You are here
July 17, 2018
Technique may improve detection of breast tumors
At a Glance
- A small study found that a fast, safe, and more comfortable alternative to mammography provided enough detail for early breast tumor detection.
- The results suggest a method for detecting breast tumors earlier and more often, creating a higher chance of survival聽for patients.
About 1 out of every 8 women nationwide will develop invasive breast cancer at some point in their lives. It is the second most common type of cancer to affect women. Detecting breast cancer as early as possible is crucial for increasing the chance of survival. However, many women avoid getting screened with the current breast cancer screening method, mammography. Mammography can be uncomfortable or painful. Mammograms also don鈥檛 always reveal early tumors in denser breast tissue.
Researchers have been developing a new method for detecting breast cancer called photoacoustic computed tomography (PACT). The technique uses harmless pulses of laser light to penetrate the breast tissue. This聽causes聽a type of sound wave called photoacoustic waves to spread through the tissue. These waves can be measured by sensors surrounding the breast. Blood vessels react to the light differently, providing contrast that聽allows PACT to form clear images of the breast鈥檚 blood vessel network. This approach can be used to spot tumors because tumor growth depends on blood vessels.
Previous forms of PACT have been limited by long scan times and other factors that lower image quality. Recently, a research team led by Dr. Lihong V. Wang at the California Institute of Technology developed a system called single-breath-hold PACT (SBH-PACT) that overcomes these limitations. The work was supported by NIH鈥檚 最新麻豆视频 Institute of Biomedical Imaging and Bioengineering (NIBIB) and other NIH components. Results were published in Nature Communications on June 15, 2018.
To test the technique, the researchers enrolled one healthy volunteer and seven female patients with breast cancer in a clinical study. The participants had a range of skin pigmentations and breast sizes. For the scan, a soft agar pillow was used to compress the women鈥檚 breast to her chest while she laid down. A laser was shone through the breast from beneath the bed. Sensors surrounding the breast detected the resulting photoacoustic waves, and this data was used to map the blood vessels within. This system generated 2-D or 3-D images of the entire breast while the women held their breath for聽15 seconds.
In the healthy volunteer, SBH-PACT produced a clear 3-D image of the blood vessel network throughout the entire breast. In the patients with聽breast cancer, SBH-PACT revealed eight of the nine tumors using the higher blood vessel densities of the tumors. The team was able to detect the ninth tumor using聽SBH-PACT to measure 鈥渆lastographic鈥 changes in breast tissue. Breast tumors are less elastic than normal breast tissue, so regions that changed less during breathing indicated tumors. This measurement could be taken in 2-D mode in about ten seconds.
Both blood vessel density and tissue compliance were measured with the SBH-PACT system in about 30 seconds. Together, these two measurements can provide a quick and safe method to detect breast cancer. However, trials with more women are needed to confirm these findings. A company founded by Wang has licensed the technology and is now planning larger studies.
鈥淏ecause of the detailed images created by PACT, we are looking at other uses such as assessment of the blood vessel damage in diabetics,鈥 Wang says. 鈥淭he severe vascular damage and death of leg and foot tissues in diabetics is a major health problem that could be significantly improved by early detection and treatment.鈥
Related Links
- MRI Increases Detection of Second Cancer in Opposite Breast
- New Insights Into Breast Cancer
- Blood Test Detects Several Cancer Types
References: Lin L,聽Hu P,聽Shi J,聽Appleton CM,聽Maslov K,聽Li L,聽Zhang R,聽Wang LV. Nat Commun.聽2018 Jun 15;9(1):2352. doi: 10.1038/s41467-018-04576-z. PMID:29907740.
Funding: NIH鈥檚 最新麻豆视频 Institute of Biomedical Imaging and Bioengineering (NIBIB) and 最新麻豆视频 Cancer Institute (NCI), NIH Director鈥檚 Pioneer Award, and NIH Director鈥檚 Transformative Research Award.