Changing trends in lymphoid neoplasm distribution in South Korea: analysis of 8615 cases from a single institute, 1997–2016

"V体育平台登录" 1. Introduction

Lymphoid malignancy is a heterogeneous cancer group consisting of neoplastic lymphoid cells showing various morphologic and immunophenotypic findings corresponding to lymphocytes at various stages of lymphocyte differentiation. The origin, etiology, clinical features, and response to therapy of lymphoid neoplasms are highly diverse. The World Health Organization (WHO) classification recognizes more than 50 lymphoid neoplasm subtypes based on their unique clinical, histologic, immunophenotypic, and genetic findings V体育2025版. [1,2].

Lymphoid malignancy represents 8. 3% of all cancers, according to 2018 SEER data. [3] In Korea, lymphoid malignancies account for 65%∼70% of all blood cancers,[4,5] with approximately 8900 new patients and 4100 deaths annually. [5,6] Currently, the incidence of lymphoid tumors is gradually increasing in both Western and Asian countries, possibly attributable to socioeconomic and environmental factors that can modulate immune function and increase exposure to carcinogens VSports. [7–9] Korea has been through industrialization from the 1960s to the 1980s and achieved a significant degree of socioeconomic improvement similar to that of other developed countries, resulted in considerable changes in quality of life, eating habits, and population distribution. [10] Such social and environmental changes may also lead to changes in the incidence of lymphoid neoplasms and their subtypes. It is well known that subtype incidences of malignant lymphoma differ according to geographic region, as well as among countries in the same geographic region. [11–15] Compared with Western countries, Asian countries have been reported to have higher rates of T/NK-cell neoplasms and lower incidences of follicular lymphoma and Hodgkin lymphoma. Epstein–Barr virus (EBV)-associated extranodal NK/T cell lymphoma, nasal type, is more frequent in Korea and China compared with Japan, where Human T-cell leukemia virus type 1 (HTLV-1)-associated adult T cell leukemia is prevalent. [16–19] In Korea, Helicobacter-associated extranodal marginal zone lymphoma of mucosa-associated lymphoid tissue (ENMZL) is a common lymphoid neoplasm subtype. [17,18].

Regarding the incidence of lymphoid neoplasm, some Korean studies using multicenter data have reported the incidence of lymphoid neoplasm of Korea, although these data have limitations, including the omission of liquid-phase lymphoid neoplasm VSports app下载. [8,12,18] The most recent data are based on a nationwide hospital-based cancer registry that covers all lymphoid malignancies, both liquid and solid phase, for 1999–2012. These data showed continuously increasing incidence of all lymphoid malignancies. [8] Two studies reported that follicular lymphoma is decreasing,[17,18] while another showed the opposite. [8] However, the frequency of extranodal NK/T-cell lymphoma was also reported in these two studies to be decreasing. [17,18].

To clarify the changing trends in the frequency of lymphoid neoplasm subtypes in Korea, we analyzed 8615 cases of lymphoid neoplasms diagnosed over 20 years at a single hospital. While our data are limited by having come from a single institution, relative to other studies, they also have the advantage that every case was reviewed by the authors (J Sim, YH Ko, HJ Ree) and included a large number of cases, representing 10% of the total lymphoma cases in the nation since 2012 V体育官网.

2. Materials and methods

3. Results

"VSports在线直播" 4. Discussion

The etiology of malignant lymphoma is multifactorial, including genetic factors, infectious agents, autoimmune diseases, and socioeconomic factors. The International Lymphoma Epidemiology Consortium (InterLymph) project identified numerous environmental, lifestyle, medical, and genetic risk factors by examining pooled studies of epidemiological surveys and single nucleotide polymorphisms.^[21] Family history of hematologic malignancy, autoimmune diseases, atopic conditions, lifestyle factors (e.g., smoking, alcohol, anthropometric measures, use of hair dye), and sun exposure are associated with non-Hodgkin's lymphoma risk.^[22–24] These studies also revealed etiologic commonality and heterogeneity among non-Hodgkin's lymphoma risk subtypes. Family history of hematologic malignancy, autoimmune diseases, atopic conditions, and alcohol consumption are associated with risk or prevention across several subtypes.^[21] Eczema, T cell-activating autoimmune diseases (e.g., celiac), and cigarette smoking were more strongly associated with risk of PTCL and/or mycosis fungoides/Sezary syndrome, whereas hepatitis V virus infection, blood transfusion, and B cell-activating autoimmune disease were more strongly associated with B cell lymphomas.^[25]

According to nationwide studies, malignant lymphoma in Korea is characterized by a lower frequency of Hodgkin lymphoma, follicular lymphoma, and CLL/SLL compared with Western populations.^[12,18] Previous study from United States analyzing incidence rate differences of malignant lymphoma by birthplace and acculturation demonstrated that the incidence rates were significantly lower in foreign-born Asian than US-born Asian patients for certain lymphoma subtypes, specifically CLL/SLL, follicular lymphoma, and nodular sclerosis Hodgkin lymphoma. This data strongly suggests a role of environmental factors that influence the risk of FL and CLL/SLL,^[26] while risk variants identified by genome-wide association study does not exclude a role for genetic susceptibility to follicular lymphoma and CLL/SLL.^[27,28] Infectious agents are important factors in the characterization of lymphomas in Koreans, particularly the higher incidence of EBV-positive extranodal NK/T cell lymphoma might be associated with primary EBV infection at early childhood and higher prevalence of EBV infection. In one study reported in 1994, 90% of children aged 7–9, and 100% of children aged 10–15 years had EBV antibodies.^[29] High frequency of gastric MZL appears to ascribe to a high prevalence of Helicobacter pylori infection among Koreans.^[30,31]

As domestic socioeconomic and health care conditions have improved markedly over the last four decades in Korea, there have been changes in the epidemiology of infectious diseases, the population structure by age, and lifestyles. Due to significantly increased life expectancy, the elderly population has also increased dramatically, while the birth rate has been steadily declining. Obesity is increasing every year, and this has become a very important public health issue.^[32] The seroprevalence of EBV infection in young adults and adolescents was 100% in 1994, but decreased to 87.2% in 2007.^[33] Likewise, the seroprevalence of H. pylori in healthy adults has gradually decreased, from 66.9% in 1998 to 54.4% in 2011.^[34] Although well-planned epidemiologic evaluation correlating lymphoma subtypes and etiologic factors has not been carried out in Korea, we can expect that such health and socioeconomic changes would result in changes in the subtypes of lymphoid neoplasms.

The occurrence of cancer is increasing because of population growth and aging, as well as increasing prevalence rates of established risk factors such as smoking, overweight, physical inactivity, and changing reproductive patterns associated with urbanization and economic development.^[35] In the USA, lymphoma incidence rates increased steadily during the 1970s and 1980s, leveled off in the 1990s, and have declined slightly (0.3% per year) since 2001 in females and since 2004 in males.^[36,37] In Korea, patients with malignant lymphoid neoplasm are continuously increasing. According to KNCIDB data, registered patients with lymphoid neoplasm (in 2002–2012) increased 1.84 times (3606 in 2002 and 6638 in 2012). The overall age-standardized incidence rates of all lymphoid malignancies increased from 6.9 to 9.9, with an annual percentage change of 3.2% between 1999 and 2012.^[8] Accordingly, lymphoma patients in our cohort increased 1.85 times during the 20-year study period. The most notable change during this period was an increase in B cell lymphoma and a relative decrease in T cell lymphoma and precursor lymphoid neoplasm. This change may be due to an increase in population age as well as other unknown factors. In support of this speculation, the median age of lymphoma patients in our cohort increased from 51 years in 1997–2006 to 56 years in 2007–2016. Increased plasma cell neoplasm was also notable, and an aging population and increasing body size may partly explain this increase. Obesity, a risk factor for plasma cell neoplasms, is steadily increasing in Korea.^[32,38] Other B cell lymphomas, including follicular lymphoma and mantle cell lymphoma, increased significantly. In addition to these changes associated with an increased aging population, our data show that infectious agent-associated lymphoma is decreasing. Extranodal NK/T cell lymphoma is a prototype of EBV-associated disease and virtually all tumor cells are infected by EBV. EBV-associated lymphoid malignancy is more prevalent in certain parts of Asia and Latin America, strongly suggesting genetic or environmental predisposition in the development of EBV-positive lymphoma. As noted, as socioeconomic conditions have improved in Korea, the age of first EBV infection is increasing like Western countries.^[33,39] EBV infection in young children whose immune system has not matured can lead to diseases such as chronic active EBV infection when they have genetic susceptibility. Although the role of EBV in the pathogenesis of extranodal NK/T cell lymphoma is not well known, the epidemiologic distribution of chronic active EBV infection and NK/T cell lymphoma is similar, suggesting that similar mechanisms may play a role in the development of NK/T cell lymphoma. Considering that, the decrease in the relative frequency of extranodal NK/T cell lymphoma in our cohort may be explained by the increasing of the age of first EBV infection, although we cannot exclude the influence of other risk factors. On the other hand, ENMZL has an etiologic relationship with H. pylori, autoimmune disease, and other infectious agents. Decrease in H. pylori infection in the general population may contribute to slowing the increase in ENMZL.

Malignant lymphoma is generally more common in male, but some subtypes have a female predominance. Typically, mediastinal large B cell lymphomas and subcutaneous panniculitis–like T cell lymphoma occur in male patients more frequently, which is also the case with our cohort.^[40] In this study, low grade follicular lymphoma was more prevalent in female but high grade lymphoma in males. In Western population, the vast majority of follicular lymphoma is of low grade and has a male to female ratio of 1:1.7.^[41,42] High grade follicular lymphoma by the 2008 WHO classification is heterogeneous lymphoid neoplasm which includes large B cell lymphoma with IRF-4 rearrangement, pediatric follicular lymphoma, and follicular lymphoma, grade 3B.^[43] It is different from low grade follicular lymphoma in the clinical, genetics, and even in the gender distribution. Extranodal marginal zone lymphoma has been known to show an equal distribution of gender or slight female predominance.^[44] In our cohort, extranodal marginal zone lymphoma affected more females than males and the gastric marginal zone lymphoma accounted for 61% of cases. Extragastric marginal zone lymphomas of the thyroid and salivary gland associated with autoimmune disease affect mainly female patients.^[45] In this study marginal zone lymphoma involving thyroid and salivary gland accounted for only a minority of cases.

The main drawback of this study is that the data are based on the patients from a single institution, so it is doubtful whether the results could reflect the nationwide data. In Korea, patients with lymphoma tend to gather in 4–5 large hospitals located in Seoul from each province, and Samsung Medical Center is one of these large hospitals. Therefore, the distribution of patients is not biased toward any particular type and may be consistent with the distribution of patients across the country. In addition, this study has several strengths compared with other previous studies. It included all lymphoid neoplasms in the liquid phase as well as solid phase, study subjects are the large-scale population and covers approximately 10% of all lymphoma patients in the country, lymphoma classification was performed based on sufficient ancillary studies by experienced hematopathologists, and the data is that of the most up-to-date. Despite the weaknesses of this study, these strengths will add value for future reference. In summary, we report herein the changing trends in the proportion of subtypes of malignant lymphoma in Korea and discuss the relationships with the population structure based on age and the prevalence of infectious agents. Considering the complexities of lifestyles and genetic factors that impact lymphomagenesis, the risk factors noted here may be somewhat superficial. Systematic epidemiological studies exploring these risk factors are needed to predict future changes in lymphoma frequency and to establish management strategies.

Acknowledgments

We thank Dr. In-Suk Shon for statistical analysis.

V体育平台登录 - Author contributions

Data curation: Takuya Takayama, Junhun Cho, Seok Jin Kim, Won Seog Kim, Howe J. Ree.

Funding acquisition: Young Hyeh Ko.

Methodology: Jongmin Sim.

Resources: Junhun Cho.

Supervision: Young Hyeh Ko.

Visualization: Young Hyeh Ko.

Writing – original draft: Jongmin Sim.

Writing – review & editing: Young Hyeh Ko.

Jongmin Sim: 0000-0002-7106-1279.

Jongmin Sim orcid: 0000-0002-7106-1279.

Supplementary Material