Longjing Medial College(龍井醫科大學), established in Longjing, Yanbian, China on September 12, 1945, existed for about 1 year and 6 months until it was renamed as the Medical Department of Dongbei Junzheng Daxue Jilin Fenxiao(東北軍政大學吉林分校) in April 1947. However, there are only few records and studies on Longjing Medical College in Yanbian as well as in Korea. In order to fill the gap, this study attempted to restore the history of Longjing Medical College built in Yanbian, China immediately after the liberation. In particular, it analyzed how and why the Longjing Medical College was founded and operated, and which relations the college had with the post-war medical educational institutions, focusing on the ‘disconnection’ and ‘continuity’ in the historical sense. Since the establishment of Manchukuo(滿洲國), the Japanese colonial government had made it a major “frontier” and actively promoted the mass migration of Japanese and Koreans. For them, the government also set up three Exploitation Medical Schools in 1940. As a part of these three institutions, Longjing Exploitation Medical School(龍井開拓醫學院) educated more than 150 students by 1945, of which about one third was Korean. After the liberation, the Longjing Educational Alliance(龍井敎育同盟) decided to pursue the return-movement of the Longjing Exploitation Medical School and took over the institution. On September 12, 1945, Longjing Medical College opened at the school site of Longjing Exploitation Medical School. Longjing Medical College was founded by people who had ‘the perspective of Korean nationality’ in an atmosphere where the ‘ethnicity’ of the Koreans exercised considerable power. Nevertheless, in 1946, when the Chinese Civil War began and the Yanbian region became an important base of the Chinese Communist Party, the Party began to expand and strengthen their influences in the region. Accordingly, the operation rights of Longjing Medical College were transferred to the Yanbian Administrative offices of Supervision(延邊行政督察專員公署) and Government of Jirinsheng(吉林省政府) which were the administrative institution by the Chinese Communist Party in turns. In the end, Longjing Medical College was reorganized into the Medical Department of Dongbei Junzheng Daxue Jilin Fenxiao (1947. 3) and the first branch of the Chinese Medical College (1948. 1), a medical education institution focused on nurturing the medical personnel required for the Chinese Civil War. In January 1949, the first branch moved to Harbin, merged with the second branch there, and was transformed into Harbin Medical College. Afterwards, the Yanbian Koreans played a major role to establish Yanbian Medical College(延邊醫科專門學校) in a basis of the teachers and buildings left by the moving-out of the first branch(1948. 10. 1). Now, Yanbian Medical College is the official body of Yanbian University Medical Center. Longjing Medical College, which has such a complicated history, is partially ‘disconnected’ from the Yanbian medical educational institutions in the post-war era in terms of its possession, operation objective, and academic system. However, many of the early members of the Longjing Medical College were not only teachers and students of the Longjing Exploitation Medical School, but also a few of them continued to teach at the Medical Department of Dongbei Junzheng Daxue Jilin Fenxiao, the first branch of the Chinese Medical College, and Yanbian Medical College. Particularly, several members actively participated in the establishment of each school or in the position of the top leader of the school. Also, all the medical education institutions referred to above used the building and facilities of Longjing Exploitation Medical School until the period of Yanbian Medical College. As such, the history of Longjing Medical College as frontier history, gives us a difficult, but significant question on the meanings of ‘disconnection’ and ‘continuity’ in history and their implications.
Academic Medical Centers ; Asian Continental Ancestry Group ; Atmosphere ; China ; Education, Medical ; Humans ; Korea ; Schools, Medical

North Korea's health care system during the Korean War has a significant meaning in North Korean medical history and is also an appropriate research topic for understanding North Korea's wartime system. However, previous studies on North Korean medical history has been focused on before and after the war. This study traces the formation and operation of North Korea's wartime health system to fill the gap in the literature, aiming to identify that the support of the North Korean community in China's Yanbian community was key to North Korea's wartime health system.
North Korea reorganized its health care system, centered on the military, such as establishing field hospitals concurrently with the outbreak of the war. However, as time went on, the North Korean health care project began to put an emphasis on protecting the lives and health of the civilians behind the frontline. In addition to the primary need to prevent infectious diseases, the hygiene and prevention project functioned as a means to control and mobilize the public by emphasizing broad public participation. Although North Korea tried to meet the demand for a large medical personnel through short-term training, medical personnel were always in short supply during the war.
During the war, it was the Korean society in Yanbian that replenished medical personnel in North Korea and provided a space for a relatively stable hospital operation. Numerous Koreans in Yanbian participated in the Korean War as nurses, paramedic staff, transfusion donors, and army surgeons for North Korea. Such large-scale participation of medical personnel in Yanbian was based on the long-established medical exchanges between Yanbian and North Korea. Koreans in Yanbian also accommodated North Korean wounded, refugees, and war orphans and provided various medical assistance to them. During the war, Yanbian was a “secure rear” capable of performing medical actions that could not be done in North Korea.
This study has confirmed that North Korea's current participation in public health projects, which is a characteristic of its health care sector, has its origins in the Korean War. Moreover, it demonstrates that North Korea's medical history needs to be viewed from an East Asian perspective, including the Korean society in Yanbian, rather than a national-only perspective. The application of this view to the analysis of North Korean’s health care system in other historical periods would facilitate richer discussions.

PURPOSE: Overcrowding in urban emergency departments (EDs) while a decline in rural EDs due to mismatch of supply and demand of emergency medical resources are still issues to date. Therefore, this study analyzed the current characteristics and reality of bed utilization in the EDs of Korea. METHODS: Real-time availability of bed information was obtained from the emergency medical resource information system. The data were extracted for 4 weeks every 3 months, from April 2014 to January 2015. We analyzed the emergency department utilization (EDU) rate of emergency medical centers and hospitals based in 16 provinces in Korea. RESULTS: A total of 14,889,750 data were included. The total EDU rate was 20.0% (9.1-43.9%). The EDU rate was 66.7% (40.0-95.0%) for regional emergency medical centers (REMC), 33.3% (15.0-63.3%) for local emergency medical centers (LEMC), 11.1% (0.0-30.0%) for local emergency medical agencies (LEMA). The EDU rate was 71.4.0% (50.0.0-96.7.0%) for tertiary general hospitals (TGH), 20.0% (10.0-36.8%) for general hospitals (GH), and 10.0% (0-20.0%) for hospital & medical centers (HMC). The REMC EDU rate was high in Seoul and Jeonbuk, and low in Jeonnam and Gyeongbuk. The LEMC utilization rate was high in Daegu and Jeonbuk. The LEMA utilization rate was high in Daegu and Ulsan. Moreover, despite the same ED type, the EDU rate of high degree hospitals was higher. CONCLUSION: The EDU rate differed by region, emergency medical center, and hospital type. We should consider investing in appropriate personnel and emergency medical resources in places with suboptimal EDU rate.
Daegu ; Emergencies* ; Emergency Service, Hospital* ; Gyeongsangbuk-do ; Health Resources ; Hospitals, General ; Information Systems ; Jeollabuk-do ; Jeollanam-do ; Korea ; Seoul ; Ulsan

Background and Objectives: The objective of this study was to estimate the supply and demand for cardiologists in Korea and provide evidence for healthcare policy to ensure a stable and adequate workforce for optimal cardiovascular disease management. Methods: Past trends of inflow and outflow of cardiologists were used to make crude projections, which were then adjusted based on demands of services to obtain final projections. Inflow of cardiologists was estimated using second-order polynomial regression and demand for cardiology care was estimated using linear regression. Results: There were 1,139 active cardiologists who were under the age of 65 in clinical practice in Korea. The estimated number of cardiologists from 2022 to 2040 showed that the number of cardiologists would peak at 1,344 in 2032 and gradually decrease thereafter. We also estimated an increase of 947,811 cases of heart-related procedures annually from 2023 to 2032. The number of heart-related procedures per cardiologist would increase 1.4 times from 12,964 in 2023 to 17,862 in 2032. The estimated number of emergency patients per cardiologist under 50 years old would almost double from 544 in 2022 to 987 in 2032. Conclusions We expect significant shortage of cardiologists in Korea within the next 10 years. The number of emergency patients per cardiologist will increase by nearly 50%, leading to high individual workload for cardiologists. To prevent this imbalance between supply and demand, an organized and collective approach by the specialty of cardiology is imperative to produce a balanced workforce.

Background and Objectives: The objective of this study was to estimate the supply and demand for cardiologists in Korea and provide evidence for healthcare policy to ensure a stable and adequate workforce for optimal cardiovascular disease management. Methods: Past trends of inflow and outflow of cardiologists were used to make crude projections, which were then adjusted based on demands of services to obtain final projections. Inflow of cardiologists was estimated using second-order polynomial regression and demand for cardiology care was estimated using linear regression. Results: There were 1,139 active cardiologists who were under the age of 65 in clinical practice in Korea. The estimated number of cardiologists from 2022 to 2040 showed that the number of cardiologists would peak at 1,344 in 2032 and gradually decrease thereafter. We also estimated an increase of 947,811 cases of heart-related procedures annually from 2023 to 2032. The number of heart-related procedures per cardiologist would increase 1.4 times from 12,964 in 2023 to 17,862 in 2032. The estimated number of emergency patients per cardiologist under 50 years old would almost double from 544 in 2022 to 987 in 2032. Conclusions We expect significant shortage of cardiologists in Korea within the next 10 years. The number of emergency patients per cardiologist will increase by nearly 50%, leading to high individual workload for cardiologists. To prevent this imbalance between supply and demand, an organized and collective approach by the specialty of cardiology is imperative to produce a balanced workforce.

Background and Objectives: The objective of this study was to estimate the supply and demand for cardiologists in Korea and provide evidence for healthcare policy to ensure a stable and adequate workforce for optimal cardiovascular disease management. Methods: Past trends of inflow and outflow of cardiologists were used to make crude projections, which were then adjusted based on demands of services to obtain final projections. Inflow of cardiologists was estimated using second-order polynomial regression and demand for cardiology care was estimated using linear regression. Results: There were 1,139 active cardiologists who were under the age of 65 in clinical practice in Korea. The estimated number of cardiologists from 2022 to 2040 showed that the number of cardiologists would peak at 1,344 in 2032 and gradually decrease thereafter. We also estimated an increase of 947,811 cases of heart-related procedures annually from 2023 to 2032. The number of heart-related procedures per cardiologist would increase 1.4 times from 12,964 in 2023 to 17,862 in 2032. The estimated number of emergency patients per cardiologist under 50 years old would almost double from 544 in 2022 to 987 in 2032. Conclusions We expect significant shortage of cardiologists in Korea within the next 10 years. The number of emergency patients per cardiologist will increase by nearly 50%, leading to high individual workload for cardiologists. To prevent this imbalance between supply and demand, an organized and collective approach by the specialty of cardiology is imperative to produce a balanced workforce.

PURPOSE: Toxocariasis is the most common cause of peripheral blood eosinophilia in Korea and produces eosinophilic infiltration in various organs, including the lung. However, the prevalence of toxocariasis in the general population is rarely reported. METHODS: We investigated the seroprevalence of Toxocara larval antibody among asymptomatic people who attended Samsung Medical Center for a health checkup, including low-dose chest computed tomography (CT) between March 2012 and December 2013. A total of 633 people (400 men and 233 women) were prospectively recruited. RESULTS: The Toxocara-seropositive rate was 51.2% using the current cutoff value based on Toxocara enzyme-linked immunosorbent assay (ELISA) (67.0% for men and 24.0% for women). In the multivariate-adjusted model, age (odds ratio [OR], 1.08; 95% confidence intervals [CI], 1.04-1.11), male sex (OR, 3.47; 95% CI, 2.26-5.33), rural residence (OR, 1.55; 95% CI, 1.05-2.30), and history of raw liver intake (OR, 8.52; 95% CI, 3.61-20.11) were significantly associated with Toxocara seropositivity. When subjects were divided into 3 groups using cutoff values base on weak positive and strong positive control optical densities (ODs), the ORs for peripheral blood eosinophilia and serum hyperIgEaemia were 0.31 (95% CI, 0.02-2.89) in the weakpositive group and 36.64 (95% CI, 11.73-111.42) in the strong positive group compared to the seronegative group. Similarly, ORs for the solid nodule with surrounding halo were 2.54 (95% CI, 0.60-10.84) in the weak positive group and 15.08 (95 CI 4.09-55.56) in the strong positive group compared to the seronegative group. CONCLUSIONS: The study indicated that the Toxocara-seropositive rate obtained by using the current cutoff value based on ELISA was high in the asymptomatic population in Korea. The results of this study suggest that active toxocariasis may be more frequently seen in the Toxocara-strong positive group than in the Toxocara-weak positive group.
Adult* ; Diagnosis ; Enzyme-Linked Immunosorbent Assay ; Eosinophilia ; Eosinophils ; Humans ; Korea ; Liver ; Lung ; Male ; Prevalence* ; Prospective Studies ; Seroepidemiologic Studies ; Serologic Tests* ; Thorax ; Toxocara ; Toxocara canis ; Toxocariasis*

Mycobacterium marinum is an atypical mycobacterium (ATM) and is an uncommon cause of skin and soft tissue infections associated with contact with contaminated water. Diagnosis is often delayed when only a conventional identification method is used. PCR amplification and direct sequencing is recently available method for rapid identification of ATM. We report a case of M. marinum infection identified by PCR and sequencing. A 56-year-old female was referred for multiple erythematous nodules on both forearms which appeared two months ago. Skin biopsy showed suppurative granulomatous inflammation, and AFB culture showed nontuberculous Mycobacteria. PCR and sequencing were performed, and the obtained sequences were compared to the database using BLAST. The sequences of 16S rRNA and rpoB could not differentiate between M. marinum and M. ulcerans, showing 100% homology to both. Identification was possible using the sequences of the tuf and hsp65 genes, showing both 100% homology to M. marinum, while 99.8%, 99.7% to M. ulcerans. The patient was treated with clarithromycin, rifampicin, and ethambutol for 6 months.
Biopsy ; Clarithromycin ; Ethambutol ; Female ; Forearm ; Humans ; Inflammation ; Middle Aged ; Mycobacterium ; Mycobacterium Infections, Nontuberculous ; Mycobacterium marinum ; Nontuberculous Mycobacteria ; Polymerase Chain Reaction ; Rifampin ; Skin ; Soft Tissue Infections

This paper specifically discusses the risk assessment on the pesticide residues in vegetables collected from traditional markets, big marts and departments in the southern part of Seoul. Vegetable samples were 6,583 cases from January to December in 2009. Monte-Carlo simulation was used to calculate the uncertainty for the risk index using pesticide residues, average dietary intake for vegetables and acceptable daily intake. Deterministic risk indexes were 7.33% of diethofencarb, 5.13% of indoxacarb, 3.96% of EPN, 3.92% of diniconazole and 3.09% of chlorothalonil, respectively. And other pesticides were below 3%. Distributions of risk indexes obtained by the Monte-Carlo simulations were similar to the deterministic values, even though the confidence intervals for 95% were very wide. We confirmed that health risks caused by eating vegetables exceeded maximum residue limits of pesticide are very low and the population is generally safe, judging from the risk indexes located between 0.07 to 9.49%.
Eating ; Korea ; Nitriles ; Oxazines ; Pesticide Residues ; Pesticides ; Phenylcarbamates ; Risk Assessment ; Triazoles ; Uncertainty ; Vegetables

PURPOSE: To identify causative agents of the drug-induced anaphylaxis (DIA) by using the Korea Institute of Drug Safety & Risk Management-Korea Adverse Event Reporting System (KIDS-KAERS) database (Ministry of Food and Drug Safety) in Korea and to check their labeling information regarding anaphylaxis.METHODS: Among Individual Case Safety Reports from January, 2008 to December 2017, cases of DIA were analyzed for demographics, causative agents and fatal cases resulting in death. The domestic drug labeling, Micromedex and U.S. Food and Drug Administration (FDA) drug package insert, were reviewed to check if the labeling information on suspected causative agents contains anaphylaxis.RESULTS: A total of 4,700 cases of DIA were analyzed. The mean age was 49.85±18.32 years, and 2,642 patients (56.2%) were females. Among 8,664 drugs reported as causative agents, antibiotics (27.4%) accounted for the largest portion. There were 18 fatal cases: antibiotics (7 cases), antineoplastic agents (4 cases) were the major causative drugs for the mortality cases. Of 513 drugs reported as suspected causative agents, 103 (20.1%) did not list anaphylaxis as an adverse effect on domestic drug labeling and 16 (3.1%) did not reflect anaphylaxis in any of 3 adverse drug information.CONCLUSION: Analysis of 10-year data showed that antibiotics were the main cause of DIA and the mortality rate was 0.7%. In 3.1% of suspected drugs, there was no description of anaphylaxis in any of the drug labeling.
Anaphylaxis ; Anti-Bacterial Agents ; Antineoplastic Agents ; Demography ; Drug Labeling ; Female ; Humans ; Korea ; Mortality ; Pharmacovigilance ; United States Food and Drug Administration