By: Jeffrey Green, Natural Blaze |
A study published in the journal Cancer by researchers from the department of Radiation Oncology at the UCLA Johnson Comprehensive Cancer Center reports that radiation drives breast cancer cells into greater malignancy. (1)(2) Malignancy is a term used to describe the tendency of tumors and their potential to become progressively worse, ultimately resulting in death.
In many cases, cancer stem cells are generated by the therapy itself, and they are resistant to conventional treatment, this may play a critical role in the development of tumors. Cancer stem sells are tumorigenic (tumor-forming) and are capable of both initiation and sustaining cancer. They are also increasingly recognized to be the cause of relapse and metastasis following conventional treatment.
New research presented in Vienna, Austria backs up this concern. Here is the full abstract, number O-0489 presented at the Clinical breast cancer session, 10.30-11.30 hrs (CEST) on Monday, 7 April.
Women who have radiotherapy for breast cancer have a small but significantly increased risk of subsequently developing a primary lung tumour, and now research has shown that this risk increases with the amount of radiation absorbed by the tissue.Dr Trine Grantzau (MD) told the 33rd conference of the European Society for Radiotherapy and Oncology (ESTRO33) in Vienna: “We found that for each Gray  delivered to the lung as part of radiotherapy for a breast tumour, the relative risk of developing a subsequent primary lung cancer increased. This increased risk was similar to the reported increased risk of heart disease after radiotherapy for breast cancer.
Our findings suggest that any reduction in the dose of radiation to the lung would result in a reduction in the risk of radiation-induced subsequent lung cancers. With the advances in breast cancer treatment and the introduction of breast cancer screening, a growing number of women are becoming long-term survivors, and so we need to have an increased awareness of treatment-induced second cancers and take steps to reduce those risks by using radiotherapy techniques that spare normal tissue as much as possible.
Dr Grantzau, a doctor in the department of experimental clinical oncology at Aarhus University Hospital (Aarhus, Denmark), and her colleagues investigated the incidence of second primary lung cancers (i.e. a new lung cancer and not a secondary tumour that has spread from the original breast cancer) in a group of 23,627 women in Denmark who had been treated with post-operative radiotherapy for early breast cancer between 1982 and 2007. Among this large group of women, 151 (0.6%) were diagnosed with a new lung cancer (the group of cases) and they were matched with 443 women who had not developed lung cancer (the control group).
In a previous study including the 23,627 irradiated women and, additionally, 22,549 unirradiated breast cancer patients, results showed that the risk of developing a radiation-induced second lung cancer was approximately one in every 200 women treated with postoperative radiotherapy. “In the current study, we wanted to see if there was a dose-response correlation for second primary lung cancer after breast cancer irradiation. We further wished to estimate the excess relative risk per delivered Gray to the lung. As smoking is strongly correlated to lung cancer, we also looked into the effect of radiation and smoking,” explained Dr Grantzau.
The researchers retrieved radiotherapy records of the previous breast cancer radiation treatment (including the delivered dose, field size and treatment technique) together with the smoking status for all cases and controls. For the cases they also obtained radiographic images of the lung cancers. With this information they were able to reconstruct the ways that the women had been treated for the original breast cancer and to estimate the amount of radiation that was delivered to the part of the lung where the subsequent tumour developed. They tested the accuracy of their calculated radiation doses on a model, or “phantom”, and made adjustments to take into account the higher doses that they found were actually delivered to areas outside the main field of radiation.
The median age of the women when they were diagnosed with breast cancer was 54 (with a range of 34-74) and the median age when a second primary lung cancer was diagnosed was 68 (range 46-90). Seventy percent of the lung cancers were diagnosed five or more years after radiotherapy for breast cancer, ranging from five to 26 years. The majority (91%) of the lung cancer cases were smokers, whereas 40% of the controls were smokers.
The mean average dose of radiotherapy during breast cancer treatment that had been delivered to the site of the lung tumour was 8.7 Gy, while it was 5.6 Gy to the comparable site in the women who had not developed lung cancer. Although the absolute risk of developing a second lung cancer is small, the researchers showed that among women who had survived breast cancer for at least five years, the relative risk of subsequently developing a lung cancer increased by 8.5% per delivered Gy to the lung.
“These results show that the risk of second lung cancer after radiotherapy in early breast cancer patients is associated with the delivered dose to the lung,” said Dr Grantzau.
It is, however, important to place the risk of getting a radiation-induced second lung cancer in a perspective that is balanced with the known benefits of radiotherapy in the adjuvant treatment of breast cancer. Post-operative radiotherapy in breast cancer patients decreases the likelihood of breast cancer recurrence and improves overall survival. The challenge for radiation oncologists is to reduce the delivered dose of radiotherapy in a way that minimises the dose to the normal tissue to avoid radiation-induced malignancies, without compromising its efficacy in the cancerous breast tissue.
She added: “Furthermore, clinicians should be continually advising breast cancer patients to quit smoking in order to reduce their risk of developing lung cancer. It’s important to emphasise that the risk of getting a tobacco-induced lung cancer is much higher than the risk of getting a radiation-induced second lung cancer.
Professor Vincenzo Valentini, president of ESTRO and a radiation oncologist at the Policlinico Universitario A. Gemelli, Rome, Italy, commented: “This research shows the importance of monitoring the safety of radiotherapy procedures so that we can use the information gained to achieve a good balance between the risks and benefits of a particular treatment. Reducing the radiation dose to normal tissue is always beneficial, and knowing the exact target and the best radiation dose will help to reduce any long-term side-effects of a therapy that research has long shown to be instrumental in helping to save the lives of women with breast cancer. Dr Grantzau’s research suggests there is a small increased risk of lung cancer in the years after radiotherapy for breast cancer, particularly in women who smoke. This underlines the importance to women of not smoking, as this increases the risk of a range of diseases. We, as radiation oncologists, will continue to work to monitor and improve the safety and efficacy of our therapies.”
 A Gray (Gy) is the absorption of one joule of energy, in the form of ionizing radiation, per kilogram of (body) tissues.
 The study received funding from Aarhus University, Faculty of Health Sciences, CIRRO (Danish Centre for Interventional Research in Radiation Oncology), the Danish Cancer Society, and from the European Atomic Energy Community’s Seventh Framework Programme.
Fortunately there is still much that can be done naturally in order to avoid some of the convoluted reasoning above that suggests that new methods of targeted radiation are the answer, rather than simply pursuing alternative methods.Below you will find articles that will help you along your natural path to health if you ever succumb to the cancer diagnosis.
Published in the journal eCAM and titled, “BlueBerry Isolate, Pterostilbene, Functions as a Potential Anticancer Stem Cell Agent in Suppressing Irradiation-Mediated Enrichment of Hepatoma Stem Cells,” researchers reported two major findings:
1. Irradiation of liver cancer cells (hepatoma) with the same type of radiation used to treat cancer patients resulted in enriching the highly malignant cancer stem cell subpopulations, as well as cell properties associated with increased invasiveness and treatment resistance.
2. The addition of pterostilbene, a stilbenoid chemically related to resveratrol and found in blueberries and grapes, suppressed the adverse changes associated with irradiation.
Another article by Joe Martino cites research into the effectiveness of high-dose injections of Vitamin C:
High-dose vitamin C injections have shown positive results in fighting cancer cells in studies done in vitro, on mice and on humans. Peer-reviewed medical research has been recently published in the journal Science Translational Medicine that reports the findings of a team of researchers from the University of Kansas who tested the effects of vitamin C given in high doses intravenously on a group of human subjects with cancer. They found that the injections fought cancer cells yet left healthy cells well intact unlike chemotherapy. (Source)
Despite the fact that cancer is perhaps the scariest diagnosis you can ever receive from your doctor, there are many misconceptions related to it. Perhaps the prime one is that radiation or chemotherapy is a proven cure. New information continues to be revealed indicating that cancer can be treated in many different ways. Therefore, the limited and often dangerous nature of radiation and chemotherapy is increasingly being questioned as new revelations come to light about the origins of cancer, how the body responds, and the strategies for preventing and curing it.