Japanese encephalitis immunization in South Korea: past, present, and future.Japanese encephalitis Japanese Encephalitis Definition Japanese encephalitis is an infection of the brain caused by a virus. The virus is transmitted to humans by mosquitoes. (JE), once a major public health problem in South Korea, has declined since the 1980s, as a result of improved living conditions living conditions npl → condiciones fpl de vida living conditions npl → conditions fpl de vie living conditions living , a mosquito eradication program, and a national JE vaccination program, which includes annual booster vaccine for all children [is less than] 15 years of age. Increased immunity has greatly reduced illness and death; however, vaccine adverse effects are increasing, and a National Compensation Program for Vaccine Injury A vaccine injury is an injury caused by vaccination. Historically, allegations of vaccine injuries have come in waves, and have been closely related to litigation, and publicity surrounding that litigation. was begun in 1995. This article reviews past successes, current problems, and future direction of the JE vaccination program in South Korea. Epidemiology of Japanese Encephalitis (JE) in South Korea Historically, JE occurred seasonally in South Korea, causing high rates of illness and death. Although public health records concerning the incidence of the disease before 1933 are not available, outbreaks of "summer encephalitis encephalitis (ĕnsĕf'əlī`təs), general term used to describe a diffuse inflammation of the brain and spinal cord, usually of viral origin, often transmitted by mosquitoes, in contrast to a bacterial infection of the meninges " were recognized. During summer 1934-35, an outbreak was reported of suspected encephalitis, with acute onset of spiking fever spiking fever Hectic fever Infectious disease A highly nonspecific term for either a fever characterized by a daily spike in temperature, or one in which the peak and trough temperatures differ by 1. and headache, as well as neurologic abnormalities and mental changes. Although these outbreaks were described as meningococcal meningitis meningococcal meningitis n. An acute infectious disease affecting children and young adults characterized by inflammation of the meninges of the brain and spinal cord, headache, vomiting, convulsions, stiff neck, light sensitivity, and purpuric by Korean health authorities, some Japanese workers reported that many of the cases were encephalitis (1,2). In 1946, Sabin Sa·bin , Albert Bruce 1906-1993. American microbiologist and physician who developed a live-virus vaccine against polio (1957), replacing the killed-virus vaccine invented by Jonas Salk. et al. (3) isolated JE virus from an American soldier stationed in South Korea. Deuel et al. (4) conducted the first extensive serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. survey by neutralizing test in four areas of South Korea and reported that JE virus was widely disseminated. In 1947, JE was added to the list of first-class emergency diseases in South Korea. In 1949, when JE became notifiable notifiable /no·ti·fi·a·ble/ (no?ti-fi´ah-b'l) necessary to be reported to a government health agency. notifiable necessary to be reported to the relevant government authority. Said of individual diseases. , 5,548 cases of clinically suspected disease were reported with 2,429 deaths (49% case-fatality rate). The criteria for reporting were high spiking fever, headache, and mental changes with any symptom of central nervous system involvement. Hullinghorst et al. (1), who described the 1949 epidemic in South Korea, reviewed [is greater than] 600 hospital records. Results of bacterial cultures of cerebrospinal fluid cerebrospinal fluid (CSF) Clear, colourless liquid that surrounds the brain and spinal cord and fills the spaces in them. It helps support the brain, acts as a lubricant, maintains pressure in the skull, and cushions shocks. (CSF Cerebrospinal Fluid (CSF) Analysis Definition Cerebrospinal fluid (CSF) analysis is a laboratory test to examine a sample of the fluid surrounding the brain and spinal cord. ) were reviewed for 567 cases, and the complement fixation complement fixation n. The binding of active complement to a specific antigen-antibody pair used in diagnostic tests, such as the Wasserman test, to detect the presence of a specific antigen or antibody. and neutralization tests were performed in selected cases. Pathology findings and JE virus isolation from a case, negative results of CSF bacterial cultures, and a relatively uniform clinical picture, including acute high fever, headache, and various neurologic abnormalities, suggested that the outbreak in 1949 was JE (1,5). Thereafter, several outbreaks of thousands of JE cases were reported every 2 to 3 years, and JE was recognized as a recurring public health problem in South Korea (6,7). In 1954, when the Communicable Disease communicable disease n. A disease that is transmitted through direct contact with an infected individual or indirectly through a vector. Also called contagious disease. Control Act (Reg. 308) was enacted, JE was classified as a first-class notifiable communicable disease. The largest recorded JE epidemic, involving 6,897 reported cases, occurred in 1958 (7). In 1963, JE was reclassified as a second-class notifiable disease no·ti·fi·a·ble disease n. A disease that must be reported to public health authorities at the time it is diagnosed because it is potentially dangerous to human or animal health. Also called reportable disease. , along with polio, pertussis pertussis: see whooping cough. , measles, mumps, and other childhood diseases. Since 1964, seroepidemiologic studies with the hemagglutination inhibition test hemagglutination inhibition test n. A test to determine the amount of a specific antigen in a blood serum sample. Also called HI test. (HI) have been conducted routinely for clinically suspected cases. In 1964, 108 paired and 1,636 acute-phase sera were tested (8,). The results indicated that 86.7% of acute-phase sera were negative by the HI test and 54% of paired sera were positive in their second sample. Several thousand cases were reported annually until 1968, with the exception of 1963, when only 19 cases were reported; Chang et al. (9) provide evidence for underreporting in that year (Figure 1). Case reports sharply declined to [is less than] 100 cases in 1969; [is greater than] 1,000 cases were reported annually until 1973. The last large epidemic was recorded in 1982, when 1,197 cases and 40 deaths were reported. This rapid decline in reported cases may be related to the extensive use of insecticides in rice farming, which led to a marked decrease of Culex tritaeniorhynchus Culex tritaeniorhynchus is a species of mosquitoes which transmits Japanese encephalitis. This mosquito is a native of northern Asia, and parts of Africa (Northeast and Sub-Saharan). The females target large animals for blood extraction, including cattle and swine. in rural habitats (10,11). [Figure 1 ILLUSTRATION OMITTED] The highest incidence of JE was recorded in Seoul and Kyonggi Province during the first officially reported outbreak in 1949 (Figure 2A). In the epidemics during 1965 to 1984, a higher incidence was recorded in the southwestern than in the northeastern provinces (Figure 2B). The southwestern provinces are mainly under rice cultivation with large flooded rice paddies, while the northeastern provinces are mountainous. Vector mosquito populations were more prevalent in the southwest than in the northeast (8), leading to greater risk for enzootic en·zo·ot·ic adj. Prevalent among or restricted to animals of a specific geographic area. Used of a disease. n. An enzootic disease. enzootic peculiar to or present constantly in a location. See also endemic. viral transmission in the southwestern provinces. The high incidence in Seoul in the 1949 outbreak may be accounted for by the rapidly increasing susceptible population in the capital and its suburbs since 1945 (7). Approximately 90% of the cases occurred from mid-August to mid-September; more than 80% were among children 3 to 15 years of age (9,10). [Figure 2 ILLUSTRATION OMITTED] Factors affecting the size of JE epidemics include the risk for being infected by the virus when bitten by a vector mosquito and the JE seropositive seropositive /se·ro·pos·i·tive/ (-poz´i-tiv) showing positive results on serological examination; showing a high level of antibody. se·ro·pos·i·tive adj. rate in the population. In 1965, before the national vaccination program was implemented, Chang et al. (9) estimated the natural seroconversion seroconversion /se·ro·con·ver·sion/ (-con-ver´zhun) the change of a seronegative test from negative to positive, indicating the development of antibodies in response to immunization or infection. rate of HI antibody in children [is less than] 15 years of age at approximately 9%, indicating that the estimated incidence of JE cases during epidemics would have been higher without intervention. Several studies comparing seroprevalence rates seroprevalence rates (sir´ōprev´-  lns),n. before and after the epidemic season indicated that the seropositivity Seropositivity is the presence of a certain antibody in a blood sample. A patient with seropositivity for a particular antigen or agent is termed seropositive. rate was higher in South Choongchung Province (86.4% before the epidemic season vs ~100% after the epidemic season in 1984) than in Seoul (56% before the epidemic season vs ~72% after the epidemic season in 1987) (Figure 3) (12-15). [Figure 3 ILLUSTRATION OMITTED] From 1985 to 1998, only 21 cases of JE were serologically confirmed. Factors leading to this decrease include the National Immunization immunization: see immunity; vaccination. Program (NIP), initiated in 1983, which has conferred protective immunity on children at risk. The national socioeconomic growth for the past 3 decades has allowed improved standards of living and environmental conditions. The modernization of agricultural practices led to changes in the epidemiology of JE. Epidemic Forecast Program Since 1975, an epidemic forecast program to alert the public against JE has been implemented by the health authorities every year before the epidemic season (16) (Table 1). To predict the possibility of an outbreak, the health authorities have attempted to isolate the virus from the vector mosquito, C. tritaeniorhynchus; estimate population density of C. tritaeniorhynchus among captured mosquitoes; and determine JE antibody levels in pigs. Monitoring for C. tritaeniorhynchus begins in early May. The population density of C. tritaeniorhynchus in mosquitos captured in seven urban and rural areas was 76.1% in 1982, when the most recent epidemic occurred (11). Because outbreaks in humans seem closely related to a rapid rise of HI antibody titers in pigs, the blood of young pigs ([is less than] 6 months old) is screened weekly at slaughterhouses for immunoglobulin (Ig) M antibody. In areas where epidemics have occurred, vector mosquitos collected are homogenized ho·mog·e·nize v. ho·mog·e·nized, ho·mog·e·niz·ing, ho·mog·e·niz·es v.tr. 1. To make homogeneous. 2. a. To reduce to particles and disperse throughout a fluid. b. and injected into suckling suckling In mammals, the drawing of milk into the mouth from the nipple of a mammary gland. In human beings, it is referred to as nursing or breast-feeding. The word also denotes an animal that has not yet been weaned—that is, whose access to milk has not yet been mice; JE virus is identified by HI and, recently, by polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is in the brains of mice manifesting JE symptoms. Table 1. The Japanese encephalitis (JE) epidemic forecast program, South Korea
Date
index
case
Date of Date of diag-
Year attention alarm nosed Province(a)
1975 6/24 8/19 8/22 South Cholla
1976 6/25 8/18 9/10 South Cholla
1977 6/20 8/9 8/18 Cheju
1978 6/23 8/16 8/22 South Cholla
1979 6/20 8/7 8/30 South Cholla
1980 6/16 8/22 8/28 South Cholla
1981 6/26 8/19 8/22 Kyonggi
1982 6/14 7/23 8/6 South Cholla
1983 5/24 8/16 8/23 South Cholla
1984 6/5 8/16 -- NA(b)
1985 5/21 8/20 -- NA
1986 5/22 8/25 -- NA
1987 5/21 7/30 8/11 South Cholla
1988 5/30 8/10 9/8 South Cholla
1989 5/25 8/25 -- South Cholla
1990 5/23 8/21 9/26 South Cholla
1991 5/23 7/31 7/29 Kyonggi
1992 5/13 8/13 8/24 South Cholla
1993 6/1 8/10 8/12 Cheju
1994 5/20 8/4 9/6 South Cholla
1995 5/11 8/24 -- South Cholla
1996 5/23 8/13 South Cholla
1997 5/27 6/20 Kyonggi
1998 5/7 8/13 8/6 South Cholla
(a) Province is the place where JE virus was first isolated in that year. (b) Not available. When the JE vector mosquito is first detected, health authorities issue an alert that encourages JE vaccination (Table 1). If JE IgM antibody titers increase in pigs or JE virus is isolated, aggressive mosquito control is implemented. Active JE Immunization in the Spring Mass Immunization Campaign A small amount of the mouse brain-derived formalin-inactivated Nakayama vaccine from Japan was imported in 1967 (17,18). In the early 1970s, the Nakayama vaccine began to be produced locally. Despite an active campaign with the Nakayama vaccine, the annual number of doses distributed remained under 500,000 in the 1970s, for a vaccine coverage rate of [is less than] 5% (11). However, the vaccine coverage rate increased to 16.8% in 1981. The most recent epidemics--1,197 reported cases in 1982 and 139 in 1983--prompted a mass immunization program for children at risk. Children 3 to 15 years of age were vaccinated at state public health centers, and simultaneous vaccination in the private sector was encouraged; as a result, the immunization rate increased to 60% in 1983, when a JE epidemic occurred. In 1986, 12 million doses were distributed in the public and private sectors, which was more than the estimated number of children [is less than] 15 years of age. From 1985 to 1992, almost 10 million doses of Nakayama vaccine were distributed each year, enough to vaccinate vac·ci·nate v. To inoculate with a vaccine in order to produce immunity to an infectious disease such as diphtheria or typhus. vac 97% of the nation's children (Figure 1). In 1983, the age of initial dose of JE vaccine was recommended by the health authorities at 3 years of age, except for areas in which the disease had recently become endemic, where it could be given earlier. The series consisted of three doses of primary vaccination, with annual boosters until 15 years of age. Because the vaccination rate could not be maintained above 90% by individual immunization during the spring campaign (May to July), mass immunization at schools and public health centers was used. Since 1984, when JE vaccine coverage reached almost 90%, only a few sporadic cases occurred in young adults or the elderly. The incidence of JE was reduced from [is greater than] 18.5/[10.sup.5] in 1964 to [is less than] 0.02/[10.sup.5] over the past 3 decades. Several factors contributed to the rapid decline. In addition to improved living conditions, public health, the widespread use of agricultural herbicides and insecticides, a decrease in the population density of vector mosquitos by the removal of mosquito habitats, and the modernization of agricultural practices, such as improved sanitary conditions on pig farms in rural areas, may have decreased the risk for human infection. In South Korea, C. tritaeniorhyncus usually appears in May and multiplies rapidly in July and August. From 1982 to 1985, mosquitos were collected in seven areas from May to late October. The number of mosquitos gradually decreased, from 11,278 per day (76% C. tritaeniorhyncus) in 1982; to 4,334 (59.2%) in 1983; 2,150 (40.3%) in 1984; and 1,212 (34.4%) in 1985 (11). The virus infestation infestation /in·fes·ta·tion/ (-fes-ta´shun) parasitic attack or subsistence on the skin and/or its appendages, as by insects, mites, or ticks; sometimes used to denote parasitic invasion of the organs and tissues, as by helminths. rate of the vector mosquito has been consistently [is less than] 1% since 1990. Consequently, the risk of being exposed to the vector mosquito and infected by JE virus has decreased. Another contributing factor is the policy of maintaining high levels of immunity through the expansion of the routine childhood immunization childhood immunization Children's vaccination, childhood vaccination In the US, it is recommended that all children receive vaccination against Diphtheria, tetanus, pertussis, HBV, H influenzae program. An immunization coverage rate [is greater than] 97% has significantly contributed to the prevention of JE. In 1969, a JE vaccine efficacy trial was performed among schoolchildren schoolchildren school npl → écoliers mpl; (at secondary school) → collégiens mpl; lycéens mpl schoolchildren school in southwestern provinces in South Korea; approximately 45,000 children were vaccinated and another 45,000 were controls. Although no epidemic occurred during this period (19,20) because of vaccination, the HI seropositive rate of 11.6% in prevaccination sera increased to 75% in postvaccination sera after two doses of mouse brain-derived Nakayama vaccine. The seropositivity rate by neutralizing antibody neu·tral·iz·ing antibody n. An antibody that reacts with an infectious agent, usually a virus, and destroys or inhibits its infectiveness and virulence. test was 99% postvaccination. At present, visitors to South Korea on business or vacation are considered at low risk for JE; routine vaccination with Nakayama vaccine may not be necessary for these travelers. However, JE immunization is recommended for visitors to disease-endemic areas during transmission season. Vaccine is advised especially for travelers who stay for an extended time ([is greater than] 30 days) or are at high risk for exposure to vector mosquitos through activities or housing. Vaccine Manufacture and Supply In 1972, the manufacture of Nakayama JE vaccine was privatized and transferred to the South Korea Green Cross Company. Currently, seven pharmaceutical companies manufacture JE vaccine. Before 1995, when boosters were given annually, the total amount of vaccine needed for the population at risk was 8,500 to 9,000 liters per year. Vaccine production is projected more than 1 year in advance; the amount to be used the next year is usually determined in February. Then the injection of JE virus into mice, recovery of the virus from mouse brain tissue, and production of bulk vaccine begin. Vaccine is ready in October, and after a thorough testing in January of the following year, is distributed in March. Vaccine Adverse Effects Although the mass immunization campaign was successful in attaining high rates of vaccination coverage, JE vaccine-related adverse effects may have been overlooked. A reporting system was not available until 1995, so the incidence of JE vaccine-related adverse effects among South Korean children is not known. However, in 1994, six cases of severe systemic illness after JE vaccination were reported (21) (Table 2). Two sudden deaths were attributed to anaphylactic anaphylactic /ana·phy·lac·tic/ (an?ah-fi-lak´tik) pertaining to anaphylaxis. anaphylactic (an´ reaction to the vaccine, and four cases of severe neurologic illness, including encephalopathy encephalopathy /en·ceph·a·lop·a·thy/ (en-sef?ah-lop´ah-the) any degenerative brain disease. AIDS encephalopathy HIV e. anoxic encephalopathy hypoxic e. and acute disseminated encephalomyelitis acute disseminated encephalomyelitis n. A diffuse inflammation of the brain and spinal cord usually caused by a perivascular hypersensitivity response. , were reported. Since 1994, seven cases have been filed with the Advisory Committee of the National Immunization Program, according to the National Compensation Program for Vaccine Injury (Table 2). [TABULAR DATA 2 NOT REPRODUCIBLE IN ASCII ASCII or American Standard Code for Information Interchange, a set of codes used to represent letters, numbers, a few symbols, and control characters. Originally designed for teletype operations, it has found wide application in computers. ] The Future of the Immunization Program Although the cost-effectiveness of the JE immunization program, including annual boosters, has not been evaluated, JE has been successfully controlled in South Korea for the past 2 decades. Questions remain about the optimum immunization schedule, including appropriate ages for initial vaccination and boosters. The state health authority recommends two doses 4 weeks apart with a booster 1 year later as a primary immunization, and annual boosters thereafter up to 15 years of age. Since the longevity of neutralizing antibody after primary vaccination was not known and seemed short lived, frequent boosters appeared necessary. However, without sound evidence, the total of 14 doses of vaccine until 15 years of age led to concerns about excessive vaccination and increased risk for vaccine adverse effects. The 1994 report of the cluster of severe adverse systemic effects after JE vaccination prompted medical and social debate (22,23). A causal association between JE vaccine and the cluster of severe adverse effects has not been clearly established; however, empiric evidence, including the timing of events, characteristics of the adverse reactions adverse reactions, n.pl unfavorable reactions resulting from administration of a local anesthetic; responsible factors include the drug used, concentration, and route of administration. , susceptibility, and lack of alternative etiologic agents, indicates a causal relationship. Public concern over adverse reactions led to refusal of the vaccination and a consequent decrease in coverage rate. In response, the National Compensation Program for Vaccine Injury was begun in 1995. During public debate about the JE immunization schedule, the safety and quality of the domestically produced JE vaccines were questioned. The Advisory Committee of the National Immunization Program announced that the annual booster immunization schedule had become impractical because of the inappropriate administration of the vaccine during the mass immunization in the spring, the need to define the long-term immunity in the elderly (> 65 years of age), poor recognition of adverse effects, the need to guarantee the quality of the vaccine manufactured in South Korea, and public reluctance to receive JE vaccination. The committee agreed that the JE immunization program should be improved with regard to the schedule, age of initial vaccination, booster schedule, and vaccine strain. The annual booster schedule was changed to once every 2 years, and single-dose rather than multidose vials were used, as recommended by the South Korean Society of Pediatricians. In 1996, a seroprevalence seroprevalence Immunology The proportion of a population that is seropositive–ie, has been exposed to a particular pathogen or immunogen; the seropositivity of a population is calculated as the number of individuals who produce a particular antibody divided study for plaque-reduction neutralizing antibody (PRNT) was carried out to indirectly evaluate the efficacy of booster vaccination in 311 schoolchildren (24). The neutralizing antibody titers were found to decrease gradually as the interval between boosters increased (Figure 4A). The seropositivity rate of 98.1%, 99%, and 95.6% at 6, 18, and 30 months, respectively, had declined to 71.4% by 42 months (Figure 4B). [Figure 4 ILLUSTRATION OMITTED] To replace the inactivated inactivated rendered inactive; the activity is destroyed. inactivated viruses treated so that they are no longer able to produce evidence of growth or damaging effect on tissue. mouse brain-derived vaccine, a clinical trial with a live attenuated Attenuated Alive but weakened; an attenuated microorganism can no longer produce disease. Mentioned in: Tuberculin Skin Test attenuated having undergone a process of attenuation. SA14-14-2 vaccine, which has been used safely and effectively in [is greater than] 100 million children in China since 1988 (25), was conducted in South Korean children in 1997. A preliminary immunogenicity immunogenicity /im·mu·no·ge·nic·i·ty/ (-je-nis´it-e) the property enabling a substance to provoke an immune response, or the degree to which a substance possesses this property. study among South Korean children 1 to 3 years of age indicated a 96% rate of seroconversion in PRNT antibody, with a geometric mean (mathematics) geometric mean - The Nth root of the product of N numbers. If each number in a list of numbers was replaced with their geometric mean, then multiplying them all together would still give the same result. titer titer /ti·ter/ (ti´ter) the quantity of a substance required to react with or to correspond to a given amount of another substance. (GMT (Greenwich Mean Time) See UTC. GMT - Universal Time 1 ) of 188 after a single primary immunization dose. In children who had been immunized with two or three doses of inactivated Nakayama vaccine, the booster administration of SA14-14-2 vaccine produced an anamnestic response with a GMT of 3,378 in all cases without virus-specific IgM response (Figure 5) (26). [Figure 5 ILLUSTRATION OMITTED] During the last 10 years, JE has occurred more frequently in adults than in children two-thirds of Korean JE patients were middle-aged adults. Adults are not protected by the current immunization program, probably because of waning immunity. Long-term immunity must be maintained to prevent secondary vaccine failure. A single booster with the live-attenuated SA14-14-2 vaccine might confer long-term immunity for adults and decrease the frequency of vaccination, as well as the risk for vaccine adverse effects. The national immunization program against JE in children should be continued according to established schedules in South Korea; however, the booster schedule should be adjusted. Surveillance for JE and vaccine adverse reactions should be strengthened to better assess the number of cases and reactions associated with immunization. A new, more advanced vaccine, such as the live attenuated SA14-14-2 vaccine, should be adopted and integrated into the pediatric pediatric /pe·di·at·ric/ (pe?de-at´rik) pertaining to the health of children. pe·di·at·ric adj. Of or relating to pediatrics. immunization schedule. the pediatric immunization schedule. This work was supported in part by grants from the Advisory Committee of the National Immunization Program, Department of Health and Welfare Grant no. HMP-98-P-0008. References (1.) Hullinghorst RL, Burns KF, Choi YT, Whatley LR. Japanese B encephalitis Jap·a·nese B encephalitis n. An epidemic encephalitis or encephalomyelitis of Japan, Siberia, and other parts of Asia, caused by a virus of the genus Flavivirus. in Korea. The epidemic of 1949. JAMA JAMA abbr. Journal of the American Medical Association 1951; 145:460-6. (2.) Shiba Y, Chun CH. On epidemic encephalitis or so-called summer encephalitis occurring in Seoul last summer. Journal of Mansen No Ikai 1935;180:1. (3.) Sabin AB, Schlesinger RW, Ginder WR, Matsumoto M. Japanese B encephalitis in an American soldier in Korea. American Journal of Hygiene 1947;46:356-75. (4.) Deuel RE, Bawell MB, Matumoto M, Sabin AB. Status and significance of inapparent inapparent not clearly seen. inapparent infection infection without clinical signs. infection with virus of Japanese B encephalitis in Korea and Okinawa in 1946. American Journal of Hygiene 1950;51:13-20. (5.) Lee SY, Kim UY. Studies on the epidemic of Japanese B encephalitis in Korea 1949. Part 1: Studies on the virus isolation. Bulletin of National Institute for Prevention of Infectious Disease Infectious disease A pathological condition spread among biological species. Infectious diseases, although varied in their effects, are always associated with viruses, bacteria, fungi, protozoa, multicellular parasites and aberrant proteins known as prions. 1950;2:54-69. (6.) Chang KS, Han JS, Lee BH. Epidemiological observation of Japanese B encephalitis in Korea, 1958. The New Medical Journal 1959;2:75-82. (7.) Chang IJ. Epidemiology of Japanese encephalitis in Korea. Korean Medical Journal 1959;4:35-50. (8.) Kim KH, Paik SB, Whang CH, Kim HD. Seroepidemiology of Japanese encephalitis in Korea, 1964. Report of National Institute of Health, Korea 1965;2:63-9. (9.) Chang IC, Hong KW, Whang KS. Japanese encephalitis in Korea, 1963. Human serology Serology The division of biological science concerned with antigen-antibody reactions in serum. It properly encompasses any of these reactions, but is often used in a limited sense to denote laboratory diagnostic tests, especially for syphilis. . Korean Medical Journal 1965;10:77-92. (10.) Kim KH. Epidemiological features of Japanese encephalitis in the Republic of Korea. Korean Journal of Virology The Journal of Virology is an academic journal that covers research concerning viruses, using cross-disciplinary approaches including biochemistry, biophysics, cell and molecular biology, genetics, immunology, morphology, physiology and pathogenesis. 1979;9:43-55. (11.) Lee CW, Oh DK. Epidemiological trend of Japanese encephalitis in Korea. Korean Journal of Preventive Medicine preventive medicine, branch of medicine dealing with the prevention of disease and the maintenance of good health practices. Until recently preventive medicine was largely the domain of the U.S. 1987;20:137-46. (12.) Lee YT, Youm BJ. A hemagglutination hemagglutination /he·mag·glu·ti·na·tion/ (he?mah-gloo-ti-na´shun) agglutination of erythrocytes. he·mag·glu·ti·na·tion n. inhibition antibody test for Japanese encephalitis virus among the Koreans, 1984-1985. Journal of Korean Society of Virology virology, study of viruses and their role in disease. Many viruses, such as animal RNA viruses and viruses that infect bacteria, or bacteriophages, have become useful laboratory tools in genetic studies and in work on the cellular metabolic control of gene expression 1986; 15:1-9. (13.) Lee YT, Cho KB, Kang PW, Hong SH, Park CH, Youm BJ. Distribution of hemagglutination inhibition antibody to Japanese encephalitis virus in Koreans 1987. Journal of Korean Society of Virology 1989; 19:41-7. (14.) Lee CH, Lee YT, Ko KK, Moon KS, Kim OJ. The distribution of hemagglutination inhibition antibody for Japanese encephalitis virus in Koreans, 1979. Korean Journal of Virology 1980; 10:65-9. (15.) Lee YT, Lee CH. The distribution of hemagglutination inhibition antibody for Japanese encephalitis virus in Koreans, 1976. Journal of Korean Society of Microbiology 1977; 10:65-9. (16.) Kim KH, Shin HK, Ree HI. Survey for the prediction of the occurrence of Japanese encephalitis epidemic in Korea, 1978. Journal of the Korean Society of Virology 1978;8:37-43. (17.) Kim KH, Paik SB, Chang KS. Epidemiology of Japanese encephalitis in the Republic of Korea, 1967. Annual Report of National Institute of Health, Korea 1967;1:55-72. (18.) Kim KH, Paik SB. Studies on the preparation of JE vaccine with mouse brain. Annual Report of National Institute of Health, Korea 1968;1:31-6. (19.) Kim KH. Japanese encephalitis vaccination. Journal of Korean Medical Association 1982;25:812-7. (20.) Kim KH. Japanese encephalitis vaccine and its efficacy. Postgraduate Medical Digest 1979;7:148-55. (21.) Sohn YM, Lee DH, Choi KW, Sohn KC, Lee JB, Sshin HK, et al. Cluster of adverse events after Japanese encephalitis vaccination in Korea. In: Program and Abstract of the 1994 Annual Meeting of Korean Society of Infectious Disease; Seoul, Korea; 1994 Nov 25; [abstract 14]. Korean Journal of Infectious Disease 1994;26;449. (22.) Sohn YM, Pyen BY, Hong YJ, Kang JW, Lee WJ, Oh SH, et al. Antibody response to Japanese encephalitis virus after immunization. Journal of Korean Pediatrics 1995;38:730-1. (23.) Sohn YM. Standards for immunization practices and vaccine injury compensation. Korean Journal of Infectious Disease 1995;27:247-53. (24.) Sohn YM, Choi BY, Kim CW, Kang JH, Kim JA, et al. Evaluation for the improvement of efficiency of immunization program in Korea; Japanese encephalitis. Report of Evaluation of National Vaccination Program. Washigton: National Institute of Health; 1999, p. 205-6. (25.) Tsai TF, Chan GJ, Yu YX. Japanese encephalitis vaccines. In: Plotkin SE, Orenstein E, editors. Vaccines. 3rd ed. Philadeplhia: W.B. Saunders Company; 1999. p. 672-710. (26.) Sohn YM, Park MS, Rho HO, Chandler LJ, Shope RE, et al. Primary and booster immune response immune response n. An integrated bodily response to an antigen, especially one mediated by lymphocytes and involving recognition of antigens by specific antibodies or previously sensitized lymphocytes. to SA14-14-2 Japanese encephalitis vaccine in Korean infants. Vaccine 1999; 17:2259-64. Dr. Sohn is professor of pediatric infectious disease at Yonsei University and a member of the Advisory Committee of the National Immunization Program. He was a member of a working group for the improvement of the national immunization program and of an ad hoc committee ad hoc committee A committee formed with the purpose of addressing a specific issue or issues, which theoretically is disbanded once its raison d'etre is finished for assessing JE vaccine adverse effects. He also participated in the clinical trial of SA 14-14-2 vaccine in South Korea. Address for correspondence: Young Mo Sohn, Department of Pediatrics, Yongdong Severnace Hospital, Yonsei University College of Medicine, Youngdong P.O. Box 1217, Seoul, 135-270 South Korea; fax: 82-2-3461-9473; e-mail: youngmo@yumc.yonsei.ac.kr |
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