Incidence of Malignancy and the Risk of Lymphoma in Japanese Patients with Rheumatoid Arthritis Compared to the General Population

DISCUSSION

Advances in the treatment and management of patients with RA have contributed not only to the reduction of their symptoms and the improvement of function and quality of life, but also to increased life expectancy. However, malignancy is emerging as one of the least tractable, unexpected, life-threatening complications during the course of RA. It is not clear whether the overall incidence of malignancies in patients with RA is higher^11,12,13, lower^14,15, or the same as in the general population^16,17. Because the incidence of each type of malignancy differs according to regional or racial features, the overall incidence of malignancies differs from study to study. With respect to the contemporary general Japanese population, breast cancer is the most frequent malignancy in women, followed by colon, gastric, and lung cancer. In men, gastric cancer is the most common cancer, followed by lung or colon cancer⁸. Our 10 years’ observation of Japanese patients with RA revealed a slightly but significantly reduced overall incidence of malignancies of any type (SIR 0.89), but excess lymphoma compared with the age-matched and sex-matched Japanese population. Fewer malignancies overall resulted from reduced frequencies of several types, including colorectal and liver cancer. These results almost agree with the latest research from East Asia (Taiwan)¹⁵. Although the sample size of our cohort was not small, annual fluctuations of the numbers of different malignancies did occur. However, these had little influence on the SIR over the entire observation period. Thus, a conservative interpretation of the annual SIR for malignancies overall (Figure 2) is that their incidence in patients with RA is similar to that in the general population.

Less colorectal cancer in patients with RA has previously been reported in epidemiological studies^{11,13,14,15,16,18}. This might be the result of using NSAID, the inhibitory effect of which on colorectal cancer was confirmed by experimental animal studies¹⁹ and metaanalysis of clinical research²⁰. Additionally, as in a study in Taiwan (SIR 0.87, 95% CI 0.75–1.00)¹⁵, we found decreased liver cancer. The rarity of these cancers can be explained by the finding that NSAID, which were used in about 60% of all patient-years, induced apoptosis of such cancer cells by means of cyclooxygenase 2 suppression^21,22. If this is so, the recent decreased use of NSAID in patients with RA could lead to increased colorectal cancer in the future; however, such a tendency is not detectable to date (data not shown).

Several reports have noted excess lung cancer in patients with RA, although not as frequently as lymphoma^11,12,13,23. We also saw a tendency for increased lung cancer, but this was not statistically significant. The reasons for the difference between our results and the earlier reports cannot be determined because of the lack of information in our study about risk factors, such as smoking history and the presence of interstitial lung disease (ILD), which would be associated with the development of lung cancer.

Lymphoma, particularly non-Hodgkin’s lymphoma, is well known to develop in patients with RA. The SIR of 3.43 for lymphoma in our cohort is consistent with results of earlier studies that reported a SIR of lymphoma ranging from about 2 to 6^{11,12,13,15,16,18}. Moreover, currently, most patients with RA are treated with MTX, biologics, or disease-modifying antirheumatic drugs, all of which might contribute to the development of lymphoma. The association between RA per se and lymphoma was established by the finding that lymphoma incidence was increased in patients with RA even before MTX was approved by the US Food and Drug Administration in 1988^24,25,26,27. Further, a case-control study with quantitative analysis of cumulative disease activity of RA by Baecklund, et al revealed an association between disease activity and the development of lymphoma²⁸. That analysis was critical because longterm disease activity of RA was taken into account and channeling bias was excluded. Thus, the tendency for physicians to administer potent antirheumatic drugs such as MTX and biologics to patients with severe RA who may then be at a higher risk of developing lymphoma was excluded. In our study, we found that patients who developed lymphoma had had a significantly longer RA disease duration (Table 2), supporting the existence of a relationship between RA cumulative disease activity and the development of lymphoma. On the other hand, the results of Baecklund, et al yielded no statistically significant associations between the development of lymphoma and the use of antirheumatic drugs, including MTX²⁸. However, that could have been because of the small number of patients who received MTX (5%) in their study.

Subsequent RA case series have documented spontaneous remission of lymphoma after withdrawal of MTX, implying an association between MTX and lymphoma²⁹. Many such cases are diffuse large B cell lymphomas positive for Epstein-Barr virus (EBV)^{30,31,32,33,34}. Possible mechanisms for the development of EBV-related lymphoma in addition to some property of RA per se^34,35 are, therefore, the reduction of the ability to prevent EBV infection by MTX^36,37. In agreement with a prospective cohort study³⁸, we showed in the present epidemiological study that MTX use was a risk factor for the development of lymphoma even after adjustment for several variables, including age, sex, and use of other antirheumatic drugs. Meanwhile, we were unable to demonstrate an association between lymphoma and RA disease activity in our study. Although DAS28 assessed at a single measurement in the year before the onset of lymphoma was taken as a measure of disease activity, this might not represent longterm disease activity as in the study of Baecklund, et al²⁸. Given that not only MTX, but also RA disease activity alone, is associated with the development of lymphoma, the efficacy of MTX in also preventing lymphoma by reducing disease activity should be evaluated.

We did not find any significant correlations between the development of lymphoma and the use of biologics, which is consistent with previous metaanalyses^39,40. No other antirheumatic drugs have been suggested to induce malignancy except for immunosuppressants, such as azathioprine^23,28,41, for which the risk is difficult to ascertain because so few patients with RA are treated with them. In addition to MTX, the use of tacrolimus was significantly associated with the development of lymphoma in our multivariate analysis. Azathioprine was assumed to be a candidate lymphoma-inducer in patients with inflammatory bowel disease⁴² through its effects on mutation and DNA repair⁴³. However, the risk of lymphoma development associated with oral tacrolimus in patients with autoimmune diseases has not been evaluated because this drug is approved for RA in only a few countries worldwide and insufficient data exist. Tacrolimus, a calcineurin inhibitor, is primarily used in patients with organ transplants, in whom an increased risk of lymphoma has been noted⁴⁴. Our results are supported by a report of a small number of Japanese patients with autoimmune diseases who were thought to have developed tacrolimus-induced lymphoma⁴⁵. It can be hypothesized that oral tacrolimus is associated with the development of lymphoma through systemic immune suppression in patients with RA for the same reason as in patients with transplants, despite the low initial dose of the drug.

Although our study demonstrated that the use of MTX or tacrolimus means a significant risk for developing lymphoma in patients with RA, the risk could be reduced by some confounding factors such as reduced RA disease activity. A characteristic of our database, NinJa, is to provide an overview as well as annual changes of all patients’ profiles, which can present data for an interpretation of the relationship. Of note, the following 3 trends were observed. First, annual SIR of lymphoma have not changed over the survey period (Figure 2). Second, the proportion of patients receiving MTX or tacrolimus has been increasing in those 10 years. Third, the number of patients with remission or low disease activity has been increasing over the years¹ (Figure 1). The stable annual SIR of lymphoma might possibly result from a balance between increased lymphoma caused by elevated use of MTX or tacrolimus, but decreased incidence from reduced RA disease activity. Otherwise, assuming that there is a time lag between the administration of those drugs and lymphoma development, the SIR of lymphoma would increase further in future. While the use of MTX or tacrolimus may carry a certain risk for lymphoma development, it should be emphasized that they are now essential for RA disease control.

The limitations of our present study are related to its open prospective cohort registry nature and the smaller proportion of followed-up patients relative to single-center cohorts. That is, only malignancies that the patients developed while attending the hospitals participating in the NinJa registry were recorded. In contrast to single institutional cohorts, which have low dropout rates with close followup of patients, our nationwide multiinstitutional cohort represents an overview of all Japanese patients with RA and has the advantage of excluding biases, such as center effect, ethnicity, and socioeconomic status. Because a single institute specializing in rheumatology tends to accumulate referral patients with poorly controlled RA and to transfer those who do not require active treatment to regional hospitals or family doctors, such single-center studies may focus on unrepresentative, relatively young patients with active and severe RA. Indeed, patients in a large Japanese single institutional cohort were younger and had more active RA than those in our cohort¹³.

Other limitations of our study lie in the time between the onset of lymphoma and the administration period of a drug. We sought correlations between the onset of lymphoma and medication in the preceding year, on which the significance of the risk for lymphoma was based. The duration of the treatment or whether lymphoma developed during or after the drug administration period was not taken into account. In addition, evaluating the risk of malignancies, including lymphoma, in patients with RA would require the prospective study to include detailed information for variables such as accumulated disease activity, comorbidity, and history of cancer, medication, and smoking. For instance, Sjögren syndrome vastly augments the risk for lymphoma⁵, just as ILD does for lung cancer. Smoking has been established as contributing to various malignancies, except for several cancers such as breast and prostate cancer, in the general population⁴⁶. Some studies noted an increased risk for smoking-related cancers in patients with RA⁴⁷ because smoking is a risk factor for RA per se⁴⁸, but other studies, including ours, have not. It is not well known whether smoking contributes to the development of such malignancies in patients with RA as in the general population.

Our present study demonstrated that patients with RA have no higher overall incidence of malignancies than the general population, but should be closely monitored for lymphoma development, which is more frequent. Older age, use of MTX, and use of tacrolimus in the preceding year were identified as risk factors for lymphoma development. In studying the risk for malignancy in patients with RA, it is important to discriminate between characteristics of RA (particularly longterm disease activity) and the influence of therapeutic or environmental factors and comorbidities. These influences still need to be investigated. Further work is required to elucidate the mechanisms responsible for increased lymphoma but decreased occurrence of several other malignancies in patients with RA.