FDA Approves Ultrasound Device to Detect Breast Cancer in Dense Breast Tissue

Article

The FDA has approved an ultrasound device shown to be capable of detecting small masses in dense breasts. The device is indicated for use in combination with mammography for breast cancer screening.

The US Food and Drug Administration (FDA) has approved an ultrasound device shown to be capable of detecting small masses in dense breasts. The device, the somo-v Automated Breast Ultrasound System (ABUS), is indicated for use in combination with mammography for breast cancer screening.

“A physician may recommend additional screening using ultrasound, for women with dense breast tissue and a negative mammogram,” said Alberto Gutierrez, PhD, director of the office of in vitro diagnostic device evaluation and safety at the FDA’s Center for Devices and Radiological Health, in a press release. “The somo-v ABUS is a safe and effective breast ultrasound tool when such screening is recommended.”

The study that led to the approval involved the asymptomatic cases of 200 women with dense breasts from a prospective multicenter registry. The patients were screened with both mammography and somo-v ABUS. Board-certified radiologists reviewed either mammography alone or with the somo-v ABUS images. Biopsies were performed to confirm cases of cancer. The study found that the use of the ultrasound device improved cancer detection with an area under the curve of 0.75 compared with 0.60 for mammography alone, a 24% increase over mammography alone (P < .001).

Using somo-v ABUS in addition to mammography improved the true positive rate by 30%; the rate of false positives was increased by 4%.

Dense breasts have a high amount of fibroglandular tissue compared to less-dense breasts (which have a high amount of fatty tissue), and are associated with an increased risk of breast cancer. On mammograms of dense breasts, both breast tumors and fibroglandular tissue appear as solid white areas on mammograms, obscuring smaller tumors. Detection usually occurs at a more advanced stage of disease.

About 40% of women who undergo screening have dense breasts, according to estimates from the National Cancer Institute.

In ultrasound imaging, which can detect small masses in dense breast, a transducer directs high-frequency sounds waves toward the area of the body being evaluated. The specially shaped transducer of the somo-v ABUS can scan an entire breast in about a minute, producing several images for review.

Prior surgery, or procedures such as a biopsy, can alter the appearance of breast tissue in an ultrasound image. The the somo-v ABUS is therefore approved for use in patients who have not had previous clinical breast intervention.

The FDA has required that U-Systems Inc, the manufacturer of the somo-v ABUS, train physicians and technologists who will use the new device.

Recent Videos
Heather Zinkin, MD, states that reflexology improved pain from chemotherapy-induced neuropathy in patients undergoing radiotherapy for breast cancer.
Study findings reveal that patients with breast cancer reported overall improvement in their experience when receiving reflexology plus radiotherapy.
Patients undergoing radiotherapy for breast cancer were offered 15-minute nurse-led reflexology sessions to increase energy and reduce stress and pain.
Whole or accelerated partial breast ultra-hypofractionated radiation in older patients with early breast cancer may reduce recurrence with low toxicity.
Ultra-hypofractionated radiation in those 65 years or older with early breast cancer yielded no ipsilateral recurrence after a 10-month follow-up.
The unclear role of hypofractionated radiation in older patients with early breast cancer in prior trials incentivized research for this group.
Patients with HR-positive, HER2-positive breast cancer and high-risk features may derive benefit from ovarian function suppression plus endocrine therapy.
Paolo Tarantino, MD discusses updated breast cancer trial findings presented at ESMO 2024 supporting the use of agents such as T-DXd and ribociclib.
Paolo Tarantino, MD, discusses the potential utility of agents such as datopotamab deruxtecan and enfortumab vedotin in patients with breast cancer.
Paolo Tarantino, MD, highlights strategies related to screening and multidisciplinary collaboration for managing ILD in patients who receive T-DXd.
Related Content