Thromboangiitis obliterans (TAO) is a nonatherosclerotic, segmental, chronic inflammatory disease. TAO mainly affects the small and medium-sized arteries, veins and nerves of the arms and legs 1. Affected patients usually suffer from ischemic pain, ulcers, or gangrenous patches in the distal limbs 2. If not treated early and adequately, TAO can result in limb amputation 2. There are several diagnostic criteria for TAO. The diagnostic criteria proposed by Shionoya 3,4 in 1983 comprise an onset before the age of 50 years, a smoking history, the presence of infrapopliteal arterial occlusions, either upper limb involvement or phlebitis migrans and the lack of atherosclerotic risk factors other than smoking. In 1993, Mills & Porter 5 proposed another set of diagnostic criteria for TAO, consisting of major and minor criteria. In 1996, Papa et al. 6 suggested a point system for TAO diagnosis. In 2000, Olin JW 1 recommended another set of criteria that included an onset age <45 years with a history of current/recent smoking, the existence of distal limb ischemia proven by noninvasive vascular imaging examinations, the absence of a proximal source of emboli and the presence of coherent arteriographic findings in symptomatic and noninvolved extremities. Von Winiwarter initially defined TAO in 1879 7, but its etiology and pathogenesis has not been elucidated to date 8. Genetic and environmental factors, particularly tobacco use, have been proposed as risk factors for TAO 9. Although little is known about the exact pathogenesis of TAO and its association with smoking 10, the withdrawal of tobacco use usually halts disease progression and remains the most important treatment to date 10. Anti-angiogenic activity is present in the sera of TAO patients 11. However, the efficacy of therapeutic angiogenesis has not been proven in relevant controlled trials.

TAO typically occurs in young male smokers of low socioeconomic status, with a mean age of onset of between 35 and 50 years 4,12,13. Prior epidemiologic studies have shown that TAO is more prevalent in the Middle East and the Far East than in North America and Western Europe, and its prevalence has decreased over time in developed countries 14-16. Most previous epidemiologic studies were conducted using hospital-based data 14,15,17. Although Hida & Ohta 18 reported the number of incident and prevalent cases of TAO in Japan using a nationwide registry database in 2009, they did not calculate the incidence rate and prevalence of the condition. In all patients with peripheral arterial disease, the prevalence of TAO has been reported as 0.5-5.6% in Western Europe, 15-66% in Korean and Japan, and 45-63% in India 19. Few epidemiologic studies have reported the incidence and prevalence of TAO after 2000 20. Additionally, a paucity of epidemiologic data for TAO has been collected from the general population 21. Furthermore, the incidence and prevalence of TAO in Taiwan have never been studied. We previously conducted a nationwide, population-based epidemiologic study of common variable immunodeficiency using the Taiwanese National Health Insurance Research Database (NHIRD) 20. The aim of the current study was to investigate the prevalence and incidence of TAO during the 2002–2011 period in Taiwan using the NHIRD.

Table 1 and Figure 1 show the age-specific incidence rates of TAO in Taiwan. Between 2002 and 2011, 158 patients were newly diagnosed with TAO; of these, 76% were men. Two men and two women who were under 20 years in age were diagnosed with TAO. The incidence rate increased among individuals over 20 years in age and peaked at age ≥60 years. Most (63%) of the patients were diagnosed before reaching 50 years in age, while 23% of the patients were diagnosed after age 60.

Figure 1.

Age-specific incidence of thromboangiitis obliterans in Taiwan from 2002 to 2011.

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As shown in Table 2, the prevalence of TAO increased with time, from 0.26 × 10-5 in 2002 to 0.65 × 10-5 in 2011. On the contrary, there was a trend toward a decreasing incidence of TAO from 2002 to 2011 among both men and women. The incidence rate declined from 0.10 per 105 years in 2002 to 0.04 per 105 years in 2011. The annual average mortality rate ranged from 0% to 6.5%.

To the best of our knowledge, this study is the first population-based epidemiologic study of TAO using claims data from Taiwan. We found a trend of decreasing incidence of TAO, consistent with findings from previous studies that have investigated the epidemiology of TAO in other regions. For example, at Nagoya University Hospital in Japan, 46 new patients with TAO were hospitalized between 1985 and 1989, whereas only 12 new patients were hospitalized between 1990 and 1996 15. The decreasing incidence rate from 2002 to 2011 in Taiwan may be attributed to improvements in socioeconomic status as well as the decreased smoking rate resulting from the implementation of smoke-free policies 15,16. From 2002 to 2011 in Taiwan, the gross domestic product (GDP) per capita increased from 13,750 United States dollars (USD) to 20,939 USD, and the total national income (GNI) per capita increased from 14,062 USD to 21,507 USD 22. Additionally, the overall reported smoking rate decreased from 24.2% in 2004 to 16.9% in 2011 23. Prior studies have also found an association between chronic anaerobic periodontal infection and development of TAO 24,25. We speculate that the decreasing incidence of TAO through the study period is associated with better oral hygiene. However, epidemiologic data regarding the prevalence of periodontal disease in Taiwan are not available to support this hypothesis.

The prevalence of TAO in Taiwan increased from 0.26/100,000 in 2002 to 0.65/100,000 in 2011. The prevalence of TAO in Taiwan was much lower than that estimated for the general population in North America during the 1960s through 1980s (8-13/100,000) 14,26,27. It was also lower than that in Japan in 1985 (5/100,000) 28. However, no previous studies have reported the prevalence of TAO in the general population during the 2002-2011 period. Variations in diagnostic criteria, study period and race may partly explain the inconsistencies in the prevalence data.

Several studies have shown an increasing prevalence of TAO in women, which is considered to result from increases in smoking practices among women 12,29,30. In our study, the prevalence and incidence of TAO among women in Taiwan remained low throughout the study period. This may be explained by the fact that the smoking rate among women aged over 18 years remained low in Taiwan, being reported as 5.3% in 2002 and 4.3% in 2011 23. Similarly, a low prevalence of TAO among women has also been found in studies conducted in Japan 28 and Hong Kong (31).

Disease onset before the age of 50 years was included in the commonly used Shionoya classification criteria for TAO 4. In our study, we found that nearly one quarter of the patients were diagnosed with TAO after reaching 60 years of age. One possible explanation for this finding is that the diagnosis of TAO was delayed by over a decade for some of the patients, which may have further caused a delay in discontinuing tobacco use and could be associated with a poorer outcome 32.

It is worth mentioning that we identified 3 patients who developed TAO before reaching 10 years of age in this study. To the best of our knowledge, only a few case reports in the literature have described the development of TAO in children 33-36.

Therefore, we cannot exclude the possibility that these cases were misdiagnosed or miscoded in the NHIRD.

A main strength of this population-based study is its minimized selection bias. However, the study also has some limitations that should be addressed. First, TAO diagnosis was based on claims data; therefore, its accuracy may be of concern. However, the enrollment of those who were issued a TAO catastrophic certificate likely increased the accuracy of diagnosis. Second, because listing in the catastrophic illness registry is not mandatory, some TAO patients who were unwilling to apply for a catastrophic illness certificate may have been neglected in our analysis, leading to underestimation of the incidence and prevalence of TAO. Third, because the NHIRD lacked information regarding cause of death, we were unable to analyze the cause of TAO-associated mortality in Taiwan. Finally, the exact age of disease onset was not accessible from the NHIRD. Some patients may not have visited doctors immediately after symptoms occurred, whereas others may have initially been diagnosed with other diseases. Therefore, we may have overestimated the age of onset in our analysis.

The current study is the first population-based study to describe the epidemiology of TAO in Taiwan using the NHIRD. The incidence and prevalence of TAO in Taiwan during the period spanning from 2002 to 2011 were lower than those in other countries before 2000. This study also revealed a trend of decreasing incidence rate simultaneous with increasing prevalence of TAO from 2002 to 2011.

Chen HH is the guarantor of the integrity of the entire study and came up with the study concepts, study design and definition of intellectual content, in addition to participating in data analysis, statistical analysis, manuscript preparation, manuscript editing and manuscript review. Chen DY contributed to study concepts and manuscript editing. Lin CH contributed to study concepts, data acquisition, data analysis and statistical analysis. Chen YM contributed to study design, definition of intellectual content and clinical studies. Zheng JF performed literature research, clinical studies and manuscript preparation.