Can a New Blood Test Predict Future Breast Cancer?

blood vessel artery vein

What You Need to Know: By analyzing a simple blood sample, scientists have succeeded in predicting if a woman will get breast cancer within two to five years. The method — a metabolic blood profile — is still in the early stages but over time the scientists expect it could be used to predict breast cancer and more generally to predict chronic disease.

“The method is better than mammography, which can only be used when the disease has already occurred. It is not perfect, but it is truly amazing that we can predict breast cancer years into the future,” said Rasmus Bro, a professor of chemometrics in the Department of Food Science at University of Copenhagen. He stressed the method has been tested and validated only for a single population (cohort) and needs to be validated more widely before it can be used practically.

Food science showed the way

The researchers’ approach to developing the method was adopted from food science, where it is used for control of complex industrial processes. Basically, it involves handling and analysing huge amounts of biological data in a holistic and explorative way. The researchers analysed all compounds a blood sample contains instead of — as is often done in health and medical science — examining what a single biomarker means in relation to a specific disease. The model does not reveal anything about the importance of the single biomarkers in relation to breast cancer, but it does reveal the importance of a set of biomarkers and their interactions.

“No single part of the pattern is actually necessary nor sufficient. It is the whole pattern that predicts the cancer,” said Professor Dragsted.

A metabolic blood profile describes the amounts of all compounds (metabolites) in our blood. The scientists measured metabolic blood profiles for this project. When you are in a pre-cancer state, the pattern for how certain metabolites are processed apparently changes.

While a mammography can detect newly developed breast cancer with a sensitivity of 75 per cent, the new metabolic blood profile is able to predict the likelihood of a woman developing breast cancer within the next two to five years with a sensitivity of 80 per cent.

Based on population study

The research is based on a population study of 57,000 people followed by the Danish Cancer Society over 20 years. The participants were first examined in 1994-96, during which time their weight and other measurements were recorded and they answered a questionnaire. They also provided a blood sample that was stored in liquid nitrogen.

The scientists used the 20-year-old blood samples and other available data from 400 women who were healthy when they were first examined but who were diagnosed with breast cancer two to seven years after providing the first sample, and from 400 women who did not develop breast cancer.

The method was also used to test a different dataset of women examined in 1997. Predictions based on the new set of data matched the first dataset, which indicates the validity of the model.

I’m Dr. Michael Hunter, and that is your glimpse into the future.

The small print: The material presented herein is informational only, and is not designed to provide specific guidance for an individual. Please check with a valued health care provider with any questions or concerns. As for me, I am a Harvard- , Yale- and UPenn-educated radiation oncologist, and I practice in the Seattle, WA (USA) area. I feel genuinely privileged to be able to share with you. If you enjoyed today’s offering, please consider clicking the follow button at the bottom of this page.

References:

  • Faculty of Science – University of Copenhagen. “New blood test can predict future breast cancer.” ScienceDaily. ScienceDaily, 15 April 2015. <www.sciencedaily.com/releases/2015/04/150415103154.htm>.
  • Rasmus Bro, Maja H. Kamstrup-Nielsen, Søren Balling Engelsen, Francesco Savorani, Morten A. Rasmussen, Louise Hansen, Anja Olsen, Anne Tjønneland, Lars Ove Dragsted. Forecasting individual breast cancer risk using plasma metabolomics and biocontours. Metabolomics, 2015; DOI: 10.1007/s11306-015-0793-8