Ultrasound for Primary Breast Screening

By Theresa Pablos, AuntMinnie staff writer

June 11, 2020 -- Could ultrasound be used as a primary screening method for breast cancer? A long-term systematic review published on June 1 in BMC Cancer found ultrasound scans performed well as both a primary and secondary cancer screening modality.

The review, conducted by researchers in China, pooled data from almost two dozen studies evaluating the effectiveness of ultrasound for breast cancer screening. Ultrasound screening performed comparably to mammography in most categories and may work particularly well as a screening method for women with dense breasts, the authors noted.

"Up to now, there have been no consistent conclusions concerning whether [ultrasound] screening should be recommended as the primary screening method for women in the screening guidelines for breast cancer," wrote lead authors Lei Yang and Shengfeng Wang from Peking University in Beijing.

Cancer detection, recall, and biopsy rates

The review included 23 English-language studies published between January 2003 and May 2018. Twelve of the studies evaluated the use of ultrasound as a secondary screening method after a negative mammography result, while the remaining 11 studies compared the effectiveness of ultrasound and mammography as primary screening modalities.

Mammography vs. ultrasound for breast cancer screening
	Mammography, primary screening	Ultrasound, primary screening	Ultrasound, secondary screening
Cancer detection rate per 1,000 examinations	4.6	4.6	3.0
Recall rate	4.6%	5.9%	8.8%
Biopsy rate	1.5%	2.3%	3.9%
Percentage of all cancers detected	65%	68%	N/A
Percentage of invasive cancers detected	65%	87%	74%

The review found no statistically significant differences in sensitivity and specificity between ultrasound and mammography as primary breast cancer screening methods. Mammography detected 65% of cancers, comparable to the 68% of cancers detected through ultrasound scans. Similarly, mammography identified 97% of women without cancer, while ultrasound detected 98% of women without cancer.

Furthermore, both mammography and ultrasound identified 4.6 cancers per 1,000 examinations. Ultrasound scans detected significantly more invasive cancers than mammography, but the modality also resulted in a higher percentage of recalled patents. The researchers found no statistically significant differences between mammography and ultrasound for the percentage of biopsies or for detection of node-negative invasive cancers

When used as a secondary screening method after a negative mammogram result, ultrasound identified 96% of occult breast cancers and 93% of healthy patients. The modality also identified 3 cancers per 1,000 scans, with an 8.8% recall rate and a 3.9% biopsy rate. As a secondary screening method, ultrasound found 74% of invasive cancers and 71% of node-negative invasive cancers.

"Our study is the first systematic review and meta-analysis to investigate the performance of [primary ultrasound] screening for breast cancer, and that is also an important up-to-date systematic review and meta-analysis investigating the performance of [secondary ultrasound] screening," the authors wrote.

Benefits and limitations of ultrasound screening

Ultrasound has some benefits as a breast screening method, including that it is radiation-free and may be more accessible in low-resource countries and areas. However, it is also not without its limitations. For instance, ultrasound cannot image the whole breast at once or show microcalcifications, and it requires a skilled operator.

"However, as shown in our study, these concerns seemed not to cause significant differences in the sensitivity and specificity, or even in cancer detection rates and cancer characteristics between [primary ultrasound] screening and [primary mammography] screening," the authors wrote.

All of the studies in the review were graded as high or fair quality by the authors, but the review itself had some noteworthy limitations. Importantly, some of the ultrasound studies in the review included repeated screenings using the same group of individuals. For the analysis, the authors counted each screening as an individual person, which could have overestimated the benefit of ultrasound screening.

Despite its limitations, the authors noted the findings highlight the need for future studies to investigate the long-term benefits and risks of using ultrasound as a primary breast cancer screening method, particularly for use in women with dense breasts and those who live in rural or resource-poor areas.

"We hope that [ultrasound] screening for breast cancer should deserve more attention in the future, not only because [ultrasound] is comparable to [mammography] in women with dense breasts ... but also because ultrasound is not a radiation modality and is easier to access in low-resource areas, such as Chinese rural areas," the authors concluded.

LIVER 2D-SWE ARTIFACTS

 Two-dimensional shear wave elastography artifacts, although seen very frequently in a clinical setting, are poorly recognized. Our review emphasizes that interpretation of 2D-SWE images must incorporate knowledge of US artifacts.

ULTRASOUND and SARCOPENIA

ABSTRACT

Our aim of this study is to compare the thigh muscle thickness measurements obtained using ultrasound and bioelectrical impedance analysis (BIA) methods, and to investigate the validity and cutoff value of the ultrasonography.

We analyzed a total of 201 participants (99 male and 102 female participants, mean age, 66.2 years) participated in the annual health checkup in the Yakumo Study, 2014. Thigh muscle thickness (TMT, sum of the rectus femoris and vastus intermedius muscle thickness) was measured using ultrasound at mid-thigh in the sitting position. Appendicular skeletal muscle mass (aSMI) was measured using BIA. Cutoff value of TMT was determined through the receiver operating characteristic analysis. We defined sarcopenia with the diagnostic algorithm of Asian Working Group for Sarcopenia.

TMT was significantly reduced in subject with sarcopenia than in those without sarcopenia in both gender. Muscle measurements obtained using the BIA methods (aSMI) and ultrasound methods (TMT) showed a significant correlation, with a correlation coefficient of 0.38 (P < 0.001). Cutoff value, sensitivity, and specificity of TMT in diagnosis of muscle loss were 36 mm, 72.0%, and 73.9%, respectively, for the male participants, and 34 mm, 72.2%, and 72.4%, respectively, for the female participants.

In conclusion, the ultrasonography for thigh muscle might be a simple diagnostic method for sarcopenia.

Keywords: ultrasonography, thigh muscle thickness, sarcopenia, community-dwelling people, cut-off value

C B F in Neonatal Sepsis

 Abstract
Background: Neonatal sepsis is an important cause of morbidity and mortality among newborns. As there is paucity of literature regarding early alteration of the cerebral blood flow (CBF) in neonatal sepsis our study aims to evaluate the changes in the CBF velocities and Doppler indices in neonates with early‑onset neonatal sepsis (EONS) and to evaluate the predictive accuracy of cerebral blood flow velocities (CBFV) by using ultrasound Doppler as a diagnostic marker of EONS.
Methods: This cross‑sectional analytical study was conducted over a period of 2 years with 123 neonates enrolled in the study. The neonates were divided into two groups: Group I (with 54 neonates) ‑ neonates with EONS and group II (with 69 neonates) ‑ age‑matched neonates without any signs of sepsis. Ultrasound Doppler examination was performed and the cerebral hemodynamics assessed in neonates during the first seventy two hours of life. Doppler indices and CBFV were measured in the internal carotid artery (ICA), middle cerebral artery (MCA), and vertebral artery (VA) of either side. Data were analyzed using the statistical program SPSS version 23.0 (SPSS Inc., Chicago, IL, USA). Sensitivity, specificity, positive predictive value (PPV), negative predictive value (NPV), and diagnostic accuracy were calculated at different selected cutoff values for CBFV parameters.
Results: Lower resistance and higher peak systolic velocity and end diastolic velocity have been documented in neonates with EONS.
Conclusion: Our study shows that the cerebral hemodynamics in neonates with EONS is altered which can be assessed bedside by noninvasive ultrasound Doppler examination.

PoCUS for Syncope

Point-of-care ultrasound to complete physical exam and to reach the diagnosis in a young man with syncope

• Fatemeh Rasooli, 
• Mehrnoosh Aligholi Zahraie & 
• Maryam Bahreini 

The Ultrasound Journal volume 12

Abstract

Background

Cardiac syncope can result from an atrial myxoma due to outflow obstruction. Myxoma is the most common primary cardiac tumor that may cause sudden death and the nonspecific symptoms may make early diagnosis difficult.

Case presentation

A 27-year-old man presented to our emergency department after two episodes of syncope and severe fatigue. He had no complaint of fever, weight loss, sweating, chest pain or dyspnea. Vital signs were within normal limits. A loud heart S1 was detected and normal neck veins. Other systemic examinations including neurological assessment were normal. Electrocardiography showed normal sinus rhythm. An obvious variability in heart rate was noticed on cardiac monitor changing by the patient’s position. Point-of-care ultrasonography (PoCUS) showed a large hyperechoic lesion with a well-defined stalk originating from the left atrium (LA). Thus, the patient was transferred to a cardiac surgery center for surgical intervention. Histopathology reported an LA mass compatible with myxoma.

Conclusions

Emergency physicians should be familiar with the vague presentations of cardiac tumors to improve patient outcomes. It is beneficial to take advantage of bedside ultrasound for prompt diagnosis and subsequent treatment.