Panacea Journal of Medical Sciences 2021;11(3):527–532

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Panacea Journal of Medical Sciences

Journal homepage: http://www.pjms.in/  

 

Original Research Article

Role of spectral doppler in evaluation of palpable breast masses in co-relation with
ultrasound guided FNAC

Jeevika MU1, Mahesh BG1,*, Harikiran Reddy1, Yashas Ullas L2,
Mounisha Kethineni1
1Dept. of Radiodiagnostics, JJM Medical College, Davangere, Karnataka, India
2Dept. of Radiodiagnostics, Sri Devaraj Urs Medical College, Kolar, Karnataka, India

 

 

A R T I C L E I N F O

Article history:
Received 05-02-2021
Accepted 21-04-2021
Available online 24-11-2021

Keywords:
Breast ultrasound
Resistive index
Pulsatality index spectral doppler and
Ultrasound guided FNAC.

A B S T R A C T

Background: Breast disease is one of the most common complaints of females belonging to any age
group. The breast masses range from benign to malignant. Breast carcinoma is the second most common
cause of mortality in females. Therefore, early diagnosis is important for better management. The aim of
this study is to assess the value of flow velocity and RI, in evaluating solid breast masses, to compare it with
pathology results, and to determine specific gray scale characteristics with Doppler parameters of lesion
with FNAC correlation in differentiating benign from malignant lesions.
Materials and Methods : This prospective study was conducted at Department of Radio-Diagnosis, Bapuji
Hospital & Chigatere General Hospital, Davangere attached to Jaya Jagadhguru Murugarajendra Medical
College, Davangere. Total number of subjects selected for the study was 50 patients of age ranging between
17-56 years. Initially sonography was performed and data was obtained. Then tissue diagnosis was obtained
in all 50 cases and and final diagnosis was obtained. Patients who are referred to ultrasound with palpable
breast masses were included in this study. The detailed physical and clinical examination was done for
all the study subjects, in addition to sonography and histopathological examination. In this study all US
examinations were performed with a 6-13 MHz high frequency linear-array transducer of volusen E6
model. FNAC/Surgical Biopsy of these ultrasonographically detected breast lesions were done. FNAC of
breast lesions were done under ultrasound guidance. FNAC was avoided in those patients with prolonged
BT, CT, PT and decreased platelets counts. After correction of these abnormalities, patients were subjected
to FNAC.
Results: In the present study, spectral doppler shows sensitivity of 92% and specificity of 96% in
diagnosing breast lesions when compared with FNAC. In the present study, benign tumor was seen in
26 cases and malignant tumor was observed in 24 cases. Compared with benign, malignant tumor showed
significantly increased RI, PI and Vmax. USG diangosis of Palpable Breast Masses showed that, carcinoma
was seen in 23 (46%), Fibroadenoma 14 (28%), Abscess and Phyllodes Tumour in 5 (10%) cases each and
Galactocoele in 1 (2%) case. In the current study, FNAC diagnosis of palpable breast masses showed that,
Fibroadenoma in 16 (32%) cases, IDC in 13 (26%) cases, IDC with Metastatic Lymphadenopathy and
Carcinoma in 5 (10%) cases each, Abscess in 3 (6%), Galactocoele and lipoma in 2 (4%) cases each,
Benign Papillary Neoplasm and Infiltrating Ductal Carcinoma G-II in 1 (2%) case each. Clinical diagnosis
of palpable breast masses showed that, carcinoma was observed in 27 (54%) cases, Fibroadenoma 20 (40%)
cases, Galactocoele in 2 (4%) cases and Metastalgia in 1 (2%) cases.
Conclusion: Ultrasound with colour Doppler is safe, relatively inexpensive, widely available, free of
radiation hazards, non-invasive essential modality for evaluation of breast lesions and should be one of the
first investigations for evaluating a breast lesion before proceeding to aggressive invasive procedures.

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528 Jeevika MU et al. / Panacea Journal of Medical Sciences 2021;11(3):527–532

1. Introduction

Breast cancer is the leading cause of deaths (15%) among
females in developed and developing countries worldwide,
with over 1 million new cases in the world each year.
Though breast cancer is thought to be a disease of developed
countries, the 50% of cases and 58% of deaths occur in
developing countries. Detection of cancer in the early stage
can improve the survival of patients and cancer control can
be achieved. 1

According to WHO in India about 1 lakh new patients
with breast cancer are diagnosed annually and an estimated
70,218 Indian women die due to breast cancer every year.
Early diagnosis of breast cancer remains to be pivotal in
reducing the number of deaths due to breast cancer. FNAC
of breast masses was first introduced by Martin and Ellis
long back in 1930 and this can be used for diagnosis of
breast lesions. 2

Age standardised cancer mortality trends was found
highest for breast cancer when compared to all other cancers
in India. Breast cancers usually presents as a lump or mass
in the breast. It is a major concern to the patient and it need
to be evaluated as early as possible. 3 “Lump” in breast, is
therefore, a cause of great anxiety both to the patient and
family members. The main motive behind the evaluation of
such a newly detected palpable lump is basically to rule
out malignancy. Evaluation of breast lumps involves the
rational use of a detailed history, clinical breast examination,
imaging modalities and tissue diagnosis. 4

Though the final diagnosis is made by histopathological
examination of the excised tissue, routine excision of all
breast lumps would not be rationale, because as much as
80% of lumps are benign. Thus the need is the utilisation
of less invasive and cost effective method(s) of diagnosis
without resorting to a more painful and invasive surgical
biopsy. The modality should also be acceptable to the
patient, accurate, easy to apply, reproducible and must not
need too much preparations. 5

Given the common occurrence of breast cancer and the
importance of accurately diagnosing a clinically palpable
breast lump, with non-invasive techniques without routinely
resorting to formal biopsy which is much invasive, the study
is proposed to evaluate the accuracy of Ultrasonography
(USG) and Fine Needle Aspiration Cytology (FNAC) in the
diagnosis of newly detected clinically palpable breast lumps
in comparison to the final histopathological (HPE) report of
the biopsied specimens. Although the accuracies of FNAC
and Ultrasonography in the diagnosis of breast lumps have
been tested individually in other studies, study comparing
FNAC and Ultrasonography using upon the same population
is not reported in literature. Our study is designed to
compare the results of FNAC and Ultrasonography in the
diagnosis of newly detected clinically palpable breast lumps

* Corresponding author.
E-mail address: maheshgurappa18@gmail.com (Mahesh BG).

in the same population. 6 There is a need to correlate
the radiological and cytological findings of breast lesions
with histopathological diagnosis to evaluate the diagnostic
accuracy of sonomammography andbreast FNAC. Study
aimed to correlate radiological and cytological findings of
breast lesions with histopathological diagnosis.

2. Materials and Methods

This prospective study was conducted at Department
of Radio-Diagnosis, Bapuji Hospital & Chigatere
General Hospital, Davangere attached to Jaya Jagadhguru
Murugarajendra Medical College, Davangere. The duration
of study was December 2018 to September 2020. The study
has been approved by the Institutional Ethics Committee of
JJM Medical College.

Total number of subjects selected for the study was
50 patients of age ranging between 17-56 years. Initially
sonography was performed and data was obtained. Then
tissue diagnosis was obtained in all 50 cases and final
diagnosis was obtained. Patients who are referred to
ultrasound with palpable breast masses were included in
this study. Already diagnosed cases and patients not willing
to give consent were excluded from the study. The detailed
physical and clinical examination was done for all the study
subjects, in addition to sonography and histopathological
examination. In this study all US examinations were
performed with a 6-13 MHz high frequency linear-array
transducer of volusen E6 model. FNAC/Surgical Biopsy
of these ultrasonographically detected breast lesions were
done. FNAC of breast lesions were done under ultrasound
guidance. FNAC was avoided in those patients with
prolonged BT, CT, PT and decreased platelets counts. After
correction of these abnormalities, patients were subjected to
FNAC.

2.1. Statistical analysis

Categorical data was represented in the form of frequency
and percentage. Chi Square test was used to know the
association between variables and Fisher’s exact test for
all 2 x 2 tables where P value of chi square test was not
valid due to small counts.Quantitative data was represented
as Mean±SD. Analysis of quantitative data was done using
unpaired t-test. Histopathological findings were correlated
with ADC values for diagnoses. Sensitivity, specificity,
positive predictive validity, negative predictive validity
accuracy of the test findings will be calculated. ROC curve
will be applied to know the area covered for the accuracy.
P-value of <0.05 was considered statistically significant.
Analysis was done by using IBM SPSS software Version
22.



Jeevika MU et al. / Panacea Journal of Medical Sciences 2021;11(3):527–532 529

3. Results

In the present study, receiver operating curve (ROC) for
USG suggest the excellent sensitivity with 92% and with
specificity with 96% in diagnosing breast lesions is shown
when compared with FNAC which is considered as gold
standard (Table 1).

In the present study, it was found that mean score
of malignant cases found significantly higher than benign
cases.

In the present study, benign tumor was seen in
26 cases and malignant tumor was observed in 24
cases. Compared with benign, malignant tumor showed
significantly increased RI, PI and Vmax (Table 2).

In the present study, USG diangosis of Palpable Breast
Masses showed that, carcinoma was seen in 23 (46%),
Fibroadenoma 14 (28%), Abscess and Phyllodes Tumour
in 5 (10%) cases each and Galactocoele in 1 (2%) case
(Table 3)

In the current study, FNAC diagnosis of palpable breast
masses showed that, Fibroadenoma in 16 (32%) cases, IDC
in 13 (26%) cases, IDC with Metastatic Lymphadenopathy
and Carcinoma in 5 (10%) cases each, Abscess in 3 (6%),
Galactocoele and lipoma in 2 (4%) cases each, Benign
Papillary Neoplasm and Infiltrating Ductal Carcinoma G-II
in 1 (2%) case each (Table 4).

In the present study, Clinical diagnosis of palpable breast
masses showed that, carcinoma was observed in 27 (54%)
cases, Fibroadenoma 20 (40%) cases, Galactocoele in 2
(4%) cases and Metastalgia in 1 (2%) cases (Table 5).

4. Discussion

Patients with palpable breast masses commonly present for
imaging evaluation. 7 Breast cancer is the most common
cancers in the world among women.1 Fine Needle
Aspiration Cytology (FNAC) for the diagnosis of breast
masses. FNAC of breast lump is now a well-established
modality for accurately determining the nature of breast
lumps. Ultrasound is also useful in evaluation of breast
lesions. Breast ultrasound is now a well-established method
and several studies have suggested that sonomammography
can be useful in differentiating between benign and
malignant lesions presenting as breast masses. 8

The purpose of this study was to compare the result
of breast FNAC and breast ultrasound with histological
diagnosis to assess its diagnostic accuracy. Early screening
and diagnosis of breast lesions and categorization into
different groups of breast pathology can be helpful in
accurate management of the breast lesions. In a study done
by Wasan et al breast ultrasound had a sensitivity of 100%,
specificity of 91.6 which is comparable to our study in
which the sensitivity was 90.6% and specificity was 97.8%.
Benign lesions of the breast were more readily diagnosed by
ultrasound than malignant lesions. 9

According to Nandan Kumar et al the sensitivity and
specificity of breast ultrasound in categorising breast lesions
as benign and malignant was 85.4% and 89.31%, which is
slightly lesser compared to our study. 10 Studies done by
Puja B. Jarwani et al 11 and Ambedkar Raj, Kulandai Velu
et al, 12 showed that breast FNAC had a sensitivity ranging
from 82% to 97.5% and specificity of more than 99%, which
is comparable to our study. Study done by Shanmugasamy
K et al showed that the sensitivity, specificity and diagnostic
accuracy of breast FNAC in diagnosis of malignancy was
93.5%, 100% and 98.3% respectively.

Mammography and sonography have been used in
attempt to reduce the biopsy rate. However, mammography
has not yet become widely available, is time consuming,
costly and presents with radiation hazards. Hence, now a
days the technique of breast ultrasonography is evolving
as a new modality in diagnosis and management of breast
diseases. In the present study fibroadenoma accounted for
maximum number of cases i.e. 16 (32%).

Starvas AT et al studied 750 breast lesions
and fibroadenoma accounted for 338 (48%) of all
lesions. 13 Fibroadenoma represents the most common
benign tumour of young age group. Freely mobile mass
(mouse in breast) is its classical presentation. In the present
study, 18 cases were below 30 years of age. Fornage et al.
studied sonographic patterns of 100 fibroadenomas, 71%
of the lesions were homogenous, whereas 295 showed
a variable degree of texture inhomogeneity, 90% were
hypoechoic, 4% hyperechoic, 2% had mixed pattern, 1%
anechoic and 1% isoechoic. 14

In the present study, out of 16 fibroadenoma, 12
(75%) were hypoechoic and 4(25%) were of mixed
echogenicity. In the same study, 57% of the lesions had
regular margins, 16% had lobulated margins, whereas 25%
had irregular margins. In the present study, out of 16
fibroadenomas, 12 (75%) had regular margins and 4(25%)
had lobulated margins. In 1983, Beuglet C et al. Studied
2000 sonomamograms, 73% of the lesions showed acoustic
enhancement. 15

The present study, out of 3 cases of breast abscess, 2
were lactating mothers and 1 was post-traumatic. All 3 cases
were hypoechoic, with irregular and ill-defined margins,
internal echoes and showed posterior acoustic enhancement.
Ultrasound guided aspiration was done in all 3 cases. In
1 case, abscess was drained surgically and findings were
confirmed. Phyllodes tumour tends to occur at around 30
years of age. In the present study, 2 cases of phyllodes
tumour were encountered. The present study, two cases
of lipoma were studied. It was diffuse homogeneous mass
lesion with echogenicity higher than normal breast. Soskia
et al. performed 500 breast examination, out of which
18% were non-palpable and 8% were palpable masses.
In their study they found that lipoma had medium level,
homogeneous echoes with thin peripheral capsules. 16



530 Jeevika MU et al. / Panacea Journal of Medical Sciences 2021;11(3):527–532

Table 1: Area under the curve forUSG

Area Std. Error Asymptotic (p-value)
Asymptotic 95% Confidence Interval

Lower Bound Upper Bound
.940 .039 .000 .863 1.000

Table 2: Means score comparison of Age, RI, PI andVmax among benign and malignant
Group N Mean Std. Deviation Mean Difference

Age (years)
Benign 26 34.5 15.1 -18.96
Malignant 24 53.5 8.9 p-value=.000*

RI
Benign 26 .60 .07 -.16
Malignant 24 .77 .08 p-value=.000*

PI
Benign 26 .83 .21 -.65
Malignant 24 1.4 .21 p-value=.000*

V max (ms-1)
Benign 26 .09 .05 -.20
Malignant 24 .29 .08 p-value=.000*

*statistically significant

Table 3: USG diagnosis of palpable breast masses
USG Diagnosis Frequency Percent
Abscess 5 10.0
Carcinoma 23 46.0
Fibroadenoma 14 28.0
Galactocoele 1 2.0
Lipoma 2 4.0
Phyllodes Tumour 5 10.0
Total 50 100.0

Table 4: FNAC diagnosis of palpable breast masses
FNAC Diagnosis Frequency Percent
Abscess 3 6.0
Benign Papillary Neoplasm 1 2.0
Fibroadenoma 16 32.0
Galactocoele 2 4.0
Lipoma 2 4.0
Phyllodes Tumor 2 4.0
IDC 13 26.0
IDC with Metastatic Lymphadenopathy 5 10.0
Infiltrating Ductal Carcinoma G-II 1 2.0
Carcinoma 5 10.0
Total 50 100.0

Table 5: Clinical diagnosis of palpable breast masses
Clinical Diagnosis Frequency Percent
Carcinoma 27 54.0
Fibroadenoma 20 40.0
Galactocoele 2 4.0
Metastalgia 1 2.0
Total 50 100.0



Jeevika MU et al. / Panacea Journal of Medical Sciences 2021;11(3):527–532 531

Infiltrating ductal carcinoma is the most common and
lethal form of breast cancer accounting for 65-85% of
invasive cancer. In the present study we came across 24
(44%) malignant lesions, out of which 13 are IDC, 5 are
IDC with metastatic lymphadenopathy, 1 is IDC with grade
II and 5 are other carcinomas.

Power Doppler sonography was performed with color
box adjusted to include the lesion and a small margin of
normal breast tissue. The color sensitivity was adjusted so
that only the background color was suppressed and small
vessels could be detected. During the exploration, care was
taken to apply as little pressure as possible with the probe to
prevent vessels from collapsing. The exploration with power
Doppler sonography was considered positive if atleast one
vessel was depicted within the lesion and it showed an
arterial flow pattern when pulsed Doppler imaging was
used. If intralesional vascularization was detected then pulse
wave Doppler sonography was performed to obtain spectral
waveforms. The resistive index (RI) and pulsatility index
(PI) were calculated for all these waveforms. The RI value
is calculated as (peak systolic velocity (PSV) - end diastolic
velocity (EDV) / PSV. The PI values was calculated as (peak
systolic velocity – minimum diastolic velocity)/ (mean
velocity). The calculations were done automatically using
the equipment’s inbuilt software. In our study, RI values
equal to or greater than 0.67 and PI values greater than 0.85
were considered significant.

5. Conclusion

Ultrasound is a safe and effective method for evaluation
of breast lesion. In maximum number of cases the
synchronized evaluation and characterization of breast
lesion by ultrasound will help in overall assessment of
breast lesions. Taking into consideration the physical
findings and the woman breast cancer risk profile (age,
personal history, family history of breast cancer) along
with sonographic features of breast lesion will help in
reaching a probable diagnosis of the lesion and play a vital
role in management of the patient. Non-invasive procedure
like ultrasound is essential before proceeding to invasive
procedures. The identification of common lesion like breast
cyst by ultrasound which has a diagnostic accuracy of 100%
obviates the need for any further intervention.

Among remaining lesions, even slightly doubtful
features on ultrasound should be subjected to histological
diagnosis as ultrasound cannot accurately differentiate
all benign lesions from malignant lesions. Management
of a solid breast lesion depends on its ultrasonographic
features whether to go for FNAC/BIOPSY or follow-up
sonomammography.

In colour Doppler study of solid lesions, a greater number
of malignant lesions showed vascularity as compared to
benign lesions. But even presence of vascularity cannot be
used as a definite criterion to diagnose a lesion as malignant

as some benign lesions do show vascularity. Ultrasound and
colour Doppler though not 100% accurate in differentiating
benign from malignant lesion, when grey scale findings are
used along with colour Doppler, will definitely help the
clinician to decide the further management of the lesion.
Thus, ultrasound with colour Doppler is safe, relatively
inexpensive, widely available, free of radiation hazards,
non-invasive essential modality for evaluation of breast
lesions and should be one of the first investigations for
evaluating a breast lesion before proceeding to aggressive
invasive procedures.

6. Sources of Funding

No financial support was received for the work within this
manuscript.

7. Conflicts of Interest

No conflicts of interest.

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Author biography

Jeevika MU, Professor and HOD

Mahesh BG, Post Graduate Student

Harikiran Reddy, Associate Professor

Yashas Ullas L, Post Graduate Student

Mounisha Kethineni, Post Graduate Student

Cite this article: Jeevika MU, Mahesh BG, Reddy H, Ullas L Y,
Kethineni M. Role of spectral doppler in evaluation of palpable breast
masses in co-relation with ultrasound guided FNAC. Panacea J Med Sci
2021;11(3):527-532.

http://dx.doi.org/10.1002/1097-0142(19870815)60:4<765::aid-cncr2820600410>3.0.co;2-5
http://dx.doi.org/10.1002/1097-0142(19870815)60:4<765::aid-cncr2820600410>3.0.co;2-5
http://dx.doi.org/10.2214/ajr.147.3.479