Breast Cancer Patients Whose Hormone Receptor Status is Negative Have Higher Risk of Early Death
A new study published in the journal Breast Cancer Research reveals that the risk of early death among women who are diagnosed with human epidermal growth factor (HER2) positive breast cancers, and whose hormone receptors (HR) are also negative, was high and added that the cancer was less likely to recur in bone compared to those whose cancer retained hormone sensitivity.
Breast cancer is a heterogeneous disease with many different subtypes. HR positive cancer is more likely to be luminal A or B type and be treated with endocrine therapy including tamoxifen or aromatase inhibitors, while HR negative cancer is more likely to be basal or 'HER2-enriched'. HER2 positive cancers can fall into both of these categories.
A multicentre study from 13 National Comprehensive Cancer Network (NCCN) hospitals analysed data from over 3000 women diagnosed with early stage HER2 positive breast cancer. At first recurrence, most of the women in the study were treated with chemotherapy and/or with anti-HER2 therapy.
Dr Ines Vaz-Luis, who led the study revealed, "In this large group of patients with HER2 positive breast cancer, we found significant associations between presence of HR and presenting features, patterns of recurrence and survival outcomes. In the first five years after treatment more women died from HR negative cancer than HR positive." Recurrence in the brain or bone was also linked to receptor status, with more HR negative cancer in the brain and HR positive cancer in bone. About half of recurrent tumours tested had switched progesterone or estrogen receptor status (positive to negative or vice versa) or lost HER2 status during the study.
Dr Vaz-Luis, continued, "Based on our findings, HR status defines two different subsets of HER2 positive cancers. To combat this, we believe that studies which look at new drugs for treating HER2-positive breast cancer should also integrate hormone receptor status into their design."
Source: Eurekalert