Sonographic findings in non-neoplastic testicular lesions

Vital, Ricardo Jorge; Mattos, Leandro Accardo de; Souza, Luís Ronan Marquez Ferreira de; Figueirêdo, Sizenildo da Silva; Szejnfeld, Jacob

doi:10.1590/S0100-39842007000100013

Abstracts

Pathological processes of the testis are very frequently found, and include non-tumoral and tumoral lesions. Ultra-sonography performed with a high-frequency transducer has become the imaging modality of choice for examination of these organs. This method is of help to improve intratesticular lesions characterization, and in many instances the findings suggest a more specific diagnosis, especially in the presence of similar clinical manifestations such as pain, swelling and local increase in volume. Color Doppler is an invaluable tool for demonstrating anomalous patterns of testicular perfusion and aids in the diagnosis of acute clinical conditions. In the present iconographic essay, the authors summarize the most frequent clinical, pathological findings as well as the main diagnostic features of benign intratesticular lesions such as microlithiasis, simple cysts, spermatocele, varicocele, tubular ectasia of the rete testis, orchitis, hematomas and more rare conditions. Familiarity with clinical and sonographic features is essential for the correct diagnosis and starting of the most effective therapy, as necessary.

Testis; Benign testicular lesions; Ultrasonography; Color Doppler

Processos patológicos dos testículos são muito comuns, incluindo-se lesões tumorais e não-tumorais neste contexto. A ultra-sonografia com transdutor de alta freqüência tornou-se a modalidade de imagem de escolha para a avaliação desses órgãos. Este método ajuda a melhor caracterizar lesões intratesticulares e em muitas situações sugere um diagnóstico mais específico, principalmente nos casos em que há manifestações clínicas similares, tais como dor, inchaço e aumento volumétrico locais. O mapeamento com Doppler colorido é importantíssimo para demonstrar padrões anormais de perfusão testicular e auxilia no diagnóstico de condições clínicas agudas. Neste ensaio iconográfico os autores sumarizam os mais comuns achados clínicos, patológicos e as principais características diagnósticas de lesões testiculares, tais como microlitíase, cisto simples, espermatocele, varicocele, ectasia tubular da rete testis, orquite, hematomas e condições mais raras. A familiaridade com as características ecográficas e clínicas destas alterações é essencial para o estabelecimento do diagnóstico correto e início da terapêutica mais eficaz, quando necessária.

Testículos; Afecções testiculares benignas; Ultra-sonografia; Color Doppler

ICONOGRAPHIC ESSAY

Sonographic findings in non-neoplastic testicular lesions^* * Study developed at Department of Diagnostic Imaging Universidade Federal de São Paulo/Escola Paulista de Medicina, São Paulo, SP, Brazil.

Ricardo Jorge Vital^I; Leandro Accardo de Mattos^I; Luís Ronan Marquez Ferreira de Souza^II; Sizenildo da Silva Figueirêdo^III; Jacob Szejnfeld^IV

^IMDs, Radiologists, Titular Members of Colégio Brasileiro de Radiologia e Diagnóstico por Imagem

^IIAssistant Professor Doctor of the Discipline of Diagnostic Imaging Universidade Federal do Triângulo Mineiro, Titular Member of Colégio Brasileiro de Radiologia e Diagnóstico por Imagem

^IIIAssistant Professor of the Discipline of Imaginology Faculdade de Medicina da Universidade Federal de Rondônia, Titular Member of Colégio Brasileiro de Radiologia e Diagnóstico por Imagem

^IVAdjunct Professor, Private Docent at Department of Diagnostic Imaging Universidade Federal de São Paulo/Escola Paulista de Medicina

^{Mailing Address} Mailing Address: Prof. Dr. Sizenildo da Silva Figueirêdo Rua Natal, 371 Porto Velho, RO, 78905-120 Brazil E-mail: sizenildo@uol.com.br

ABSTRACT

Pathological processes of the testis are very frequently found, and include non-tumoral and tumoral lesions. Ultra-sonography performed with a high-frequency transducer has become the imaging modality of choice for examination of these organs. This method is of help to improve intratesticular lesions characterization, and in many instances the findings suggest a more specific diagnosis, especially in the presence of similar clinical manifestations such as pain, swelling and local increase in volume. Color Doppler is an invaluable tool for demonstrating anomalous patterns of testicular perfusion and aids in the diagnosis of acute clinical conditions. In the present iconographic essay, the authors summarize the most frequent clinical, pathological findings as well as the main diagnostic features of benign intratesticular lesions such as microlithiasis, simple cysts, spermatocele, varicocele, tubular ectasia of the rete testis, orchitis, hematomas and more rare conditions. Familiarity with clinical and sonographic features is essential for the correct diagnosis and starting of the most effective therapy, as necessary.

Keywords: Testis; Benign testicular lesions; Ultrasonography; Color Doppler.

TESTICULAR MICROLITHIASIS

Microlithiasis has been recently described and is a relatively rare entity, reported to be incidentally observed in 0.6% to 0.75% of patients submitted to testicular ultrasound⁽¹⁴⁾. Frequently, both testicles are affected, however there are reports on unilaterality in patients from 10 months to 70 years of age^(4,5).

The disease is clinically asymptomatic⁽²⁾ and its cause remains unknown. The incidental diagnosis should indicate a complete clinical evaluation for detecting subfertility/infertility or systemic diseases.

Histologically, microliths represent scattered laminated calcium deposits in the lumina of the seminiferous tubules, called calcospherites⁽⁶⁾.

It may be associated with other pathological entities like Klinefelter's syndrome, cryptorchism, Down syndrome, male pseudohermaphroditism, pulmonary alveolar microlithiasis, previous radiotherapy and infertility conditions⁽⁷⁾.

Initially, testicular microlithiasis was thought to be a benign process not requiring follow-up⁽⁷⁾. However, a strong association has been seen with the presence of germ cell tumors, particularly seminomas⁽⁵⁾, and intratubular germ cell neoplasms which progress to carcinoma 50% of times (Figure 3).

At ultrasound, the most characteristic aspect of microlithiasis is of multiple, small, hyperechogenic foci ranging between 1 mm and 3 mm in diameter, which typically do not shadow^(2,8). Calcifications appear diffusely scattered throughout the testicular parenchyma, but may be segmented or distributed peripherically (Figures 1 and 2). Although not presenting posterior acoustic shadowing, occasionally they might generate comet-tail artifacts or a scintillating pattern at color Doppler⁽²⁾.

For the ultrasound diagnosis, the identification of a minimum of five microcalcifications per imaging field is the most accepted criterion⁽⁹⁾.

There are scientific evidences justifying the ultrasound follow-up of patients with microlithiasis, aiming at the early diagnosis of testicular tumors. Some authors have recommended an annual ultrasound follow-up, and that self-examination is encouraged for all patients affected^(2,4,10).

SIMPLE INTRATESTICULAR CYST

Intratesticular cysts are incidentally detected lesions in men with 40 or more years of age, measuring from 2 mm to 2 cm in diameter. They may be uni- or multiloculated⁽²⁾, usually are single and non-palpable, and may be multiple and bilateral^(11,12).

The pathogenesis is still to be completely known; three theories have been proposed: a) congenital, where simple intratesticular cysts would be a result from an increase in epithelial cells secretion or cystic distention from remnants of Müllerian and Wolffian ducts; b) post-traumatic; c) post-inflammatory.

Microscopically, they are lined by flat or cuboid epithelium, surrounded by testicular parenchyma, with serous content⁽²⁾.

They may be found in any portion of the testes, but are more frequently seen near the mediastinum testis and adjacent to the tunica albuginea, associated with extratesticular spermatocele.

At ultrasound, the simple cyst present as an anechoic, well-defined lesion, with imperceptible walls and posterior acoustic shadowing, localized inside the testicular parenchyma⁽¹¹⁾ (Figure 4).

When complicated with hemorrhage and infection, these cysts loose their anechoic feature, and start showing internal suspended echoes, resulting in differential diagnosis with epidermoid cyst and teratoma⁽²⁾.

Simple intratesticular cysts may be associated with other congenital anomalies like Von Hippel-Lindau syndrome and cystic dysplasias⁽¹³⁾.

INTRATESTICULAR SPERMATOCELE

Spermatocele refers to an intraparenchymatous cystic lesion adjacent to the mediastinum testis, in the area of rete testis, and may be septate and communicating with seminiferous tubules.

At histological evaluation, they present a fibromuscular wall surrounded by cuboid epithelium, pseudostratified or ciliated epithelium being rarely observed⁽¹⁴⁾.

Ultrasound usually demonstrates anechoic lesions measuring between 1 cm and 2 cm, and that may reach more than 15 cm, with posterior acoustic enhancement. Spermatoceles might be confused with simple cysts, although its walls use to be more irregular^(11,15,16).

INTRATESTICULAR VARICOCELE

While extratesticular varicocele is a common clinical condition, its intratesticular form is a rare entity which is seen in less than 2% of a population affected by scrotal symptoms^(1,17). Intratesticular varicoceles usually are left-sided, in association with ipsilateral extratesticular varicoceles, but their independent existence is more common.

The most frequent claim of patients is local pain, while infertility, edema or scrotal mass also present as typical symptoms.

Its sonographic appearance consists of multiple serpiginous tubular and anechoic structures, varying in sizes, usually larger than 3 mm in diameter, localized around the mediastinum testis⁽¹⁸⁾. These vessels are more frequently found at left, during Valsalva maneuver, preferably in the orthostatic position.

At the mapping with color Doppler, the venous reflux is seen at the Valsalva maneuver, which is pathognomonic^(1,19). The differential diagnosis includes testicular cysts, tubular ectasia of the rete testis, hematoma, focal orchitis and cystic intratesticular neoplasms⁽¹⁷⁾.

There is a great controversy about which would be the most reliable sonographic diagnostic characteristic of initial/mild varicocele. A consensus is still to be reached about this matter, but most of urologists, in our practical experience, consider the venous reflux as a more reliable feature than the venous dilatation.

TUBULAR ECTASIA OF THE RETE TESTIS

Tubular ectasia of the rete testis is a relatively rare benign entity resulting from a partial or complete obstruction of efferent ducts⁽¹⁶⁾. This obstruction may occur at different levels, and may be classified into intra- or extratesticular.

In testicular lesions, the obstruction is situated in the seminiferous tubules or in the rete testis, generally resulting from severe inflammatory episodes like orchitis. In extratesticular lesions, the proximal obstructions result from luxation or traumatic tearing of epididymis, testicular varicoceles and cystic dysplasia. Middle obstructions are due to typical epididymal conditions like epididymitis, spermatoceles and tunica albuginea cysts. On the other hand, distal obstructions occur post-vasectomy or after scrotal surgery^(8,20). Usually, these lesions affect patients above 55 years of age, and frequently are bilateral (45%) and asymptomatic^(2,21).

The typical presentation of the rete testis consists of a serpiginous, hypoechoic structure communicating the mediastinum testis with the epididymis head usually localized in the posterolateral region of the testes⁽²⁰⁾.

In cases of ectasia, ultrasound depicts numerous small tubular and cystic structures with fluid and hypoechoic contents in the region of the rete testis, proximal to the mediastinum testis. At the mapping with color Doppler no flow is detected within the rete testis⁽¹⁶⁾, differentiating it from the intratesticular varicoceles. Occasionally, a pseudocystic pattern may be identified⁽²⁾ (Figures 5 and 6).

It is important to differentiate tubular ectasia of the rete testis from testicular tumors such as adenocarcinoma of the rete testis, epididymal cystadenoma, teratoma, non-Hodgkin lymphoma, and seminiferous tubules dilatation secondary to testicular neoplasms^(16,22).

In dubious cases, magnetic resonance might be of help, showing non-enhanceable tubular structures after intravenous gadolinium injection, with homogeneous low-intensity signal in T1-weighted images, and high-intensity or intermediary signal on T2-weighted images⁽²²⁾.

TESTICULAR TRAUMA

Testicular traumas usually result from car accidents, or contact sports, and may lead to contusion, hematoma, fracture or even testicular rupture which is considered as a surgical emergency⁽²¹⁾. In closed traumas, there is a formal indication for ultrasound to evaluate the testicular viability, vascularization, and to serve as a basis for follow-up⁽⁶⁾.

Hematomas are identified at ultrasound as heterogeneous testicular lesions, and may become complex, with cystic components. Considering the frequency of post-traumatic atrophy, the ultrasound follow-up is essential until the complete resolution of testicular alterations. This atrophy occurs as a result of ischemia caused by increased pressure inside the tunica albuginea secondary to hematoma formation⁽²³⁾ (Figures 7 and 8).

Tunica albuginea fracture is another condition characterized by a fault (interruption) on the organ borders, an even external protrusion of the testicular pulp due to the segmental interruption of the echogenic testicular coat (tunica albuginea)⁽¹⁾.

On the other hand the diagnosis of testicular fracture is made when there is a linear, irregular, hypoechoic intratesticular abnormality, dividing the testis into two or more parts. The differential diagnosis with a transmediastinal artery is not easy. Fractures with severe testicular injury present with a heterogeneous echotexture⁽¹⁾.

TESTICULAR INFARCTION

Testicular infarction is associated with episodes of subacute torsion or infectious phenomenon determining zones of ischemia in the testicular parenchyma⁽²⁾. More rarely, segmental infarcts are disclosed during a picture of accentuated pain due to several etiologies such as trauma, arterial embolism, venous thromboses and various angiopathies⁽²⁾. Other iatrogenic origin is the resection or connection of the spermatic cord vascular elements in an inguinal hernioplasty.

Its sonographic appearance depends on the patient's age and severity of the injury⁽²³⁾. In an early phase, ultrasound does not demonstrate any change in echogenicity. Posteriorly, ischemic zones may be single or multiple, and appear round-shaped and hypoechoic on a plane, and in a more triangular shape with poorly defined borders on the perpendicular plane (Figure 9).

The mapping with color Doppler shows perfusion of hypervascularized perilesional regions and/or absent flow in the lesions⁽²⁾. With the clinical progression, lesions tend to decrease in size, calcify, and increase its echogenicity as a result of fibrosis⁽²³⁾. Small, more frequent infarction zones are hardly differentiated from small tumors (which may be equally avascular), however the triangular-shaped infarction is a discriminative semiological element⁽²⁾.

Amongst the differential diagnosis, one should consider testicular tumor and abscess which present a diverse clinical history⁽¹¹⁾. In dubious cases, magnetic resonance imaging shows the gadolinium enhancement in tumor processes, and absent enhancement in infarction⁽²⁾.

Hemorrhagic infarcts may rarely occur as a complication of inguinal hernioplasty. The anatomopathological substrate is the venous flow interruption, generating local congestion and hemorrhagic necrosis.

At ultrasound, an increase in testis is observed with diffuse heterogeneity associated with permeated hyperechogenic areas, suggesting zones of liquefaction looking like a thick fluid.

At magnetic resonance imaging, T1-weighted sequences demonstrate an increased signal typical of hemorrhagic collections, because of products from hemoglobin degradation⁽²⁾.

ACUTE ORCHITIS

Usually orchitis results from a direct extension of epididymis inflammation to testis, which becomes acutely edematous and painful^(1,23). Primary orchitis is frequently viral and associated with parotiditis. Contrarily to bacterial orchiepididymitis, the viral infections usually are bilateral⁽¹⁾.

In adolescents, most common causing agents are those sexually transmitted like Chlamydia trachomatis and Neisseria gonorrhoeae. In prepubertal boys and men aged above 35 years, most frequently the disease is caused by Escherichia coli and Proteus mirabilis⁽²⁴⁾.

Ultrasound shows indirect signs of inflammation such as hydrocele or pyocele associated with scrotal wall thickening, these forms being present in most of cases. The diffuse testicular involvement is confirmed by increase in parenchymal volume as a result of testicular edema, presenting a heterogeneous echotexture⁽²¹⁾. In focal processes, presentation is characterized by multiple hypoechoic lesions scattered throughout the parenchyma⁽²¹⁾ (Figure 10). In viral orchitis there is a diffuse increase in volume, and homogeneous or heterogeneous hypoechogenicity with peripheral hypoechoic zones⁽¹⁾ (Figure 11).

Since these findings are not specific of orchitis, they must be correlated with clinical history and laboratory tests. The patient should be followed-up until complete resolution. Additionally, findings must be documented by ultrasound aiming at ruling out tumor, infarction and metastasis.

At color Doppler-mapping, one observes an increase in the blood flow into epididymis and testis, characterized by increased number of vascular structures identifiable per view field which must always be compared with the contralateral testis. The analysis of the resistivity index and spectral pattern may bring useful information, since in these cases there is a decrease in the vascular resistance in relation to healthy individuals⁽²⁵⁾ (Figure 12).

In this context, ultrasound also becomes essential for researching the process severity, the complications, and elements of differential diagnosis like a subacute testicular torsion⁽¹⁾.

A relatively frequent infectious complication is the abscess, corresponding to a hypoechogenic fluid collection with poorly defined contours and a hypo/hyperechogenic halo, sometimes associated with echogenic débris.

The color Doppler-mapping shows an increase in the perilesional vascularization and absent blood flow inside the abscess. Rarely, gas bubbles can be observed, appearing like hyperechoic, supernatant punctate foci⁽¹⁾ (Figures13, ¹⁴ and ¹⁵ ).

Another complication is the acute ischemia generated by compression of the vascular pedicle of the spermatic cord with the resulting formation of intratesticular venous thrombi. At the color Doppler-mapping, decreased or absent vascularization is observed, in contrast to the adjacent epididymis hypervascularization⁽¹⁾. With the clinical progression, the affected testis atrophy is observed (Figure 16).

CRYPTORCHISM AND ECTOPIA

The frequency of cryptorchism in the population ranges between 0.5% and 0.8%. The undescended testis may be situated from the renal hilus to the inguinal canal. In one-third of cases is bilateral, but in cases of unilaterality the right side is most frequently affected. Most common localization is in the inguinal canal (72% of cases), followed by the prescrotal (20%) and abdominal or pelvic topography (8%)⁽¹⁾.

Testicular ectopia is a quite rare condition, and the most frequent localization is the subcutaneous region situated between the internal and external inguinal fossas⁽²¹⁾.

All cases of cryptorchism must be surgically treated (orchidopexy or rudimentary testis ablation) to avoid future complications such as infertility, tumor process, torsion and incarceration of intestinal loops. The risk for malignant degeneration is 48 times superior to that in the normal testis, seminoma and embryonic carcinoma being the most frequent types of tumors⁽¹⁾.

At ultrasound, the cryptorchidic testis appears atrophic, hypoechoic, homogeneous or heterogeneous (Figure 17). In its most frequent localization, the external inguinal canal opening is identifiable by echography. In the cases where this opening is localized in the deep opening of the inguinal canal, the presence of gas reverberation artifacts from the digestive apparatus complicate the visualization of a small testis; so in these cases magnetic resonance imaging is the indicated modality⁽¹⁾.

RARE TESTICULAR DISEASES

Ectopic rests of adrenal tissue

During the embryonal development, some adrenocortical cells may remain in the testicular parenchyma, and, unless they receive sufficient hormonal stimulation, remain undetectable. In children with congenital adrenal hyperplasia, there is a defect in the glucocorticoid synthesis and possible intratesticular adrenal rests are abnormally stimulates, suffering from hypertrophy. The lesions tend to be detected by ultrasound as multiple, round-shaped and hypoechoic^(6,16). These lesions are not considered as potentially malignant⁽²³⁾.

Sarcoidosis

Sarcoidosis rarely affects the testis, with genital involvement occurring in only 1% of patients with systemic involvement. Usually, it causes a painless enlargement of the testis, and at ultrasound irregular, solid, hypoechoic and potentially calcifying lesions are identified^(2,23).

Tuberculosis and syphilis may present similar sonographic manifestations, and should be considered as differential diagnosis⁽²³⁾. When this disease presents with a focal pattern, the differential diagnosis with other tumor-like lesions is not feasible with ultrasound⁽²⁾.

Splenogonadal fusion

The testicular fusion with splenic tissue is an unusual finding, and may be discontinuous (intratesticular ectopic splenic tissue), or continuous (direct connection between the spleen and gonad by a fibrous cord)⁽²⁶⁾. Clinically, the patients present with an inguinal or scrotal mass; lesions larger than 5 cm have already been described. Frequent associated findings are: hernia, cryptorchism and micrognathia⁽¹⁶⁾.

Intratesticular arteriovenous malformation

An intratesticular arteriovenous malformation is a rare entity, and the differential diagnosis is hemangioma. This condition usually presents like a hypoechoic nodule, and at color Doppler demonstrates a blood flow pattern with low impedance, high diastolic peak velocity, and presence of a drainage vein⁽²⁷⁾.

REFERENCES

Received October 28, 2004.

Accepted after revision February 16, 2005.

1. Roy C, Tuchmann C. Échografie scrotale pathologies non tumorales courantes (part 1). J Radiol 2003;84:581595.
2. Roy C, Tuchmann C. Échografie scrotale pathologies kystiques, tumorales et non tumorales rares (part 2). J Radiol 2003;84:667680.
3. Hobarth K, Susani M, Szabo N, Kratzik C. Incidence of testicular microlithiasis. Urology 1992; 40:464467.
4. Cast JEI, Nelson WM, Early AS, et al. Testicular microlithiasis: prevalence and tumor risk in a population referred for scrotal sonography. AJR Am J Roentgenol 2000;175:17031706
5. Backus ML, Mack LA, Middleton WD, King BF, Winter TC III, True LD. Testicular microlithiasis imaging appearances and pathologic correlation. Radiology 1994;192:781785.
6. Dambro TJ, Stewart RR, Barbara CA. The scrotum. In: Rumack CM, Wilson SR, Charboneau JW, editors. Diagnostic ultrasound. 2nd ed. St Louis: Mosby, 1998;791821.
7. Frush DP, Kliewer MA, Madden JF. Testicular microlithiasis and subsequent development of metastatic germ cell tumor. AJR Am J Roentgenol 1996;167:889890.
8. Diego AC, Rasines GL, Rodriguez RH. Lesiones testiculares que no hay que tocar. Arch Esp Urol 2003;56:255266.
9. Janzen DL, Mathieson JR, Marsh JI, et al. Testicular microlithiasis: sonographic and clinical features. AJR Am J Roentgenol 1992;158:10571060.
10. Abbehusen C, Oliveira JMA, Granero L, Ajzen AS, Szejnfeld J. O valor do ultrassom na microlitíase testicular. Urologia on line 1998;2(5):sp. [citado agosto 2004]. Disponível em: http://www. unifesp.br/dcir/urologia/uronline
11. Dogra VS, Gottlieb RH, Rubens DF, Liao L. Benign intratesticular cystic lesions: US features. RadioGraphics 2001;21 Spec No:S273S281.
12. Rifkin MD, Jacobs JA. Simple testicular cyst diagnosed preoperatively by ultrasound. J Urol 1983;129:982983.
13. Rezende DEL. Cisto simples de testículo: relato de caso e revisão da literatura. Radiol Bras 2001; 34:251252.
14. Yalowitz BR, Eble JN, Wilks DC. Spermatozoa-containing simple cysts of the rete testis. J Urol 1989;142:15721573.
15. Davis RS. Intratesticular spermatocele. Urology 1998;51(SA Suppl):167169.
16. Rubenstein RA, Dogra VS, Seftel AD, Renick MI. Benign intrascrotal lesions. J Urol 2004;171: 17651772.
17. Das KM, Prasad K, Szmigielski W, Noorani N. Intratesticular varicocele: evaluation using conventional and Doppler sonography. AJR Am J Roentgenol 1999;173:10791083.
18. O'Donell PG, Dewbury KC. The ultrasound appearances of intratesticular varicocele. Br J Radiol 1998;71:324325.
19. Atasoy C, Fitoz S. Gray-scale and color Doppler sonographic findings in intratesticular varicocele. J Clin Ultrasound 2001;29:369373.
20. Burrus JK, Lockhart ME, Kenney PJ, Kolettis PN. Cystic ectasia of the rete testis: clinical and radiographic features. J Urol 2002;168(4 Pt 1):14361438.
21. Dogra VS, Gottlieb RH, Oka M, Rubens DJ. Sonography of the scrotum. Radiology 2003;227: 1836.
22. Rouviere O, Bouvier R, Pangaud C, Jeune C, Dawahra M, Lyonnet D. Tubular ectasia of the rete testis: a potential pitfall in scrotal imaging. Eur Radiol 1999;9:18621868.
23. Howlett DC, Marchbank NDP, Sallomi DF. Pictorial review. Ultrasound of the testis. Clin Radiol 2000;55:595601.
24. Luker GD, Siegel MJ. Color Doppler sonography of the scrotum in children. AJR Am J Roentgenol 1994;163:649655.
25. Middleton WD, Siegel BA, Melson GL, Yates CK, Andriole GL. Acute scrotal disorders: prospective comparison of color Doppler US and testicular scintigraphy. Radiology 1990;177:177181.
26. Putschar WG, Manion WC. Splenic-gonadal fusion. Am J Pathol 1956;32:1533.
27. Kutlu R, Alkan A, Soylu A, Sigirci A, Dusak A. Intratesticular arteriovenous malformation: color Doppler sonographis findings. J Ultrasound Med 2003;22:295298.

Mailing Address:

Prof. Dr. Sizenildo da Silva Figueirêdo

Rua Natal, 371

Porto Velho, RO, 78905-120 Brazil

E-mail:

sizenildo@uol.com.br

*

Study developed at Department of Diagnostic Imaging Universidade Federal de São Paulo/Escola Paulista de Medicina, São Paulo, SP, Brazil.

Publication Dates

Publication in this collection
14 Mar 2007
Date of issue
Feb 2007

History

Accepted
16 Feb 2005
Received
28 Oct 2004

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] 1. Roy C, Tuchmann C. Échografie scrotale pathologies non tumorales courantes (part 1). J Radiol 2003;84:581595.

[2] 2. Roy C, Tuchmann C. Échografie scrotale pathologies kystiques, tumorales et non tumorales rares (part 2). J Radiol 2003;84:667680.

[3] 3. Hobarth K, Susani M, Szabo N, Kratzik C. Incidence of testicular microlithiasis. Urology 1992; 40:464467.

[4] 4. Cast JEI, Nelson WM, Early AS, et al. Testicular microlithiasis: prevalence and tumor risk in a population referred for scrotal sonography. AJR Am J Roentgenol 2000;175:17031706

[5] 5. Backus ML, Mack LA, Middleton WD, King BF, Winter TC III, True LD. Testicular microlithiasis imaging appearances and pathologic correlation. Radiology 1994;192:781785.

[6] 6. Dambro TJ, Stewart RR, Barbara CA. The scrotum. In: Rumack CM, Wilson SR, Charboneau JW, editors. Diagnostic ultrasound. 2nd ed. St Louis: Mosby, 1998;791821.

[7] 7. Frush DP, Kliewer MA, Madden JF. Testicular microlithiasis and subsequent development of metastatic germ cell tumor. AJR Am J Roentgenol 1996;167:889890.

[8] 8. Diego AC, Rasines GL, Rodriguez RH. Lesiones testiculares que no hay que tocar. Arch Esp Urol 2003;56:255266.

[9] 9. Janzen DL, Mathieson JR, Marsh JI, et al. Testicular microlithiasis: sonographic and clinical features. AJR Am J Roentgenol 1992;158:10571060.

[10] 10. Abbehusen C, Oliveira JMA, Granero L, Ajzen AS, Szejnfeld J. O valor do ultrassom na microlitíase testicular. Urologia on line 1998;2(5):sp. [citado agosto 2004]. Disponível em: http://www. unifesp.br/dcir/urologia/uronline

[11] 11. Dogra VS, Gottlieb RH, Rubens DF, Liao L. Benign intratesticular cystic lesions: US features. RadioGraphics 2001;21 Spec No:S273S281.

[12] 12. Rifkin MD, Jacobs JA. Simple testicular cyst diagnosed preoperatively by ultrasound. J Urol 1983;129:982983.

[13] 13. Rezende DEL. Cisto simples de testículo: relato de caso e revisão da literatura. Radiol Bras 2001; 34:251252.

[14] 14. Yalowitz BR, Eble JN, Wilks DC. Spermatozoa-containing simple cysts of the rete testis. J Urol 1989;142:15721573.

[15] 15. Davis RS. Intratesticular spermatocele. Urology 1998;51(SA Suppl):167169.

[16] 16. Rubenstein RA, Dogra VS, Seftel AD, Renick MI. Benign intrascrotal lesions. J Urol 2004;171: 17651772.

[17] 17. Das KM, Prasad K, Szmigielski W, Noorani N. Intratesticular varicocele: evaluation using conventional and Doppler sonography. AJR Am J Roentgenol 1999;173:10791083.

[18] 18. O'Donell PG, Dewbury KC. The ultrasound appearances of intratesticular varicocele. Br J Radiol 1998;71:324325.

[19] 19. Atasoy C, Fitoz S. Gray-scale and color Doppler sonographic findings in intratesticular varicocele. J Clin Ultrasound 2001;29:369373.

[20] 20. Burrus JK, Lockhart ME, Kenney PJ, Kolettis PN. Cystic ectasia of the rete testis: clinical and radiographic features. J Urol 2002;168(4 Pt 1):14361438.

[21] 21. Dogra VS, Gottlieb RH, Oka M, Rubens DJ. Sonography of the scrotum. Radiology 2003;227: 1836.

[22] 22. Rouviere O, Bouvier R, Pangaud C, Jeune C, Dawahra M, Lyonnet D. Tubular ectasia of the rete testis: a potential pitfall in scrotal imaging. Eur Radiol 1999;9:18621868.

[23] 23. Howlett DC, Marchbank NDP, Sallomi DF. Pictorial review. Ultrasound of the testis. Clin Radiol 2000;55:595601.

[24] 24. Luker GD, Siegel MJ. Color Doppler sonography of the scrotum in children. AJR Am J Roentgenol 1994;163:649655.

[25] 25. Middleton WD, Siegel BA, Melson GL, Yates CK, Andriole GL. Acute scrotal disorders: prospective comparison of color Doppler US and testicular scintigraphy. Radiology 1990;177:177181.

[26] 26. Putschar WG, Manion WC. Splenic-gonadal fusion. Am J Pathol 1956;32:1533.

[27] 27. Kutlu R, Alkan A, Soylu A, Sigirci A, Dusak A. Intratesticular arteriovenous malformation: color Doppler sonographis findings. J Ultrasound Med 2003;22:295298.