Diagnosis of pediatric varicoceles by physical examination and ultrasonography and measurement of the testicular volume: using the prader orchidometer versus ultrasonography

INTRODUCTION: The differentiation of unilateral versus bilateral varicoceles and testicular volume measurements are important in determining the need for adolescent varicocele surgery and also in following patients after varicocelectomy. The aim of this study was to prospectively compare the findings of physical examination and color Doppler ultrasonography in the diagnosis of pediatric varicoceles and to compare the findings using the Prader orchidometer and scrotal ultrasonography in the measurement of testicular volumes. PATIENTS AND METHODS: This study included 68 boys with varicoceles, ranging in age from 8 to 19 years. Varicoceles were diagnosed using both physical examination and scrotal color Doppler ultrasonography. The testicular volumes of 136 testicles were measured using the Prader orchidometer and scrotal ultrasonography. A difference of more than 10% or 2 ml in each testicular volume was considered significant. RESULTS: The mean age of the boys was 13.5 +/- 2.3 years. On physical examination, a left unilateral varicocele was diagnosed in 46 boys (67.6%). The other 22 boys (32.4%) had bilateral varicoceles. Color Doppler ultrasonography detected bilateral varicoceles in 4 of the 46 boys (8.7%) who were diagnosed by physical examination as having only left unilateral varicoceles (grade 3 in 3 patients and grade 2 in 1 patient). A different of more than 10% or 2 ml in testicular volume using the Prader orchidometer versus scrotal ultrasonography was detected in 3 out of 136 testicles (2.2%). The correlation between ultrasonography and Prader orchidometer results in the measurement of testicular volumes was statistically highly significantly consistent using the intraclass correlation test (r = 0.997 and p < 0.001 for the left testis; r = 0.998 and p < 0.001 for the right testis). CONCLUSIONS: Although the management of subclinical varicoceles remains controversial, these data show that color Doppler ultrasonography may be necessary in the diagnosis of bilateral varicoceles, especially in boys with high-grade left varicoceles. In contrast, scrotal ultrasonography, if considered the gold standard, did not show superiority over the Prader orchidometer in measuring testicular volumes.     

Testicular hypotrophy does not correlate with grade of adolescent varicocele

PURPOSE: Testicular hypotrophy is the most widely accepted indication for correcting adolescent varicocele. Previous studies in adolescents have shown a relationship between increasing grade of varicocele and the likelihood of testicular hypotrophy. As this relationship has significant clinical implications, we studied the correlation between grade and testicular volume disproportion in our adolescent varicocele population. MATERIALS AND METHODS: We reviewed the adolescent varicocele database at our institution. A total of 168 patients 8 to 21 years old were studied. We routinely calculated testis volumes using scrotal ultrasound. Testicular disproportion was calculated using the equation [(size of unaffected testis) - (size of affected testis)]/(size of unaffected testis) x 100%. Disproportion was categorized as less than 10%, 10% to 20% and more than 20%. Varicoceles were graded by an attending urologist with the patient standing, using the system of Dubin and Amelar. Analysis of variance and Pearson chi-square indicated no significant differences in volume differential between varicocele grades. RESULTS: Mean +/- SD volume differential was 18% +/- 15% for grade I, 25% +/- 20% for grade II and 19% +/- 14% for grade III. ANOVA revealed no significant difference in mean volume differential between the 3 varicocele grades (p = 0.10). When categorizing patients into 3 levels of volume differential (less than 10%, 10% to 20%, more than 20%) no significant correlation was observed between varicocele and volume differential (p = 0.48, chi-square test). CONCLUSIONS: Grade of varicocele does not correlate with presence or severity of testicular disproportion in adolescent boys with varicocele as measured by scrotal ultrasound.     

The effect of varicocele repair on testicular volume in children and adolescents with varicocele

PURPOSE: We investigated the effect of varicocele repair on testicular volume according to age in children and adolescents and review the long-term results of varicocele surgery. MATERIALS AND METHODS: The study included 39 boys 11 to 19 years old with clinical palpable varicocele who underwent varicocele surgery with at least 1 year of postoperative followup. Preoperative and postoperative testicular volumes were monitored and measured with an ellipsoid Prader orchidometer. Physical examination findings (testicular volumes and testicular consistency) in all boys, and serum hormone values and semen parameters in 16 adolescents were recorded and compared before and after surgery. RESULTS: Left unilateral varicocelectomy was done in 29 boys (74%) and bilateral varicocelectomy in 10 (26%). While no postoperative hematoma, infection or testicular atrophy was observed, 1 boy (2.5%) had varicocele recurrence and 2 boys (5.1%) had minimal hydroceles that required no intervention. Significant increases were observed in postoperative sperm concentration (p = 0.01), total motile sperm count (p = 0.009), testis volume (p = 0.000) and serum testosterone level (p = 0.014). All 15 boys with preoperative soft testis had normal testicular consistency postoperatively. Of the 19 boys with preoperative testicular atrophy 10 (53%) did regain normal testicular growth, while 9 (47%) retained testicular volume loss after surgery. When comparing preoperative to postoperative increase in testicular volume according to age in all boys, the mean was statistically significantly higher in boys younger than 14 years (left testis p = 0.037, right testis p = 0.000). CONCLUSIONS: Testicular consistency achieved normal firmness after varicocelectomy in all boys with preoperative soft testis. While there was catch-up growth in comparison to the contralateral testis, testicular consistency improved but testicular volumes may not increase significantly after varicocele repair at ages older than 14 years. However, in these adolescents postoperative semen parameters and serum hormone values may significantly improve regardless of testicular volume. Therefore, boys with varicocele and their families should be fully informed in light of these findings.     

Relationship between testicular volume and testicular function： comparison of the Prader orchidometric and ultrasonographic measurements in patients with infertility

Aim： To evaluate the relationship between testicular function and testicular volume measured by using Prader orchidometry and ultrasonography （US） to determine the critical testicular volume indicating normal testicular function by each method. Methods： Total testicular volume （right plus left testicular volume） was measured in 794 testes in 397 men with infertility （mean age, 35.6 years） using a Prader orchidometer and also by ultrasonography. Ultrasonographic testicular volumes were calculated as length x width x height x 0.71. To evaluate volume-function relationships, patients were divided into 10 groups representing 5-mL increments of total testicular volume by each method from below 10 mL to 50 mL or more. Results： Mean total testicular volume based on Prader orchidometry and US were 36.8 mL and 26.3 mL, respectively. Semen volume, sperm density, total sperm count, total motile sperm count, and serum FSH, LH, and testosterone all correlated significantly with total testicular volume measured by either method. Mean sperm density was in the oligozoospermic range in patients with total testicular volume below 35 mL by orchidometry or below 20 mL by ultrasonography. Mean total sperm count was subnormal in patients with total testicular volume below 30 mL by orchidometry or under 20 mL by ultrasonography. Conclusion： Testicular volume measured by either ultrasonography or Prader orchidometry correlated significantly with testicular function. However, critical total testicular volume indicating normal or nearly normal testicular function was 30 mL to 35 mL using Prader orchidometer and 20 mL using ultrasonography. Prader orchidometry morphometrically and functionally overestimated the testicular volume in comparison to US. （Asian JAndro12008 Mar; 10： 319-324）     

Inter-observer variation in the results of the clinical andrological examination including estimation of testicular size

Inter-observer variation in andrological examination by 10 clinical investigators from five Nordic and Baltic countries was investigated. In addition, information on intra-observer variation was obtained for six of the 10 investigators. Testicular size was measured using Prader's orchidometer and one of the investigators also performed an ultrasound estimate of testicular size. A highly significant difference (p < 0.001) between observers was found with an inter-observer error of 16% in estimating testicular size in 23 young men. The difference in the estimate tended to increase with increasing testicular size. There was no significant intra-observer difference in two measurements performed on consecutive days. Only differences in median testis size, which were greater than 31% between measurements by two investigators, were found to be significant at the 5% level. The ultrasound estimate of testicular size was significantly lower than the orchidometer estimate, with a mean difference of 3.6 mL for the left testis and 4.3 mL for the right testis. Tanner staging of genitalia and diagnosis of a varicocele was subject to great inter-observer variation, and for the diagnosis of varicocele only one-third of the investigators was able to reproduce their results on a second examination. In conclusion, it was found that the clinical andrological examination of young men is subject to great inter-observer variation. This should be kept in mind when results from different studies are compared as well as in daily clinical practice.     

Varicocele in adolescence induces left and right testicular volume loss

OBJECTIVE: To determine the effect of a palpable left-sided varicocele (which in adolescent patients can adversely affect left testicular volume) on right testicular volume with progressive Tanner development and increasing varicocele grade. PATIENTS AND METHODS: The right and left testicular volumes were measured with a standard orchidometer in 70 control patients (mean age 14.6 years, SD 2.2) with no palpable testicular abnormality and in 434 (mean age 14.3 years, SD 2.3) with a palpable left-sided varicocele. Patients with bilateral and right-sided varicoceles were excluded from the study. RESULTS: There was no significant difference between the left and right testicular volumes in the control patients. The testicular volumes of patients with a grade I varicocele were similar to those in control patients. Patients with a grade II varicocele had a significantly smaller left testis than the controls at Tanner stages 4 and 5 (P < or = 0.05). Patients with a grade III varicocele had a significantly smaller left testis than controls at each Tanner stage (P < or = 0.05) and significantly smaller right testis than controls at Tanner stages 4 and 5 (P < or = 0.05). CONCLUSION: The presence of a grade I varicocele in adolescence appears to have no effect on normal testicular growth. Some patients with a grade II varicocele are at risk of left testicular volume loss with time and should have their testicular volume measured annually. Patients with grade III varicocele are at risk of bilateral testicular volume loss; a careful evaluation and early surgical intervention are recommended in this group of patients.     

Clinical Measurement of Testicular Volume in Adolescents: Comparison of the Reliability of 5 Methods

Purpose

Measurement of the testis is a more readily available method of estimating spermatogenesis. Doubt remains about the best instrument for measuring testicular volume. Lack of bias or accuracy of instruments has received too much emphasis in some studies, while to our knowledge no one has yet appropriately compared reliability statistically. We propose a simple new method for measuring testicular size based on visual comparison with graphic models, and describe the reliability and bias of this and 4 traditional methods.

Materials and Methods

Measurements of 42 adolescent testes were made in a certain sequence: graphic method, dimensional measurement, Prader orchidometer, ring orchidometer and ultrasound with ultrasound assumed to be the standard. Statistical analysis was based on the linear structural model.

Results

Statistical tests indicated that all 5 methods are equally reliable (R greater than 0.9). Although they are not equally accurate, actual testicular size can be calculated using each of these 5 methods and the equations of the linear structural model.

Conclusions

The new graphic method proposed in this study is as reliable as other well-known methods for measuring testicular size. Actual testicular volume can be estimated without bias and with equal reliability from any of the 5 methods using the equations of the linear structural model. This statistical approach is more relevant than the sole comparison of lack of bias or accuracy, which has been the main concern of previous studies.     

Inter/intra investigator variation in orchidometric measurements of testicular volume by ten investigators from five institutions

Aim： To perform quality control studies on testicular volume measurements for a multi-center epidemiological study of male reproductive function. Methods： We constructed a data matrix with a balanced assignment for 2 consecutive days by ten investigators （andrological career： 4-21 years） from five institutions and 12 male volunteers aged 20-26 years. Testicular volume was measured by Prader＇s orchidometer. A skilled technician also performed an ultrasound estimate of testicular volume. Results： A statistically significant inter-investigator variation was found for both testes （P 〈 0.05）. In addition, there was a statistically significant investigator-by-volunteer interaction in testicular volume measurement （P 〈 0.01）. However, there was no statistically significant difference in the two measurements performed on consecutive days for either testis. The testicular volumes for both the right and left testes as estimated by ultrasonography were smaller than results using the orchidometer. However, there was no statistical significance （P 〉 0.05）. The difference in experiences of the investigators did not significantly correlate with accuracy of measurements in either testis. Conclusion： The present study revealed significant differences in the results of estimation of testicular volume among the ten investigators, but intra-investigator variation was not considerable. Improved training and proper standardization of the measurement will be necessary before starting a multi-center study based on an andrological examination.     

十位来自五个不同机构的调查者进行睾丸体积测量的组间和组内差异

目的:对多单位男性生殖功能流行病学研究中的睾丸体积测量进行质量控制研究。方法:我们构建了一个平衡分配数据矩阵,由10位来自5个不同研究所的调查者(从事男科学工作4到21年)在连续的两天内用 Prader 睾丸测量器测量12个男性志愿者(20—26岁)的睾丸体积。睾丸体积超声估计由一个经验丰富的技术人员完成。结果:10个调查者测量双侧睾丸体积的结果存在显著的组间统计差异(P<0.05)。睾丸体积测量结果显示调查者和志愿者之间存在显著的统计意义上的相互作用(P<0.01)。但是连续两天通过2种测量方法测得的双侧睾丸体积结果之间无显著差异。用超声波检查法测得的左右睾丸体积小于用睾丸测量器测得的值,但无显著差异(P>0.05)。调查者的工作经验没有显著影响睾丸体积测量结果的精确度。结论:研究表明10个调查者对睾丸体积的估计结果之间有显著差异,但组内差异不明显。因此,有必要在多单位男科学调研之前进行良好的培训和确定适当的测量标准。     

不育男性双侧Ⅰ度精索静脉曲张对睾丸体积和生殖激素水平的影响

目的 评价不育男性双侧I度精索静脉曲张对睾丸体积和生殖激素水平的影响.方法 185例不育男性双侧I度精索静脉曲张(A组)和149例正常生育男性(B组),比较其睾丸体积、卵泡刺激素(FSH)、黄体生成素(LH)和睾酮(T)水平.结果 A组患者两侧睾丸体积均小于B组,但睾丸体积绝对差异和睾丸体积相对差异与B组比较,无统计学意义.A组患者血清FSH水平高于B组,而LH、T与B组相比,差异无统计学意义.结论 不育男性双侧I度精索静脉曲张可导致患者双侧睾丸体积减小,血清FSH水平升高.     

THE ADOLESCENT VARICOCELE I: LEFT TESTICULAR HYPERTROPHY FOLLOWING VARICOCELECTOMY

PURPOSE: Ipsilateral testicular catch-up growth has been reported to occur in approximately 80% of adolescents with varicoceles following unilateral varicocelectomy. We have been observing not only catch-up growth, but hypertrophy (left at least 10% larger than right testicular volume) in some adolescents postoperatively. To our knowledge this phenomenon has not been previously described. We assess the incidence of left testicular hypertrophy following ipsilateral varicocele ligation and whether it is related to age at operation and/or procedure performed. MATERIALS AND METHODS: We reviewed the records of 42 patients who underwent unilateral left varicocelectomy for asymptomatic varicoceles. Testicular volume was determined before and after surgery, and all patients were followed for a minimum of 6 months. Indication for surgery was ipsilateral left testicular hypotrophy in 23 cases, grade 2 to 3 varicocele with palpably softer ipsilateral left testicle in 5, grade 3+ varicoceles in 12, an exaggerated response to gonadotropin-releasing hormone stimulation test in 1 and persistent pain in 1. Average patient age at operation was 14.7 years (range 9 to 22) and average followup was 22 months (range 6 to 84). Patients were stratified according to Palomo versus modified Ivanissevich technique and age at operation. Testes were measured using the Takihara ring orchidometer with relative volume of the left testis expressed as a percentage of the right testis. Results were compared in different age groups as well as by procedure performed to correct the varicocele using chi-square analysis. RESULTS: Left testicular hypertrophy developed in 13 of 32 patients (43.8%) who underwent a Palomo repair and in 3 of the 10 (30%) who underwent a modified Ivanissevich repair. When compared by age at operation, 8 of 20 patients (40%) 14.7 years old or younger had left testicular hypertrophy compared to 8 of 22 (36.4%) older than 14.7 years. Differences between these groups were not statistically significant. CONCLUSIONS: Ipsilateral testicular hypertrophy occurs in a substantial number of adolescents following varicocele ligation. This phenomenon does not seem to be dependent on age at surgery or type of varicocele repair.     

Objective measurement of testicular volume by ultrasonography: evaluation of the technique and comparison with orchidometer estimates

Ultrasonography of the scrotum is a valid and safe method for differentiating testicular and extratesticular disease. In the present study the accuracy and reproducibility of ultrasonographic estimation of testicular volume was evaluated. A high correlation (r = 0.992) between actual testicular volume (measured by weighing and water displacement) and the volume determined by ultrasonography was found on examination of 14 tests from patients at autopsy without any systematic under- or over-estimation. The ultrasound method proved to be highly reproducible with a coefficient of variation of 7.0 +/- 0.7%. Using different ultrasound scanners did not significantly influence the results obtained. The comparison of Prader orchidometer measurements, performed by four different clinical investigators, and ultrasonography in 256 patients revealed a significant correlation of 0.91, but the degree of correlation was dependent on the investigator's clinical experience. Volume estimates by comparative palpation appear to be valuable in most clinical settings. Ultrasonography provides an excellent tool for determining testicular volume when objective, accurate and reproducible measurements of testicular volume are required.     

青春期精索静脉曲张

青春后期精索静脉曲张 (varicocele ,VC)发病率为 12 .4 %～ 17.8% ,平均 14 .7% ,与成年男性相似。青春期VC可导致睾丸发育障碍 ,而手术治疗可使其逆转 ,但在睾丸发育障碍出现之前不主张预防性手术。手术治疗青春期VC的建议指征 :①睾丸发育障碍 ,左右侧容积差别大于 2ml;②伴有精液分析异常的重度VC ;③有疼痛、下坠、肿胀等症状的VC ;④双侧VC。VC术后复发率为 9%～ 16 % ;但经腹膜后同时高位结扎精索内动脉和静脉 ,复发率可降至 2 %。     

Varikozele bei Jugendlichen

Testicular varicocele is present in 15 % of adolescent boys. The very impact of this pathology and who will be at risk of developing into infertility remains unclear. Research on the pathophysiology, results of surgical or radiological interventions and potential predictors for long-term impairment of spermatogenesis and thus fertility is still ongoing. Indications for treatment are mainly based on differences in testicular volumes as semen parameters are most often not available; however, whether testicular volume is a valuable prognostic parameter for later fertility remains questionable. Approximately 50 % of adolescent patients with varicocele experience spontaneous increase of testicular volume without any intervention.     

Adolescent varicocele: limited indications for treatment during puberty and adolescence

A varicocele is defined as an abnormal dilatation of the pampiniform plexus of veins of the testis. The vast majority of children and adolescents with varicoceles have no subjective symptoms. The complete work-up of patient diagnosed with a varicocele involves a physical exam in supine and prone position with and without Valsalva, and the use of ultrasound to measure testicular volume and blood flow. Because of growth issues occurring during puberty and adolescence, serial follow-ups may be done to determine any detrimental change in testicular size and symptomatology. The main difference of an adolescent varicocele is the fact that semen parameters are unavailable and do not count for treatment strategy. In this review, the focus is made on a recent study that has evaluated the ultimate endpoint: paternity. It appears that screening and treatment of a varicocele in the adolescent period does not influence the ultimate chance of paternity.     

Laparoscopic varicocelectomy with preservation of the testicular artery in adolescents

PURPOSE: The aim of this study was to determine if laparoscopic varicocelectomy (LV) with preservation of the testicular artery (TA) is a satisfactory alternative to standard open surgical techniques in adolescents. METHODS: Between June 1993 and June 1999 left LV was performed on 40 boys, median age, 12 years (range, 9 to 16 years). Selection for surgical correction included size of the varicocele, symptoms, and clinical or ultrasound assessment for testicular hypotrophy. Eight patients had undergone previous left-sided inguinal surgery, 5 of these for varicocele. Three laparoscopic ports were used. The TA was identified and preserved with the aid of a Doppler flow transducer ("Smart Needle"). All the testicular veins were ligated and divided. The inferior epigastric (IE) veins also were ligated in 19 patients. The operating time was a mean of 1 hour. The postoperative follow-up for a median of 19.5 months (range, 3 to 36 months) included clinical and ultrasound assessment. RESULTS: Preoperative assessment confirmed left-sided testicular hypotrophy 35 patients (88%). Thirty-eight varicoceles were stage 3, and 2 were stage 2. Testicular discomfort was present in 13 patients. Complete correction of the varicocele was achieved in 33 (83%). At a mean of 5 months after LV open repair in 7 patients confirmed a dilated cremasteric vein connecting to the IE veins. Ligation of the IE veins at the time of LV was associated with a persistent varicocele in 3 of 19 patients (16%), similar to the nonligated group, 4 of 21 patients (19%). Five patients (12.5%) had a mild hydrocele. The left testicular volume increased 30% to 50% in 28 patients (70%) at a median of 6.5 months after repair. Testicular atrophy did not occur in any patients. The majority of patients went home within 6 hours of surgery. CONCLUSIONS: The laparoscopic technique with preservation of the TA is an acceptable alternative to open surgical treatment of varicoceles. Further, it eliminates the risk of testicular atrophy and is the technique of choice when previous inguinal surgery has been performed. Ligation of IE veins was not associated with a decrease in the persistence of varicocele postoperatively.     

Relationship between testicular volume and presence of varicocele. A comparative study

The varicocele, present in many of the male partners of infertile couples continues to generate controversy, particularly as related to its diagnosis and pathophysiology. The purpose of our study was to determine the relationship between testicular volume and the presence or absence of a varicocele. Testicular volume was determined by the use of an orchiometer; the presence of a varicocele was determined by palpation during a Valsalva maneuver. The patients utilized in the study were those seen in our Andrology and General Urology Clinics; 291 patients with varicoceles and 83 control patients (no evidence of varicocele) were used. The left (mean = 21.4 mL) and right (mean = 23.4 mL) testicular volumes of patients with a varicocele were significantly reduced compared with that of the control group (left, mean = 23.4 mL; right, mean = 26.2 mL; p = 0.0041 and p = 0.002, respectively). The testicular volume corrected on the basis of the body mass (V/m2) also was significantly reduced in the varicocele group compared with controls (left p = 0.007; right p = 0.001). Reduced testicular volume relative to body size may be detected prior to actual demonstration of the stress pattern and the presence of a varicocele, and may be useful in early diagnosis. It is suggested that measurement of testicular volume may be a useful adjunct to routine examination of the infertile male.     

Oigarche: the age at first ejaculation

In our study the mean age of the age at first ejaculation in Belgium is 13 yrs 2 mos, corresponding with a testicular volume of 10 ml with the orchidometer of Prader. These data are in agreement with those of Laron et al. (1980) and Richardson and Short (1978). The relationship between the age at first ejaculation and the testicular volume means that once this testicular volume (10 ml) has been reached, the question about the presence of ejaculations no longer need be posed "prematurely" (and becomes the possible cause of feelings of inferiority). The age at first ejaculation certainly can be used as an index of genital and sexual maturation in male puberty.     

A comparative study of different methods of orchidometry in a canine model

Purpose An investigation was carried out to compare the testicular volumes obtained by different methods of assessment in a series of dogs. Method After obtaining ethical approval for the study, ten dogs were identified which were scheduled for castration, either at the owner’s request or prior to being placed in suitable homes. A Prader orchidometer, which consists of a series of ovoid model testes inscribed with corresponding equivalent volumes, was used as an indirect method of assessing the volume of each testis. Percutaneous measurements of length and width of each testis were also carried out prior to surgery under general anaesthesia, using both a sliding and a pinch type caliper. After each testis was removed it was isolated and submerged in a beaker containing water in order to get a direct estimate of its volume by fluid displacement. Using the formula for deriving the volume of an ellipsoid from length and weight measurements, the volumes derived from the caliper measurements were estimated and compared with the orchidometer and fluid displacement values. Pearson correlation coefficients were calculated to obtain the correlations between the values produced by the four methods. Results The Prader orchidometer and the pinch type caliper both showed significant correlations, of 0.64 and 0.62 respectively, with the definitive values obtained by fluid displacement. The correlation obtained with the sliding caliper (0.4) was not significant. Despite the significant correlations, all the indirect methods consistently overestimated the real volumes obtained by fluid displacement. Conclusion Estimates of testicular volumes obtained by orchidometer and pinch type caliper are useful for situations where a qualitative rather than quantitative assessment of testicular volume is required.     

Varikozele und pubertäres Hodenwachstum

BACKGROUND: We prospectively assessed male students in the 4th and 8th forms to see whether varicoceles affect testicular growth. PARTICIPANTS AND METHODS: Ultrasound measurements were done in 778 boys to define testicular size according to the different pubertal stages. Seven hundred boys had a left or bilateral varicocele; 257 children and 287 adolescents with unilateral varicoceles were assessed for testicular size discrepancies in relationship to the varicocele size and the Doppler grades of venous reflux in the upright and supine positions. RESULTS: Rapid testicular growth occurred at puberty. By comparing the frequencies and extent of ipsilateral growth failures in adolescents, we noted significant differences among the varicocele grades. A volume loss of >/=15% was associated with the higher varicocele grades and the reflux grades in the supine position. CONCLUSION: Varicoceles may impair testicular growth at puberty. The severity of volume loss depends on the varicocele size and the related alterations in circulatory flow.