http://orcid.org/0000-0003-3283-1880
Figures
Abstract
Background
Adult seroprevalence of HAV is decreasing in developed countries including South Korea, due to general sanitation improvement. Although hepatitis A vaccination was introduced in South Korea more than 20 years ago, recent infection rates have not decreased. In this study, we investigate the seroprevalence of anti-HAV IgG, and estimate the national disease burden of acute hepatitis A in adult population.
Methods
Seroprevalence data were collected from health promotion center of Korea University Guro Hospital, in Seoul, Korea from 2010 to 2014. Data from adults (≥20-years) being tested for anti-HAV IgG were included. In addition, epidemiological and clinical data of patients diagnosed with acute hepatitis A from 2009 to 2013, were collected from Korean Statistical Information Service (KOSIS) and the National Health Insurance Service (NHIS) database. Data were stratified and compared by age groups.
Results
A total of 11,177 subjects were tested for anti-HAV IgG from 2010 to 2014. Age-related seroprevalence showed relatively low seropositivity in young adults. Incidence of acute hepatitis A was highest in 2009 and lowest in 2013. When categorized by age group, adults in their 20s and 30s had more HAV infections and related-admissions than older adults. However, ICU admission rate and average insurance-covered cost was high in older adults.
Conclusion
The anti-HAV IgG seropositivity in Korean younger adult population was low while the incidence of acute hepatitis A was high, especially in the 20–39 aged. However, a substantial number of older adults were infected, and required more intensive procedures and incurred higher insurance-covered medical costs.
Citation: Yoon JG, Choi MJ, Yoon JW, Noh JY, Song JY, Cheong HJ, et al. (2017) Seroprevalence and disease burden of acute hepatitis A in adult population in South Korea. PLoS ONE 12(10): e0186257. https://doi.org/10.1371/journal.pone.0186257
Editor: Sheng-Nan Lu, Chang Gung Memorial Hospital Kaohsiung Branch, TAIWAN
Received: May 23, 2017; Accepted: September 28, 2017; Published: October 24, 2017
Copyright: © 2017 Yoon et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Data Availability: The data underlying this study are available to interested and qualified researchers through application to the following organizations: National Health Insurance Sharing Service, https://nhiss.nhis.or.kr; Healthcare Bigdata Hub by HIRA (Health Insurance Review & Assessment Service), http://opendata.hira.or.kr. Data obtained from KOSIS (Korean Statistical Information Service) are publicly available via http://kosis.kr.
Funding: The authors received no specific funding for this work.
Competing interests: The authors have declared that no competing interests exist.
Introduction
Hepatitis A virus (HAV) is a major cause of acute viral hepatitis, and is mainly transmitted by contaminated food and water. Most childhood HAV infections are asymptomatic or mildly symptomatic, without the need for medical care, however, severe symptoms or complications may occur in adults. Occasionally, fulminant hepatitis may develop, and liver transplantation may also be required in some such cases. In developed countries, acute hepatitis A infection in adult population is one of the major public health concerns.
During childhood, natural immunity against HAV can be acquired by acute infection, thereby producing anti-HAV immunoglobulin G (anti-HAV IgG). The seroprevalence rate of anti-HAV IgG varies in different regions and countries. In recent years, HAV seropositivity in young adults is decreasing as a result of improved general hygiene and economic status. In South Korea, HAV seropositivity was more than 80% in teenagers during 1970s, and had decreased to less than 20% in 2007, highlighting a rapid decline in immunity against HAV [1]. This low HAV seropositivity in young adults may induce an increase in incidence of symptomatic acute hepatitis A and consequently, increase the national health economic burden.
Despite the growing concern, there is limited data available on recent seroprevalence of anti-HAV IgG and acute hepatitis A disease burden in South Korea. The Korean Society of Infectious Disease guideline for adult immunization schedule recommends hepatitis A vaccination to young adults aged 19–29 years without testing anti-HAV IgG level, and to those aged 30–49 years after testing anti-HAV IgG level [2]. Nevertheless, high cost of the vaccine and low awareness of hepatitis A have been obstacles to proper vaccination and disease control. In South Korea, the hepatitis A vaccine has been available since 1997 [3], however, the seropositivity remains low in young adults, and the incidence of acute hepatitis A continues to increase [4]. Therefore, defining a suitable age group to examine anti-HAV IgG before vaccination, or recommending vaccination without antibody level examination are essential to establishing a comprehensive health care policy to counter HAV infections. In this study, we investigated anti-HAV IgG seroprevalence in adult population using the data from a health promotion center. Furthermore, national disease burden including insurance-covered cost of acute hepatitis A was studied using the National Health Insurance Service (NHIS) data.
Methods
HAV seroprevalence
The HAV seroprevalence data were collected from the health promotion center of Korea University Guro Hospital in Seoul, Korea, from 2010 to 2014. Adults aged over 19 years, who visited the center for medical examination and tested for anti-HAV IgG, were included in the study. Subjects were categorized into age groups as follows: 20–24 years, 25–29 years, 30–34 years, 35–39 years, 40–44 years, 45–49 years, 50–54 years, 55–59 years and 60-years or more. The whole process of data access and collection were confirmed as suitable by Institutional Review Board.
Epidemiology and disease burden of hepatitis A
In South Korea, a patient diagnosed with acute hepatitis A should be reported to the community health center and recorded at the Korean Centers for Disease Control and Prevention, and the Korean Statistical Information Service (KOSIS). The NHIS provides national medical insurance under control of the Ministry of Health and Welfare. Almost the entire South Korean population is registered to the service and all NHI-covered healthcare costs are reported and assessed by Health Insurance Review and Assessment Service. Annual epidemiological data of acute hepatitis A were obtained from both KOSIS and NHIS databases. The NHIS database includes detailed patient information, such as date of admission, place of residence, gender, age, etc., unlike the KOSIS database. Also, the NHIS database includes all NHI-covered costs of admissions including medical procedures, surgeries, prescribed drugs, blood products, etc. The KOSIS database had only 3 years of relevant data (from 2011 to 2013), as the recording of hepatitis A incidences as KOSIS was launched only in 2011. From 2009 to 2013, adults aged 20–59 years and registered at the NHIS were included in this study. The study population was categorized by age, in 10-year intervals: 20–29 years, 30–39 years, 40–49 years and 50–59 years. In the NHIS data, cases of hepatitis A infection were identified using the Korean Standard Classification of Disease (KCD)-6 codes: B15.0 for hepatitis A with hepatic coma and B15.9 for hepatitis A without hepatic coma. Data collected for each patient included: duration of admission, admission to intensive care unit (ICU), mechanical ventilator use, continuous renal replacement therapy (CRRT) use, transfusion (fresh frozen plasma, platelet concentrate, or platelet plasmapheresis), liver transplantation, and cardiopulmonary resuscitation. Overall, NHI-covered direct medical costs including medical services and medication during hospitalization were also calculated for each age group.
Statistics
Statistical analysis was performed using SPSS 15.0 software. Seropositivity and disease burden were compared among the various age groups. Difference of seropositivity between years and other categorical variables were analyzed using Chi-Square tests, while continuous variables were compared using ANOVA. A p-value < 0.05 was considered statistically significant.
Results
HAV seroprevalence
A total of 47,289 adults visited the health promotion center between 2010 and 2014. A total of 11,177 subjects (23.6%) among the total 47,289, were tested for anti-HAV IgG levels; the year-wise distribution is as follows: 817 (9.1%) of 8,976 in 2010; 1,811 (19.0%) of 9,507 in 2011; 2,258 (24.2%) of 9.319 in 2012; 3,993 (39.7%) of 10,058 in 2013; and 2,298 (24.4%) of 9,429 in 2014.
A comparison of anti-HAV IgG seroprevalence across the age groups revealed that the HAV seroprevalence increased with age. Young age groups exhibited low HAV seropositivity (20–24 years, 12.7%; 25–29 years, 16.0%; 30–34 years, 26.7%). In addition, older age groups also showed moderate HAV seropositivity (35–39 years, 50.5%; 40–44 years, 76.0%). In contrast, more than 90% of the above 45-years-old population was HAV seropositive, with the age group-wise distribution as follows: 45–49 years, 92.6%; 50–54 years, 97.4%; 55–59 years, 99.8%; over 60-years-old, 99.7%). There was no significant difference between years in each age group (Table 1, Fig 1).
Epidemiology and disease burden of hepatitis A
According to the NHIS data, the incidence of acute hepatitis A infection decreased continuously, from 2009 (N = 58,651, 192.8 cases per 100,000 population) to 2013 (N = 8,345, 26.7 cases per 100,000 population). In addition, the infection incidences were particularly high in the springs and summers (Figs 2 and 3, Table 2). Based on the classification of cases by region, the incidence was higher in the mid-western region of South Korea, including Seoul, Daejeon, Gwangju and Kyunggi. In contrast, the incidence was lower in the south-east region, including Busan, Daegu, Kyungbuk and Kyungnam.
Hospital admission rate because of HAV infection was highest in the 30–39 years age group, with 17,138 cases (42.5 cases/100,000 population per year) and lowest in the 50–59 years age group, with 1,691 cases (4.3 cases/100,000 population per year). Duration of admission due to HAV infection was longer for subjects aged over 30 years’ (7.46 days in 20–29 years, 12.60 days in 30–39 years, 11.88 days in 40–49 years, 13.87 days in 50–59 years, p<0.0001). Furthermore, NHI-covered per capita medical cost was also higher with increasing age (people in 20s: 2,818,904 KRW, 30s: 3,701,382 KRW, 40s: 6,770,345 KRW, 50s: 9,711,832 KRW, p<0.0001). Total medical cost was highest in the 30–39 years age group. Case of mechanical ventilator application, CRRT, transfusion and liver transplantation were more frequent in the 30-39-years-old subjects in absolute case number, but the proportion of performing the above-mentioned procedures were higher in the older population. CPR rate indirectly measures the in-hospital mortality, and this was also higher in the older population: 4 in 46,413 (0.03%), 20–29 years; 3 in 61,670 (0.02%), 30–39 years; 4 in 26,477 (0.28%), 40–49 years; and 3 in 11,243 (0.18%), 50–59 years. All medical procedure rate were different significantly (p<0.01) (Table 3).
Discussion
HAV is the only member of the genus Hepatovirus in the Picornaviridae family. The viral particle, containing the single-stranded RNA genome, is fairly stable in the environment, and is transmitted via water and food contaminated with fecal matter [5]. Acute hepatitis A in adults has a more severe progression than in children, and may result in fulminant hepatitis, acute kidney injury, and even death in some cases. In developed countries including South Korea, hepatitis A infection during childhood is decreasing as a result of improved general hygiene [6]. Accordingly, adolescents and young adult population have lower seroprevalence of the protective antibody acquired by natural infection and hence more susceptible to acute hepatitis A infection in adult. Thus, investigating the current seroprevalence of anti-HAV IgG, and the disease burden of hepatitis A, will aid in the efforts toward infection control.
In South Korea, sporadic endemic hepatitis A outbreaks were reported since 1990, and the incidence increased strikingly after 2000, the year of designation of hepatitis A as a national notifiable infectious disease [1]. In spite of the HAV vaccine being available since 1997, the routine hepatitis A vaccination for children started just since 2015. Further, the rate of catch-up vaccination for young adults remains low due to high cost and low level of knowledge and awareness [3]. There is no large-scale, reliable study of hepatitis A vaccination rate in South Korea; however, several studies have reported vaccination rates to be 18.9% in adolescents, and 12.9–23.4% in college students [7–9]. In addition, the anti-HAV IgG seroprevalence in young adults is quite low in South Korea, especially for people in their 20s and 30s. Many Korean seroprevalence studies have demonstrated that only 1.0–18.8% of the 20-29-years-old, 26.0–48.4% of the 30-34-years-old, and 39.4–80.2% of the 35-39-years-old adults had the anti-HAV IgG antibodies [10–16]. Out study also demonstrated low seropositivity in people in their 20s (12.7% in 20-24-years-old, 16.0% in 25-29-years-old) and early 30s (26.7% in 30-34-years-old). Therefore, a substantial risk of acute hepatitis A outbreak among younger adult populations still exists, and may continue to grow for a while. To ensure cost-effectiveness, the Korean Society of Infectious Disease guideline recommends anti-HAV IgG check before vaccination for people in their 30s. However, active catch-up immunization without antibody check may be required, especially in early 30s. Epidemiologic and clinical data from recent studies display similar results; from 2007 to 2009, data from 21 tertiary hospitals showed 4,218 hepatitis A patients, mainly in their 30s. [17].
In our study, the incidence of hepatitis A varied among the different regions of Korea. A previous epidemiological study during 2011–2013, reported a similar prevalence of acute hepatitis A in the mid-western region, as we report here [18]. This suggests common infection source such as water supply system or other contaminated foods sources. The European hepatitis A outbreak in 2013 was believed to be associated with mixed frozen berries, raw shellfish, and traveling to/from endemic countries [19, 20]. Further studies with molecular analysis would be needed to investigate the cause of hepatitis A endemicity in South Korea.
A study by Shon et al. reported the estimated national economic burden of hepatitis A, B, and C per year, including the direct and indirect costs [21]. However, there is no study showing age-related difference of hepatitis A disease burden in South Korea. In this study, the overall number of patients and admission rate were higher in young adults; however, the individual ICU admission rates, mechanical ventilator use, CRRT use, liver transplantation rate, conduction of CPR, and total NHI-covered costs were higher in the older adults. This may be explained as the older adults may have more underlying illnesses or chronic diseases, which can contribute to more severe disease progression than in the young adults. Confounding factors such as age-related factors, or underlying illnesses, could not be considered in our study because patient’s past history from the NHI database was not reliable. Further studies with more reliable and detailed patient information would be needed to better analyze the disease burden. The NHI database also did not include accurate mortality data, and patient’s death had to be inferred from the CPR data. Higher mean costs, with large standard deviation than median costs indirectly express unbalanced distribution of medical cost per individuals due to various disease severity.
Our study had several limitations. First, a selection bias may exist, as the seroprevalence data were collected from only a single center and visited by almost healthy person with stable socioeconomic status. Therefore, the data may not reflect the entire population in Korea. Second, substantial omitted report, preliminary diagnosis, or misdiagnosis may obfuscate the true incidence of hepatitis A. The KOSIS data, reported by local physicians, showed a much lower HAV infection incidence compared to the NHIS data, which is automatically saved by inputting the diagnosis. It is difficult to determine the reliability of one dataset over the other, and more reasonable and readily accessible surveillance system for hepatitis A would be necessary. Third, each patient’s non-NHI-covered medical cost, as well as indirect costs such as loss of labor, was not considered.
In conclusion, hepatitis A seropositivity was considerably low, especially in the young adults (20-34-years old). Recent cases of acute hepatitis A are decreasing; however, new outbreaks may occur in this at-risk population. The incidence and admission rate of acute hepatitis A in young adults was higher, and associated with substantial disease burden. Therefore, hepatitis A immunization must promote not only routine vaccination for children, but also catch-up vaccination for young adults. Strengthened support and active public campaign towards young adult vaccination are essential in South Korea.
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