Journal of Korean medical science
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J. Korean Med. Sci. · Jan 2025
Needs Assessment for Public Health Competency in Infection Prevention and Control: Importance and Performance Analysis (IPA) of Infectious Disease Response Practitioners.
The Field Epidemiology Training Program Frontline, initiated by the Korea Disease Control and Prevention Agency in 2019, aims to enhance the competencies of infectious disease practitioners across 17 regions in South Korea. With the September 2024 amendment to the Infectious Disease Prevention Act mandating infectious disease prevention and crisis response training for government employees who are associated with infectious diseases responses, there is an urgent need to assess and optimize the effectiveness and cost-efficiency of such competency-based education programs amidst constraints of budget and manpower. ⋯ The IDRP competency framework in South Korea plays a pivotal role in establishing a standardized, competency-based approach to training IDRP. The identified gaps and training priorities highlight the need for continued curriculum development and the integration of real-world, field-based scenarios into training programs.
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J. Korean Med. Sci. · Jan 2025
Insights Into JKMS Submissions and Medical Journal Publications in Korea.
We analyzed the publication and submission statuses of Korean medical journals from 2010 to 2024, amidst challenges impacting researchers. Data from 58 domestic journals identified through the 2023 JCR database were used to assess publication status, while data from the Journal of Korean Medical Science (JKMS) were utilized to examine submission status. ⋯ In contrast, international submissions to JKMS showed consistent growth, surpassing the 15-year average, reflecting growing global interest. Addressing issues, including medical school admission policies and the lingering effects of coronavirus disease 2019, is vital to ensure a sustainable and thriving medical research environment in Korea.
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J. Korean Med. Sci. · Jan 2025
Artemisinin-Quinidine Combination for Suppressing Ventricular Tachyarrhythmia in an Ex Vivo Model of Brugada Syndrome.
The ionic mechanism underlying Brugada syndrome (BrS) arises from an imbalance in transient outward current flow between the epicardium and endocardium. Previous studies report that artemisinin, originally derived from a Chinese herb for antimalarial use, inhibits the Ito current in canines. In a prior study, we showed the antiarrhythmic effects of artemisinin in BrS wedge preparation models. However, quinidine remains a well-established antiarrhythmic agent for treating BrS. Therefore, this study aims to investigate the efficacy of combining artemisinin with low-dose quinidine in suppressing ventricular tachyarrhythmia (VTA) in experimental canine BrS models. ⋯ Low-dose quinidine alone fails to fully alleviate VTA in the BrS wedge model. However, its combination with artemisinin effectively suppresses VTA. Artemisinin may reduce the therapeutic dose of quinidine, potentially minimizing its associated adverse effects.