Breast CancerCancerWomen

Early stage breast cancer: How to know whether to forgo chemo

Woman receiving chemotherapy. From

Valerie Malyvanh Jansen, Vanderbilt University and Ingrid Mayer, Vanderbilt University

There has been substantial publicity about the MINDACT trial, which could lead to changes in breast cancer treatment. The study’s results suggest that women with a certain genetic profile would have a good chance of survival and cure regardless of chemotherapy.

While the results are encouraging, breast cancer treatment decisions are complex, and this study does not necessarily provide a clear yes or no answer about the need for chemotherapy.

As oncologists, we see this latest scientific development as yet another powerful tool in assessing a patient’s risk of developing cancer recurrence.

However, the study results cannot be used as a sole tool to help guide treatment decision making. It does not tell you that if a patient has a genetic profile associated with high risk of recurrence, taking chemotherapy would change that risk.

In essence, this trial is one more tool to inform patients and physicians about a tumor’s biologic behavior (more or less aggressive, more or less chance of development of a cancer recurrence). But the take-home message is that these results still do not help physicians and patients decide if chemotherapy can be skipped or not.

A treatment mainstay

For years, surgery was usually the first step to remove a breast cancer tumor from the body. Both surgery and radiation (needed in certain cases) are helpful in promoting “local control” of the breast cancer. Treatments such as chemotherapy and/or hormone-blocker pills are considered as additional or adjuvant treatments, to help “sterilize” the rest of the body (“systemic control”) from potential microscopic cancer cells that can break off from the original tumor in the breast, and ultimately may be responsible for the so-called distant recurrence of the breast cancer.

The decision of whether a breast cancer patient will receive chemotherapy and/or hormone-blockers is based on many factors, including tumor size, grade, lymph node status, and presence or absence of hormone receptors or HER2 receptors.

Woman with hair loss after chemo. From

In years past, chemotherapy was given to most women. It often brings unpleasant side effects, including nausea, hair loss and fatigue. Some of the toxic drugs used in chemotherapy can sometimes cause health issues years down the road, such as thinking or memory problems called chemo brain.

In addition, chemotherapy requires a great deal of time. It is also expensive, often costing tens of thousands of dollars, US. The decision of whether to have chemotherapy or not is, thus, a very important choice for hundreds of thousands of women receiving treatment for breast cancer. It is understandable that many women prefer not to have chemotherapy.

The good news is that many women with early stage disease are now potentially cured, sometimes without chemotherapy given after surgery.

Better understanding of a complex disease

Breast cancer is the most common cancer diagnosis and the second leading cause of cancer-related deaths in American women. Only lung cancer kills more women.

Not all breast cancers are alike. In fact, we are finding that many are much more aggressive than others. Many respond well to new therapies.

In a new era of personalized medicine, we, as oncologists who specialize in breast cancer, have much more information than ever to guide us in helping our patients.

Research has found that more than 75 percent cases of breast cancer express what we call hormone-receptors, which are proteins in the cancer cell that are “fed” by the hormone estrogen. This “fuel”, in turn, causes the cells to grow and divide. These cancers are called estrogen-receptor positive, or ER+. Treatment of early stage ER+ breast cancer consists of surgery, sometimes radiation, and hormone-blocker (endocrine) therapy with or without chemotherapy.

After a woman’s tumor is examined in a biopsy, some of the recently developed profiling tools can be used to help assess risk of recurrence and death in a more precise way.

First, there is Adjuvant! Online. This software provides an estimation of chemotherapy effectiveness when added to endocrine therapy, based on clinical-pathologic features, or what we see in a patient upon exam, or what we learn through laboratory tests.

Second, there is Oncotype DX, a 21-gene test, that actually has the ability to predict chemotherapy benefit and the likelihood of distant breast cancer recurrence, or metastasis.

More recently, a third tool called MammaPrint was developed. This 70-gene signature examines 70 genes involved in breast cancer growth and survival, and was the one tested in the MINDACT trial. Unlike Oncotype DX, it only provides risk assessment (low risk or high risk) for distant recurrence, or metastasis, but it does not predict chemotherapy benefit.

The purpose of the MINDACT (Microarray in Node-Negative and 1 to 3 Positive Lymph Node Disease May Avoid Chemotherapy) trial, an international, prospective, randomized phase 3 study, was to determine the clinical utility of the addition of the 70-gene signature (MammaPrint) to standard criteria in selecting patients for chemotherapy.

The analysis focused on patients with discordant risk results. These included those with cancers that showed high clinical risk but low genomic risk. High clinical risk would include a woman who had a larger tumor size and more lymph node involvement. Low genomic risk refers to those cancers lacking the genes that signify aggressive growth.

The women were randomly selected, based on high or low clinical risk, or on high or low genomic risk. The women that had both low clinical and genomic risk did not receive chemotherapy and were not evaluated in the trial. The women with both high clinical and genomic risk all received chemotherapy in addition to endocrine therapy, and were also not evaluated in the trial. The women with discordant risk (i.e. high genomic risk but low clinical risk, or low genomic risk and high clinical risk) were all treated with endocrine therapy, but were randomized to either receive chemotherapy or to not receive chemotherapy.

In the group of women with high clinical risk but low genomic risk who were treated with chemotherapy, there was only a 1.5 percent increase in the five-year survival rate, without the cancer spreading to another organ in the body, the authors reported. (95.9 percent in the chemotherapy group vs 94.4 percent in the no chemotherapy group). Since the five-year survival is very similar in both groups, it is still unclear who are the women that actually can truly be spared of chemotherapy. Similar results were seen in the group of women with low clinical risk but high genomic risk (i.e. the five-year survival rate was very similar between the patients randomized to chemotherapy or not).

Bringing all the information together

So what does this mean for our patients in the clinic? Let us consider two hypothetical clinical scenarios.

Patient 1 is a 55-year-old woman with a 1.5 centimeter tumor that is ER+, low-grade, low proliferative rate with 0 of 3 sentinel lymph nodes, or nodes to which the tumor is most likely to have spread. Proliferative rate refers to the rate of growth of cells within the tumor; less than six percent is low, and greater than 10 percent is high.

Based on these clinical-pathologic features of her tumor, she is considered to have low clinical risk. According to results from the MINDACT trial, her clinical risk would trump her genomic risk, therefore, getting a MammaPrint test would be a waste of time and money.

Patient 2 is a 55-year-old woman with a 3.0 cm tumor that is ER+, high-grade, intermediate proliferative rate, with 2 to 5 positive sentinel lymph nodes. The patient is adamant about not receiving chemotherapy. Based on the clinical-pathologic features of her tumor, she is considered to have high clinical risk, and chemotherapy followed by endocrine therapy would be the standard of care recommendation.

If her MammaPrint test returns as low genomic risk, we could counsel the patient about her risk of distant metastasis without chemotherapy and breathe a sigh of relief if she had low genomic risk. She would certainly benefit from endocrine therapy, a daily, oral medication, for five to 10 years to reduce her risk of distant recurrence, or cancer that has spread, or metastasized.

It is not clear, however, whether she would be in the 1.5 percent of patients who might have benefited from chemotherapy but did not receive it, or in the group of patients who were spared the toxicity of chemotherapy based on the MINDACT trial.

These cases illustrate the complexity of clinical decision making in an era when we have a growing amount of data about the biology of each patient’s cancer. The MammaPrint test as used in the MINDACT trial suggests but does not predict a patient’s benefit from chemotherapy. It is merely a prognostic tool that tells us that the biology of the tumor matters. We already knew this.

For this reason, we believe the MammaPrint test is another tool which may help patients understand their risk of recurrence better. It is important that patients continue to have active discussions with their physicians about treatment options based on these gene panel tests in an effort to achieve personalized care.

Valerie Malyvanh Jansen, Clinical Instructor, Vanderbilt University and Ingrid Mayer, Associate professor of medicine, Vanderbilt University