Are We in the Same Risk of Diabetes Mellitus? Gender- and Age-Specific Epidemiology of Diabetes in 2001 to 2014 in the Korean Population
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Abstract
In the early 2000s, the prevalence of diabetes in adults aged ≥30 years in Korea was about 9% to 10%, and it remained stable. However, a nationwide survey showed that this prevalence increased over the past few years. After age-standardization using the Korean population of the year 2010, the prevalence of diabetes in adults aged ≥30 years was 10.0% to 10.8% between 2001 and 2012, which increased to 12.5% in 2013 and 11.6% in 2014. During that period, there have been changes in the gender- and age-specific prevalence of diabetes in Korean adults. The prevalence of diabetes in the elderly population increased significantly, while this prevalence in young adults, especially in young women, did not change significantly. The contribution of each diabetic risk factor, such as obesity, β-cell dysfunction, sarcopenia, and socioeconomic status, in developing diabetes has also changed during that period in each gender and age group. For young women, obesity was the most important risk factor; by contrast, for elderly diabetic patients, sarcopenia was more important than obesity as a risk factor. Considering the economic burden of diabetes and its associated comorbidities, a public health policy targeting the major risk factors in each population might be more effective in preventing diabetes.
INTRODUCTION
The International Diabetes Federation estimated the global prevalence of diabetes to be 151 million in 2000 [1] and 285 million in 2010 [2]. This prevalence is expected to rise to 552 million by 2030 [3]. In Korea, after a rapid increment of the prevalence of diabetes during the last 30 years, the prevalence of diabetes in adults aged ≥30 years reached about 9% to 10% and remained stable between 2000 and 2010 [45]. A recent Korea National Health and Nutritional Examination Survey (KNHANES) 2011 to 2014 showed that the prevalence of diabetes in adults aged ≥30 years increased to 10% to 11% [6]. During that period, along with the trend of an increasing number of elderly people in Korea [7], the number of elderly patients with type 2 diabetes mellitus (T2DM) increased significantly [89]. In addition, the gender disparity in the trend of the prevalence of diabetes and obesity was apparent in the 2000s [910]. In this review, we summarized the recent trends in the prevalence of diabetes in Korea, and the risk factors associated with those trends will be discussed.
THE PREVALENCE OF DIABETES
The prevalence of diabetes in Korean adults aged ≥30 years remained stable at approximately 9% to 10% between 2000 and 2010 [45]. The Korean Centers for Disease Control and Prevention reported that it increased to 10% to 11% between 2011 and 2014 [6]. If cases of diabetes mellitus (DM) were defined as subjects who were users of antidiabetic medication, including insulin, at the point of the survey or had 8-hour fasting plasma glucose levels ≥126 mg/dL, the age-standardized prevalence of diabetes using the Korean population in the year 2010 was 10.0% to 10.8% in adults aged ≥30 years during 2001 to 2012, which increased to 12.5% in 2013 and 11.6% in 2014 (Fig. 1A). In men, age-standardized prevalence in 2013 and 2014 was 13.7% and 13.1% respectively; in women, that was 11.5% and 10.3%, respectively (Fig. 1A). The age-standardized prevalence in subjects 30 to 59 years old did not change much between 2005 and 2014: 8.3% to 10.2% in men and 4.3% to 5.9% in women (Fig. 1B). By contrast, the elderly population aged ≥60 years showed an increasing trend of diabetes prevalence from 19.0% in 2001 to 21.4% in 2010 and to 24.7% in 2014 (Fig. 1B).
Since 2011, all adult participants in the KNHANES had their glycosylated hemoglobin (HbA1c) level measured following the guidelines of the Korean Diabetes Association, which adopted an HbA1c ≥6.5% as a diagnostic criterion for DM since 2011 [11]. Considering that in the previous KNHANES, only participants who had a medical history of diabetes measured their HbA1c level, a trend in the prevalence of diabetes estimated from the KNHANES should be interpreted with caution. After adopting an HbA1c ≥6.5% as one of the diagnostic criteria of diabetes, the prevalence of diabetes was increased 2.2% to 2.4% (Fig. 2) as previously reported [12]; the age-standardized prevalence of diabetes in adults aged ≥30 years reached 13.2%, 12.3%, 15.6%, and 13.8% in 2011, 2012, 2013, and 2014, respectively (Fig. 2).
Nationwide claim data showed that the peak incidence of T2DM between 2008 and 2010 was observed at 60 to 79 years of age (i.e., 23 to 25/1,000 person-year [PY]) both in men and women (Fig. 3) [8]. In men, the incidence of diabetes in individuals 50 to 59 years old and 80 to 89 years old was next (18/1,000 PY). In the case of women, the incidence of diabetes in individuals 80 to 89 years of age was next (17/1,000 PY). Women aged 50 to 59 years old showed a relatively lower incidence of diabetes than men of the same age (13/1,000 PY vs. 19/1,000 PY) [8].
Korea is one of the most rapidly aging countries; the proportion of the elderly population aged ≥65 years reached 11.0% in 2010 and is expected to be 22% in 2020 [7]. The increasing size of the elderly population might result in the nationwide increasing prevalence of diabetes. Considering that the increasing prevalence of diabetes may also increase the economic burden, a public strategy targeting elderly people for diabetes prevention is urgent.
In the case of the younger population, a nationwide health survey showed a relatively stable prevalence of diabetes, especially in women [9]. These results corresponded with the nationwide survey in Japan [13] but were not observed in China [14]. However, considering that only 50% to 60% of young diabetic patients aged 30 to 40 years have insight to have diabetes in Korea [1516], and undiagnosed diabetic patients showed a significantly higher risk of cardiovascular disease compared to diagnosed diabetic patients [15], a public heath strategy targeting the younger population for diabetes screening might be needed.
TRENDS IN RISK FACTORS FOR DEVELOPING DIABETES
Obesity
In Korea, the prevalence of obesity and abdominal obesity in the general population has increased from 2005 to 2007; it has remained steady since then [17]. However, in the cases of young women, body mass index (BMI) and waist circumference have significantly decreased during the 2000s in the general population [910]. By contrast, in the cases of women with diabetes of the same age, the prevalence of abdominal obesity increased from 66.3% to 72.9% during the same period [18]. Along with this trend, abdominal obesity is the single most important independent risk factor for diabetes in young Korean women [18]. It was associated with more than four times a higher risk of diabetes in 2010 even after an adjustment for age, dyslipidemia, family history, and exercise. The fact that abdominal obesity is the most important risk factor of diabetes in women was in agreement with a large cohort study conducted in the United States on young women during 16 years of follow-up [19]. Attributing the power of obesity or abdominal obesity for developing diabetes was more prominent at a young age compared to the elderly population in Korean women [18], as well as in Japanese women [20].
In terms of men, there might be a difference in the contribution of obesity in the development of diabetes compared to women. For the last 10 years, BMI was significantly increased in young men [910]. However, there has not been much change in the prevalence of diabetes in young Korean men [9]. Furthermore, in them, the association between obesity and diabetes has been attenuated [18]. In the early 2000s, the prevalence of abdominal obesity in subjects with diabetes was about two times higher than that in nondiabetic subjects; however, there was no difference in the prevalence of abdominal obesity between subjects with and without diabetes in 2010 [18]. Instead, the association between a family history of diabetes and DM in these subjects was much stronger in the late 2000s [18].
β-Cell function
The main pathogenic mechanism in developing T2DM in obesity or aging is insulin resistance; however, more than 70% of obese or elderly people are free of diabetes [51721]. Recently, a 10-year follow-up cohort study showed that insulin sensitivity was significantly decreased with aging, regardless of the glucose tolerance state at the follow-up [22]. However, compared with participants who remained normal glucose tolerance (NGT), those who progressed to diabetes had a lower β-cell function [22], which agreed with previous reports in Japan [23] and a multiethnic population [24]. They have suggested that impaired β-cell function might be the determining factor whether or not T2DM develops or the condition of insulin resistance increased.
The main determinants of β-cell function in T2DM is genetic factor associated with the insulin secretion capacity and the proliferation and regeneration of β-cells [25]. A long-term cohort study in Korea also confirmed that a genetic variant near the glucokinase gene was significantly associated with the progression to diabetes [22].
In terms of age of onset, β-cell dysfunction might be more important in people with early-onset diabetes compared to elderly-onset diabetic patients [26], which was also reproduced in Korea [27]. Among people with recent-onset diabetes from the KNHANES, defined as those who have diabetes for <5 years, there was an inverse correlation between age and the homeostasis model assessment of β-cell function (Fig. 4). In addition, young diabetic patients were more influenced by a family history of diabetes compared to elderly patients [18], which was in agreement with Caucasians [28]. That association was more prominent in men. In young men, a family history of diabetes was associated with more than six times a higher risk of diabetes [18]. In the case of women of the same age, however, the presence of obesity but not family history was the most important determinant of diabetes status [18].
Sarcopenia
A decrease in the insulin sensitivity with the aging is well known, even in individuals who remained as NGT at 10 years [22], which can be partially explained by decreased muscle mass (i.e., sarcopenia, along with increased fat mass). The KNHANES 2008 to 2010 showed that for elderly-onset diabetic patients, insulin resistance was more prominent compared to middle-age-onset patients at the time of diagnosis [27]. Although insulin resistance was higher in the elderly-onset diabetic patients compared to the middle-age-onset patients, the BMI, waist circumference, and body fat mass of the elderly-onset subjects were not different across the age group, which was in agreement with the Chinese population [29]. In a cross-sectional study comparing Caucasian and Chinese patients with recent-onset diabetes (duration <2 years), a negative correlation between the age at diagnosis and BMI or insulin resistance was only observed in Caucasians. In Chinese diabetic patients, there was no relationship between age at diagnosis and BMI, insulin resistance, or triglyceride level [29].
Instead, a Korean nationwide survey showed that elderly-onset diabetic patients had significantly lower skeletal muscle mass and higher prevalence of sarcopenia compared with the middle-age-onset group [27]. Comparing the elderly-onset diabetic patients with the age-matched NGT subjects (although there was no difference in the sarcopenia class I prevalence) (milder form of sarcopenia; 1 to 2 standard deviations below the gender-specific mean for healthy young adults), the advanced stage of sarcopenia (>2 standard deviations below the gender-specific mean for healthy young adults; classified as class II) was found about three times more frequently in those with recent-onset diabetes compared with nondiabetic subjects (Fig. 5).
Socioeconomic status
Low socioeconomic status (SES) is a well-documented risk factor of diabetes in developed countries [3031]. Korea is one of the most rapidly developing countries in the world [32]; low SES has been an emerging risk factor for DM in recent years [333435]. Both low income status and low education level were significantly associated with the risk of diabetes in the KNHANES 2008 to 2012 even after an adjustment for other risk factors (i.e., obesity and dyslipidemia) [3334], which was not observed in 2001 or 2005 [33]. In other Asian countries, such as India and China, the same tendency was also observed [3637]. In addition, the association between SES and diabetes was prominent in people less than 65 years old [3335].
Poorer and less educated people have fewer opportunities for primary prevention, early diagnosis, and appropriate management [38]; however, these disadvantages can be overcome [3139]. Low SES is also associated with a high prevalence of obesity [3337]. The reduction of obesity in populations with a lower SES has proven to be successful for preventing diabetes in India [37], which might be another possible strategy for reducing health inequality according to SES.
CONCLUSIONS
In the 2000s, despite a steady state of the overall prevalence of diabetes, there have been changes in the gender-, age-, and SES-specific prevalence in Korean adults. A nationwide survey showed that there was a difference in major determining risk factors of diabetes according to each gender and age group. Considering the economic burden of diabetes and its associated comorbidities, a public health policy targeting major risk factors in each population (i.e., obesity in women or sarcopenia in older people) might be more effective in preventing diabetes at the national level.
Notes
CONFLICTS OF INTEREST: No potential conflict of interest relevant to this article was reported.