A new type of blood test can accurately identify different types of breast cancer — meaning patients can be matched to the correct treatment without the need for a biopsy.
Researchers have shown that the blood test, called Breast Circulating Methylation Assay (BCMA), can track a cancer’s type with time and pick up if it has changed – meaning that treatment can be quickly adapted.
There are many different types of breast cancer, for example, oestrogen receptor positive, human epidermal growth factor receptor 2 positive (ER+/HER2+) breast cancer, which accounts for one in ten cases.
Each type requires specific treatment, but around 20% of advanced tumours will switch type, causing treatment to stop working.
The researchers from The Institute of Cancer Research, London, hope their test will ensure patients receive effective treatments sooner and they believe this technology could be used for other cancers in the future.
The findings, presented at the San Antonio Breast Cancer Symposium, involved analysing blood samples from breast cancer patients in five clinical trials for circulating tumour DNA (ctDNA) that is released into the bloodstream by cancer cells.
Using machine learning, the scientists, based at the Breast Cancer Now Toby Robins Research Centre at The Institute of Cancer Research (ICR), designed and developed their test to pick up markers on the ctDNA that are specific to each of the main breast cancer types – ER(+ or -), HER2(+ or -) and triple negative breast cancer.
In research funded by Breast Cancer Now, Wellcome Trust and Cancer Research UK, 191 blood samples from 86 patients were analysed.
To check the accuracy of the blood test, the samples were compared with two tissue biopsies that were taken, on average, more than five years apart.
The breast cancer type switched in 19% of these samples and the BCMA test was almost 90% accurate at identifying this switch.
In eight per cent of the samples, tissue biopsies showed that the patients’ cancer had switched type – for example, from ER+/HER2- to triple negative breast cancer (TNBC), but the blood test showed that both types of breast cancer were present at the same time.
The researchers say this means patients could benefit from drugs specific to both types of breast cancer, expanding treatment options for them.
These include aromatase inhibitors to treat ER+ breast cancers and targeted drugs for TNBC such as sacituzumab govitecan (also known as Trodelvy).
In addition, 29% of tissue samples that were HER2- showed as HER2+ in the blood test, indicating that a greater number of patients may benefit from HER2+ specific therapies than currently receive them.
Dr Nida Pasha, Clinical Research Fellow at The Institute of Cancer Research, London and first author of the study, said: "Our test detects unique patterns in the tumour DNA circulating in a patient’s blood to pinpoint the exact breast cancer type."
"This can guide treatment decisions, so the next stage for this research is to assess the test in prospective clinical trials to see if it improves patients’ outcomes by tailoring their therapy."
"The technology behind this test isn’t limited to breast cancer – it could be applied across many cancer types."
"I’m excited about a future where non-invasive blood tests such as this could become the norm, guiding many more cancer treatment decisions."
Professor Nicholas Turner, Professor of Molecular Oncology at The Institute of Cancer Research, London and Consultant Medical Oncologist at The Royal Marsden NHS Foundation Trust, said: "Treating breast cancer based on its type is the mainstay of breast cancer management, but until now, a tissue biopsy has been required to detect that type and biopsies are generally only taken at diagnosis."
"Cancers can adapt and evolve and if we continue treating them based on their initial form, we are unlikely to succeed."
"Unfortunately, we know that around 20% of advanced breast cancers do switch type and this is a major source of treatment failure if it isn’t identified."
"Our research is the first to show that it is possible to identify breast cancer’s type from a blood test — meaning that any changes to this type can be tracked easily with time and treatment can be altered if necessary."
"This proof-of-principle retrospective study lays the foundation for better monitoring of treatment response and potentially life-extending treatment in patients."
Professor Kristian Helin, Chief Executive of The Institute of Cancer Research, London, added: "We have long moved past treating a cancer based simply on its place of origin — breast cancer is a whole family of diseases which all require different treatment strategies."
"But treatment resistance is one of the biggest problems we want to overcome as cancer researchers. Identifying when a cancer is likely to stop responding to a particular treatment is crucial."
"It is very exciting to see advances in technology that can detect cancer cells and DNA with such precision that a non-invasive blood test can now be used in place of a biopsy."
"This is a step towards a future of cancer care that is smarter, faster and kinder and I look forward to seeing the test evaluated in future clinical trials."
Dr Simon Vincent, Chief Scientific Officer at Breast Cancer Now, said: "With around 11,500 women dying from breast cancer every year in the UK, we desperately need to find better ways to treat the disease."
"This innovative blood test has the potential to transform how we monitor and treat breast cancer, ensuring people receive the most effective therapies as early as possible."
"We’re incredibly proud to have funded this work, building a future where painless tests help to quickly choose the best treatments and give people with breast cancer more time to live and live well."