In analysis of 308,861 registered cases during the period from 1973 to 2001, it was shown that the incidence of cardiac death was significantly increased in patients who received radiotherapy and that the incidence of cardiac death was significantly higher in patients with left-sided breast cancer than in patients with right-sided breast cancer. For patients treated during the period from 1973 to 1982, the cardiac mortality ratios (left versus right tumor laterality) were 1.20 less than 10 years after radiotherapy, 1.42 at 10–14 years after radiotherapy, and 1.58 at 15 years or more after radiotherapy. However, it was reported that cardiac mortality has not been appreciably high since the early 1980s. It was reported that improvements in radiotherapy planning might have reduced the risks of cardiac mortality (6). Since our results were obtained from analysis of data for patients after in a later period, it is not surprising that cardiac-related deaths have not increased with radiotherapy. Our results for Asian or Pacific islander patients are supported by results of recent studies in which tumor laterality was used as a surrogate of heart-irradiated dose, showing no significantly increased risk for cardiac late effects for more recent treatment periods (7).
In this study, we divided the patients into two groups, one group up to 2008 and another group from 2009 onwards, and found that the incidence of heart-related death tended to be decreased in the later group. It is thought that the reason is not improvement of radiotherapy technology but improvement of health consciousness and management of lifestyle-related diseases among black people and white people. A similar trend was generally observed in Asians or Pacific islanders, but since heart-related deaths in Asians or Pacific islanders were originally rare, the effect of the era after 2000 was considered to be slight. However, in the early era, the frequency of cardiac-related deaths in patients who received radiotherapy increased sharply at around 150 months, catching up with that in patients who did not receive radiotherapy. In the later era, the frequency of heart-related deaths was significantly lower in patients who received radiotherapy than in patients who did not receive radiotherapy, possibly because of the short observation period or the improvement of radiotherapy technology. In the future, it will be necessary to pay close attention to the occurrence of cardiac-related deaths in the patients who received radiotherapy in the later era.
A study in which the latest epidemiological data for ischemic heart disease in all countries and regions were analyzed showed that the numbers of people with heart disease per 100,000 people were 2,470 in the United States and 3,771 in Europe, whereas the number in Japan, which is known to have a generally low rate of heart disease, was only 1,427 (8). The present study using patients with breast cancer also showed that the incidence of heart-related death in Asians was significantly lower than the incidences in black people and white people, and cumulative heart-related death rates in patients who did not receive radiotherapy were significantly higher than those in patients who received radiotherapy in races other than Asian or Pacific islander people. The background difference between those who received radiotherapy and those who did not seems to be responsible for the increased cumulative heart-related death rates.
Our study suggested that radiotherapy for early-stage breast cancer did not affect cardiac death at least after 2000. Breast irradiation by deep inhalation breath-holding was reported by Sixel et al. (9), and it has been reported that the cardiac exposure dose is significantly reduced. Recently, it has been practiced in many facilities. In Japan, it is covered by national insurance. In addition, attempts are being made to further reduce cardiac exposure by using intensity-modulated radiation therapy (IMRT) (10) (11), although, to our knowledge, there has been no evidence that IMRT and deep inhalation breath-holding reduce heart-related deaths. It may not meaningful to reduce the cardiac exposure dose further by using deep inhalation breath-holding or by IMRT. However, caution may be needed in patients with multiple risk factors for cardiac-related events (12) (13) (14) .
As a limitation of this study, the database used in this study does not have information on comorbidities and details of the chemotherapy, and the irradiation dose to the heart was predicted by only information about laterality of the primary site and whether radiation therapy had been performed or not. For breast cancer, a chemotherapy regimen with cardiac toxicity is often used. In multivariate analysis, chemotherapy was not selected as a risk factor of cardiac-related death, possibly because patients with early-stage cancer might have been enrolled in this study. Also, we evaluated the impact of radiation on the heart in this study by only heart-related death and did not consider heart events (e.g., coronary events and heart failure). Lastly, the observation period might have been too short to evaluate the impact of radiotherapy on cardiac-related death, because Darby et al. reported that cardiac deaths increase from a few years after to at least 20 years after treatment (3). In patients who were treated in the early era, with the median observation period of 153 months, there was no significant difference in the cumulative cardiac-related death rate between left-sided patients and right-sided patients. However, we might have to evaluate data with a longer observation period.