New method can detect early-stage breast cancer in two minutes, study claims

In In The News by Barbara Jacoby

By: University of Waterloo

From: medicalxpress.com

University of Waterloo researchers are pioneering a method to detect breast cancer in women early enough for them to receive life-saving treatment. The innovative technology aims to be more accurate as well as cheaper to provide than today’s most common diagnostic tools such as X-ray mammography, ultrasound and magnetic resonance imaging (MRI).

Test runs have been completed in two minutes and used less energy than a smartphone. It would also be safer than X-rays, which expose patients to high-level radiation that can damage DNA and cause cancer.

The research paper, “Mammography using low-frequency electromagnetic fields with deep learning,” has been published in Scientific Reports.

“We are coming very close to providing a method for at an early stage that is inexpensive and harmless for women,” said Dr. Omar Ramahi, lead researcher and a professor in Waterloo’s Department of Electrical and Computer Engineering. “We’re trying to make a serious contribution to women’s health and create an alternative that is clinically and commercially viable.”

Breast cancer is both the second-most common cancer and the second-leading cause of death from cancer for Canadian women. The sooner a malignant tumor is detected, the better a woman’s chance of survival. Ramahi began exploring new ways to detect early-stage in 2001 and, for the past five years, has been studying the potential of low-frequency .

Ramahi and his research team of current and former Waterloo Engineering students made what he described as “a big discovery,” namely that very low electro-magnetic frequencies “travel in straight lines.”

They are the first to have made this discovery, which has allowed them to create the latest disruption to global and individual health care by Waterloo researchers. Building disruptive technologies is at the core of what we do, and since our inception, Waterloo has been disrupting the boundaries of health.

The diagnostic device they created somewhat mimics X-ray mammography but without its drawbacks. In place of X-rays, low-frequency is emitted from an antenna, like the one found in a smartphone. Once the energy penetrates a patient’s breasts, it is picked up by a metasurface, or circuit board, consisting of end-to-end pixels, each pixel acting as a receiver.

The AI then interprets the pictures coming from the circuit board, removing the need for a human technician to review the results. The technology can locate the size and location of a tumor, even in breasts with dense tissue, something current diagnostic systems can miss.

Ramahi has tested his system on breast phantoms, which are artificial structures designed to emulate the properties of a human female’s breast. “The results are extremely encouraging,” he said, noting that their technology has no competitors.

The researchers’ next steps are to develop a system that, with approval from Health Canada, can be tested on human subjects. Ramahi is seeking funding from institutions and companies as he develops a prototype for manufacturing his technology. His goal is to create a device that is cheap enough for use in all countries around the world and accessible enough for women to use with the same convenience and frequency as in-pharmacy blood pressure testing.