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Miscellaneous

60 Urology Journal   Vol 8   No 1   Winter 2011

Role of Color Doppler Ultrasonography in 
Evaluation of Scrotal Swellings
Pattern of Disease in 120 Patients With Review of Literature

Syed Amjad Ali Rizvi,1 Ibne Ahmad,2 Mohammed Azfar Siddiqui,2 Samreen Zaheer,2
Kaleem Ahmad3

Purpose: To determine the value of color Doppler ultrasonography (CDUS) 
as a routine investigational method for diagnosis of scrotal pathologies.
Materials and Methods: This prospective observational study (case series) 
was carried out over a period of 16 months on 122 patients in the age range 
of 13 to 70 years old, who presented with scrotal swellings. After adequate 
history taking and examination, CDUS was performed. The diagnosis of the 
surgeon and that of radiologist were compared with final outcome, which was 
based on course and outcome of the disease, fine needle aspiration cytology 
results, and operative findings. 
Results: The final diagnoses were epididymitis or epididymo-orchitis (46), 
hydrocele (26), varicocele (16), testicular malignancy (16), orchitis (6), testicular 
torsion (4), spermatic cord injury (2), hematocele (2), and pyocele (2). Color 
Doppler ultrasonography accurately diagnosed all cases of epididymitis or 
epididymo-orchitis, spermatic cord injury, testicular torsion, varicocele, and 
hydrocele (sensitivity 100% and specificity 100%). Of 16 subjects diagnosed 
as testicular malignancy on CDUS, only 14 were subsequently found to have 
malignancy. Two cases of orchitis were wrongly diagnosed as malignancy. 
Similarly, of 6 patients diagnosed as orchitis, 1 was found to have seminoma 
(sensitivity 87.5% and specificity 66.7%). Overall sensitivity of CDUS in 
diagnosing scrotal diseases was 98% while specificity was 66.7%.
Conclusion: Color Doppler ultrasonography is an excellent, a safe, and 
reliable method for evaluating patients with scrotal diseases. It aids in diagnosis 
of testicular tumors and reduces the number of unnecessary exploratory 
operations. It is especially important in conditions like testicular torsion 
where immediate diagnosis is required.

Urol J. 2011;8:60-5.
www.uj.unrc.ir

Keywords: scrotum, color doppler 
ultrasonography, retrospective 

studies

1Department of Surgery, Jawaharlal 
Nehru Medical College, A.M.U., 

Aligarh, India
2Department of Radiodiagnosis, 

Jawaharlal Nehru Medical College, 
A.M.U., Aligarh, India

3Department of Radiodiagnosis, 
B.P. Koirala Institute of Health 

Sciences, Dharan, Nepal

Corresponding Author:
Mohammed Azfar Siddiqui, MD
Department of Radiodiagnosis, 

Jawaharlal Nehru Medical College, 
AMU, Aligarh-202002, India

Tel: +91 971 936 1454 
E-mail: drazfarsiddiqui@gmail.com

Received May 2010
Accepted August 2010

INTRODUCTION
Color Doppler ultrasonography 
(CDUS) is an important tool for 
diagnosis of scrotal diseases because 
of its ability to depict anatomy and 
perfusion in real time.(1) Diagnosis 
of scrotal diseases has always been 
a challenge for the clinician due to 
non-specific signs and symptoms.(2)

The causes of scrotal swelling can 
be classified as acute and non-acute. 
Acute causes include torsion, 
trauma, abscess, and orchitis. Non-
acute causes include hydrocele, 
scrotal hernia, lymphocele, and 
others. Scrotal lesions can also 
be classified as testicular and 
extratesticular. The common 



Ultrasonography in Scrotal Swellings—Rizvi et al

61Urology Journal   Vol 8   No 1   Winter 2011

testicular lesions are torsion, trauma, neoplasms, 
and inflammatory conditions. Extratesticular 
lesions include lesions of the spermatic cord, the 
epididymis, and the scrotal wall. This distinction 
is important because extratesticular masses are 
almost always benign while intratesticular solid 
masses may be malignant. Ultrasonography plays 
a major role in distinguishing intratesticular from 
extratesticular abnormalities. 

MATERIALS AND METHODS
This prospective observational study (case series) 
was conducted in the Jawaharlal Nehru Medical 
College Hospital (JNMCH), AMU Aligarh over 
a span of 16 months from September 2008 to 
January 2010. The study was approved by the 
ethical committee of the hospital and a written 
informed consent was taken from each patient. 

Inguinoscrotal hernia and undescended testis were 
the exclusion criteria. A total of 122 patients in 
the age range of 13 to 70 years old, with scrotal 
pathologies were included in the study. Two 
subjects were lost in the follow-up period. 

After adequate history taking and physical 
examination, CDUS was performed. The patients 
were scanned with the linear color Doppler 
multi-frequency (7 to 9 MHz) transducer using 
LOGIQ 500 (GE Wipro) ultrasound machine 
and sagittal and transverse images were obtained. 
Additional views were also obtained in coronal 
and oblique planes, with the patient being upright 

and performing Valsava maneuver. 

Diagnostic accuracy of CDUS was determined by 
comparing it with the final diagnosis, which was 
based on clinical outcome (ie, positive response 
to medical treatment), operative findings, 
fine needle aspiration cytology (FNAC), and 
histopathological examination results.

RESULTS
The majority of the patients with acute scrotal 
condition were in their 2nd and 3rd decades of life 
whereas those presenting with testicular masses 
were in their 5th and 6th decades.

With the help of CDUS, the diagnoses of 
epididymitis and epididymo-orchitis were made in 
46 out of 52 patients who presented with clinical 
suspicion (Figure 1). All of these 46 patients were 
conservatively managed and follow-up CDUS 
revealed resolution of findings. 

All patients with symptoms of varicocele were 
in their 2nd and 3rd decades of life. Of 14 patients, 
10 were clinically diagnosed with unilateral and 
4 with bilateral varicoceles. These patients were 
subjected to CDUS, which showed multiple 
serpiginous anechoic structures adjacent to upper 
pole of the testis and head of the epididymis with 
venous flow that accentuated on performing 
Valsalva maneuver or making the patient upright 
(Figure 2). Doppler ultrasonography confirmed 
the presence of unilateral varicocele in 8 patients, 

Figure 1. Epididymitis. Longitudinal ultrasonographic image 
of the right testis demonstrates enlarged, thickened, and 
heterogeneous epididymis. Doppler ultrasonography shows an 
increase in vascular flow.

Figure 2. Varicocele. Color Doppler ultrasonography 
demonstrates multiple serpentine vascular channels within 
the scrotum, which become more prominent after Valsalva 
maneuver.



Ultrasonography in Scrotal Swellings—Rizvi et al

62 Urology Journal   Vol 8   No 1   Winter 2011

but detected bilateral varicocele in 2 subjects that 
were clinically diagnosed as unilateral varicocele. 
It also confirmed bilaterallity of varicocele in 4 
patients. Further, 2 patients who presented with 
infertility and had normal scrotum clinically were 
diagnosed as case of varicocele on CDUS. 

Twenty-six patients with clinical suspicion 
of hydrocele were also subjected to CDUS, 
which supported the diagnosis. Color Doppler 
ultrasonography also found hydrocele in 4 
clinically unsuspected subjects. On aspiration, 
only 26 were found to have hydrocele while 
hematocele and pyocele were found in 2 others. 

Four patients were clinically diagnosed as cases of 
testicular torsion. Color Doppler ultrasonography 
showed absent intratesticular blood flow 
confirming the diagnosis. Surgery was done, 
which supported the diagnosis.

Two patients who presented with history of 
trauma to the scrotum were also diagnosed 
as a case of traumatic spermatic cord injury. 
The patients were managed with antibiotics, 
and follow-up examination showed complete 
resolution of inflammatory changes in all the 
patients. Fine needle aspiration cytology was not 
required.

Therefore, we found that CDUS was 100% 
sensitive and 100% specific for diagnosing scrotal 
diseases other than testicular masses (Tables 1 
and 2).

Twenty-two patients who presented with 

enlargement of the scrotum were clinically 
labeled as cases of testicular mass. The size of the 
lesion ranged from 1.1 cm to 5.5 cm. They were 
subjected to CDUS, which showed localized 
involvement in 36.6% and diffuse involvement 
in 63.4%. Increased vascularity was revealed in 
all the subjects, and diagnoses of testicular mass 
and orchitis were made in 16 and 6 patients, 
respectively. Subsequently, all 16 subjects with 
diagnosis of testicular mass were subjected to 
FNAC. Fourteen out of 16 patients turned out 
to be seminoma (Figure 3) while 2 misdiagnosed 
subjects turned out to be orchitis. Six out of 22 
clinically diagnosed cases of testicular mass were 
labeled as orchitis on CDUS (Figure 4). However, 
FNAC results showed one of them to be 
seminoma. Color Doppler ultrasonography was 
87.5% sensitive and 66.7% specific in diagnosing 
testicular masses (Tables 1 and 3). In all confirmed 
cases of seminoma, orchidectomy was performed 
and FNAC diagnoses were comparable to final 
histopathological examination.

Overall sensitivity of CDUS in the diagnosis of 

Lesion Clinical Diagnosis CDUS Diagnosis Intervention Final Outcome
1 Epididymitis/ Epididymo-orchitis 52 46 Antibiotics Epididymitis/ Epididymo-orchitis

46
2 Spermatic cord injury 2 2 Antibiotics Spermatic cord injury

2
3 Testicular torsion 4 4 Surgery Testicular torsion

4
4 Testicular mass 22 Testicular mass – 16 FNAC Seminoma – 14

Orchitis – 2
Orchitis - 6 FNAC Orchitis – 4

Seminoma – 2
5 Varicocele 14 16 --- Varicocele – 16
6 Hydrocele 26 30 Aspiration Hydrocele – 26

Hematocele – 2
Pyocele – 2

Table 1. The clinical diagnosis, CDUS diagnosis, and final outcome*

*CDUS indicates color Doppler ultrasonography; and FNAC, fine needle aspiration cytology.

Doppler
Diagnosis

Final outcome
Total

Disease present Disease absent
Disease present 98 0 98
Disease absent 0 0 0

98 0 98

Table 2. Sensitivity and specificity of color Doppler 
ultrasonography in diagnosis of scrotal diseases other than 
testicular masses

*Sensitivity: 98/ 98 + 0 × 100 = 100%
Specificity: 0/0 + 0 × 100 = 100%



Ultrasonography in Scrotal Swellings—Rizvi et al

63Urology Journal   Vol 8   No 1   Winter 2011

Doppler Diagnosis
FNAC diagnosis*

Total
Positive Negative

Tumor 14 2 16
Non tumor 2 4 6

16 6 22

Table 3. Sensitivity and specificity of color Doppler 
ultrasonography in diagnosis of testicular masses

*FNAC indicates fine needle aspiration cytology.
†Sensitivity: 14/14 + 2 × 100 = 87.5%
  Specificity: 4/4 + 2 × 100 = 66.7%

*Sensitivity: 112/112 + 2 × 100 = 98.0%
Specificity: 4/4 + 2 × 100 = 66.7%

Table 4. Overall sensitivity and specificity of color Doppler 
ultrasonography in diagnosis of scrotal diseases

Doppler
Diagnosis

Final outcome
Total

Disease present Disease absent
Disease present 112 2 114
Disease absent 2 4 6

114 6 120

Figure 3. Seminoma. (a) Longitudinal ultrasonographic image of the right testis demonstrates a diffuse homogeneous mass with scattered
microlithiasis and associated hydrocele. (b) Doppler ultrasonographic image shows a generalized increase in testicular vascular flow.

Figure 4. Orchitis. Color Doppler ultrasonography of the scrotum reveals hypoechoic left testis with markedly increased vascularity, 
compared with normal echogenic right testis showing normal vascularity.



Ultrasonography in Scrotal Swellings—Rizvi et al

64 Urology Journal   Vol 8   No 1   Winter 2011

scrotal diseases was 98% while specificity was 
66.7% (Table 4).

DISCUSSION
Grey scale ultrasonography is a well-established 
modality for diagnosis of scrotal diseases; 
however, the major limitation of conventional 
grey scale ultrasonography is lack of specificity 
for parenchymal changes. Also benign and 
malignant lesions cannot be distinguished on the 
basis of ultrasonography alone.(3) Furthermore, 
in painful scrotum, grey scale ultrasonography 
cannot accurately differentiate testicular torsion 
from epididymo-orchitis. William and colleagues 
studied 5 patients in whom no intratesticular 
blood flow was identified on symptomatic side 
while normal flow was detected on the opposite 
side. However, on grey scale ultrasonography, no 
abnormality could be detected in 3 patients while 
2 subjects had non-specific findings.(4)

Color Doppler ultrasonography has many 
advantages over conventional ultrasonography. 
In addition to detecting non-specific grey scale 
changes that can occur with testicular ischemia, 
it also shows blood flow in testicular arteries. 
Till recently, radionuclide scanning has played 
an important role in evaluation of equivocal 
cases of acute scrotal diseases. It has provided 
useful information regarding scrotal blood 
flow.(5) However, it cannot accurately depict the 
anatomy.(6)

Middleton and associates evaluated 28 
patients with acute scrotal pain by CDUS and 
scintigraphy. While CDUS correctly diagnosed 
all the subjects, scintigraphy failed to reach 
the diagnosis in one.(7) Also CDUS was more 
rapid, non-invasive, and at least as accurate as 
scintigraphy.(8)

Accurate clinical diagnoses of scrotal diseases 
are difficult as most patients present with 
similar signs and symptoms.(2) Color Doppler 
ultrasonography is currently the most important 
imaging modality available for diagnosis of scrotal 
pathologies. It allows accurate evaluation of 
scrotal conditions as well as normal anatomy.

Becker and coworkers concluded a sensitivity 
of 90.5% and specificity of 98.3% in diagnosis of 

testicular torsion.(9) Süzer and colleagues found 
CDUS to be 100% sensitive and 100% specific 
in diagnosis of acute scrotal conditions.(10)
In our study, of 26 patients who had acute 
presentation, 23 were diagnosed with epididymitis 
or epididymo-orchitis. In all the patients, the 
epididymis was enlarged, hypoechoic, and 
hyperemic. In 5 patients, in addition to the 
epididymis, the testis was also hypoechoic and 
hyperemic. Two patients were diagnosed as 
cases of testicular torsion. Both patients showed 
mild enlargement, hypoechoic echotexture, 
and markedly decreased vascularity. Color 
Doppler ultrasonography showed sensitivity and 
specificity of 100%, respectively, in diagnoses 
of inflammatory scrotal diseases and testicular 
torsion. Thus, our observations are comparable 
to previous studies. However, CDUS is not 
without pitfalls. Zoller and associates concluded 
that detection of intratesticular blood flow cannot 
exclude testicular torsion.(11)

Derouet and coworkers observed ultrasonography 
to be 90% sensitive and 55% specific in detection 
of testicular neoplasms(12) whereas Gallardo 
Agromayor and colleagues reported sensitivity of 
100% for ultrsonography in diagnosing testicular 
neoplasm.(13) In the present study, CDUS showed 
a sensitivity of 87.5% and specificity of 66.7% 
in detection of testicular neoplasms, which is 
compatible with the study carried out by Derouet 
and associates. In our series, 90% of seminomas 
appeared as solid, homogenous, hypoechoic, 
and hypervascular lesions compared to normal 
testicular tissue. In our study, all cases of 
varicocele were accurately diagnosed and also one 
patient, who presented with infertility and had no 
findings on clinical examination, was diagnosed 
with varicocele.

Other investigations like magnetic resonance 
imaging can be applied when ultrasonography 
proves inconclusive. Its use in scrotal diseases is 
increasing;(14-16) however, it is more expensive 
and not always available. Nuclear scintigraphy, 
which has high sensitivity and specificity in 
differentiating ischemia from infarction, cannot 
accurately distinguish ischemia from conditions 
such as hydrocele, spermatocele, and inguinal 
hernia and is uncommon due to high accuracy 



Ultrasonography in Scrotal Swellings—Rizvi et al

65Urology Journal   Vol 8   No 1   Winter 2011

of CDUS.(5) Therefore, CDUS with its high 
sensitivity and specificity is the most important 
investigation for diagnosis of scrotal diseases, 
presenting especially in emergency clinical setting.

CONCLUSION
We conclude that CDUS, which can 
simultaneously display scrotal anatomy and 
perfusion, is an excellent, a safe, and reliable 
method for evaluating patients with scrotal 
diseases, whether acute or chronic. It helps to 
improve patient’s management, especially by 
preventing unnecessary surgical exploration. It 
is also convenient and easy to perform. But it 
has its own limitations, including difficulty in 
detecting intratesticular flow in small children and 
requiring adequate expertise and experience.(17) Its 
results are also equipment dependent. 

CONFLICT OF INTERST
None declared.

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