and PUDT groups was found to be 12, 9 and 36, respectively. The median age of the study cohort was found to be 31 months (11-60). Age and testicular diameter in each group are provided in Table 1. The median age of children within the M group, NPIAT group and PUDT group was 15 months (11-60), 25 months (11-60) and 36 months (11-72), respectively. There was no statistically significant difference between the groups (p>0.05). The median largest diameter of the undescended testis in NPIAT group and PUDT group was found to be 12 mm (11-19 mm) and 14 mm (5-25), respectively and similar to age, no statistically significant difference was found between the two groups (p>0.05). The median largest diameter of the descended testis in M group, NPIAT group and PUDT group was found to be 25 mm (19-36), 18 mm (13-24) and 16 mm (10-33), respectively. Interestingly, the median largest testicular size of the descended testis was found to be significantly greater in M than in NPIAT group (p<0.005) and PUDT group (p<0.001) (Table 1). However, no significant difference was observed in the largest testicular diameter of the descended testis between NPIAT and PUDT groups (p=0.458).
M was evaluated at various contralateral testicular diameters with the aid of ultrasound using a cut-off value of 18 mm-25 mm. Each diameter's sensitivity and specificity levels are provided in Table 2.
The present study evaluated the significance of the contralateral testis size measurement with the aid of ultrasonography in predicting M in boys with nonpalpable testicles, and found that the median contralateral testicular diameter to be significantly high in M compared to that in boys with NPIAT and PUDT. The median contralateral testicle length in boys with M was 7 mm longer than that in boys with PUDT and was 9 mm longer that in boys with NPIAT.
Contralateral testicular hypertrophy phenomenon in M in humans was initially proposed and proven by Laron and Zilka (14). They reported a significant increase in mean prepubertal testis volume in patients with M (3.75 mL) compared to that in normal population (1.64 mL) with the aid of orchidometer and caliber (14). This significant difference in size remained up to age (14,15,16). However, a testicular hypertrophy is not always a must in all patients with atrophic contralateral testis. The presence of a testis, related to the degree of atrophy, has been shown to have an impact on testicular hypertrophy. Koff (17) studied testicular size in undescended testis in 37 boys. He reported that patients with M (n=12), descended normal testis (n=19) and descended atrophic testis had the mean testis length of 2.22 cm, 1.51 cm and 1.78 cm, respectively; and determined a diameter of 2 cm or a size of 2 cc of testicular hypertrophy as a cut-off value for expecting M on contralateral side in children between 8 months and 3 years of age. On the contrary, Huff et al. (18) reported that the volume of the contralateral descended testis was not a reliable criterion for differentiating an absent testis from an intra-abdominal testis in a boy with a unilateral impalpable testis, since in their cohort of 109 children, 80% of monorchid patients (47% of all cohort) had a contralateral testicular size smaller than 2 cm. However, they also found that the volume of the contralateral descended testis in boys with an absent testis was significantly greater than that in boys with intra-abdominal testes.
Several other authors proposed different cut-off values with different measurements methods, such as Takihara orchidometer, ruler and caliper, and introduced cut-off values of 1.8 cm (19,20), 2 cm (13,21) and 2 standard deviation above the normal mean volume (22) to predict monorchism. Our data has shown a sensitivity of 0.83 and a specificity of 0.80 for testicular diameter of 20 mm or more in diagnosing M with the help of ultrasonography (Table 2).
Most of the researchers preferred to use an orchidometer, ruler and caliper to determine testicular size as these methods are cheap and fast resulting ones. These methods are shown to be effective in testicular volume calculation and testicular size estimation, however, the best method in determining testicular size or volume is reported to be ultrasound (23). To our knowledge, this is the first study in the literature evaluating the relationship between testicular hypertrophy and undescended testis with ultrasound as the measurement tool. No standardization is available for the assessment of testicular measurements, and methods (21).
The present study has two important limitations: retrospective design and relatively small number of patients. However, it is superior to the previous ones as the assessment method in size calculations was ultrasonography which is reported to be the best accurate tool. Since the data was not normally distributed and patient population was small, it is hard to suggest a cut-off value for testis size to predict monorchism.
A contralateral testicular diameter greater than and equal to 20 mm can predict M in boys with unilateral unpalpable testis with 80% sensitivity and 83% specificity. This finding can provide preoperative counseling and planning for appropriate surgical approach. Ultrasonography is a good and consistent tool in evaluating testis diameter. However, the present study cannot provide a better cut-off value for contralateral testicular diameter due to small sample size.
Ethics Committee Approval: Retrospective study.
Informed Consent: Retrospective study.
Peer-review: Externally peer-reviewed.
Surgical and Medical Practices: F.S., T.T., C.A., C.A.S., Concept: C.A., C.A.S., Design: C.A., C.A.S., Data Collection or Processing: C.A.S., Y.T., T.E.S., R.A., A.S., Analysis or Interpretation: Y.T., T.E.S., Literature Search: C.A.S., Y.T., T.E.S., Writing: C.A.S., Y.T.
Conflict of Interest: No conflict of interest was declared by the authors.
Financial Disclosure: The authors declared that this study received no financial support.
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Cagri Akin Sekerci (1), Yiloren Tanidir (1), Tarik Emre Sener (1), Ruslan Asadov (2), Ahmet Sahan (1), Tufan Tarcan (1), Ferruh Simsek (1), Cem Akbal (1)
(1) Marmara University Faculty of Medicine, Department of Urology, Istanbul, Turkiye
(2) Marmara University Faculty of Medicine, Department of Radiology, Istanbul, Turkiye
Correspondence: Cem Akbal MD, Marmara University Faculty of Medicine, Department of Urology, Istanbul, Turkiye
Phone: + 90 216 625 47 68
Presented in: "13. Turk Cocuk Urolojisi Kongresi" in Antalya on November 26-28, 2015.
Cite this article as: Sekerci CA, Tanidir Y, Sener TE, Asadov R, Sahan A, Tarcan T, Simsek F, Akbal C. The Significance of the Contralateral Testis Size Measurement with Ultrasonography in Predicting Monorchism in Boys with Nonpalpable Testicles. J Urol Surg 2017;4:61-65.
Table 1. Age (months) and diameter of the largest testicular size (mm) is provided for each group (mm) (Mann-Whitney U) Monorchism group (n=12) [Median, (minimum, maximum)] Age (months) 15 (11-60) Contralateral scrotal testis size (mm) 25 (19-36) Undescended testis size (mm) - Nonpalpable intra-abdominal testisgroup (n=9) Age (months) 25 (11-60) Contralateral scrotal testis size (mm) 18 (13-24) (*) Undescended testis size (mm) 12 (11-19) Palpable undescended testis group (n=36) Age (months) 36 (11-72) Contralateral scrotal testis size (mm) 16 (10-33) (**) Undescended testis size (mm) 14 (5-25) (*) p<0.005 (**) p<0.001 Table 2. Sensitivity and specifcity of contralateral compensatory testicular cut-off lengths to predict monorchism in boys with palpable undescended testis and nonpalpable intra-abdominal testis Contralateral testis size Predicting monorchism Sensitivity TP FP FN TN [greater than or equal to]18 mm 12 13 0 32 1.00 [greater than or equal to]19 mm 12 13 0 32 1.00 [greater than or equal to]20 mm 10 9 2 36 0.83 [greater than or equal to]21 mm 10 6 2 39 0.83 [greater than or equal to]22 mm 10 5 2 40 0.83 [greater than or equal to]23 mm 9 3 3 42 0.75 [greater than or equal to]24 mm 9 3 3 42 0.75 [greater than or equal to]25 mm 8 1 4 44 0.67 Contralateral testis size Specifcity [greater than or equal to]18 mm 0.71 [greater than or equal to]19 mm 0.71 [greater than or equal to]20 mm 0.80 [greater than or equal to]21 mm 0.87 [greater than or equal to]22 mm 0.89 [greater than or equal to]23 mm 0.93 [greater than or equal to]24 mm 0.93 [greater than or equal to]25 mm 0.98 TP: True positive, FP: False positive, FN: False negative, TN: True negative
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|Title Annotation:||ORIGINAL RESEARCH Pediatric Urology|
|Author:||Sekerci, Cagri Akin; Tanidir, Yiloren; Sener, Tarik Emre; Asadov, Ruslan; Sahan, Ahmet; Tarcan, Tufa|
|Publication:||Journal of Urological Surgery|
|Date:||Jun 1, 2017|
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