1.Age of asthma onset and its relevance to adult asthma in the general population
Ha-Kyeong WON ; Yewon KANG ; Jin AN ; Ji-Hyang LEE ; Min-Gyu KANG ; Tae-Bum KIM ; Woo-Jung SONG
Allergy, Asthma & Respiratory Disease 2025;13(1):22-29
Purpose:
The classification of asthma phenotypes frequently depends on the age of onset. However, the rationale for specific age cutoffs remains unclear. This study aimed to explore the distribution of asthma onset age, to define subgroups based on onset age, and to examine their characteristics within a broad Korean population.
Methods:
An analysis of cross-sectional data involving 56,632 participants from the Korean National Health and Nutrition Examination Survey (2010–2016) was conducted. Data on asthma history, including diagnosis, self-reported age of asthma onset, and current disease status, were collected using structured questionnaires.
Results:
The distribution of asthma onset age showed a distinct peak in early childhood, with a decline between the ages 15 and 20.Based on this distribution, asthma was categorized into childhood-onset ( ≤ 18 years) and adult-onset ( > 18 years) for further analysis.Multivariate analyses indicated that adult-onset asthma was associated with older age, female sex, obesity, and a history of smoking, whereas childhood-onset asthma was linked to younger age, male sex, allergic rhinitis, and atopic dermatitis. Among the adultonset group, current asthma had a later onset age, increased history of smoking history, and atopic dermatitis compared to past asthma.
Conclusion
This analysis of nationwide general population data suggests that an age threshold around 18 years may be relevant for defining adult-onset asthma.
2.Thoracic spinal cord damage in rat following cardiac arrest: neuronal loss, blood-spinal cord barrier leakage, and astrocyte endfeet disruption
Myoung Cheol SHIN ; Hyun-Jin TAE ; Joon Ha PARK ; Ji Hyeon AHN ; Dae Won KIM ; Moo-Ho WON ; Jun Hwi CHO ; Tae-Kyeong LEE
Journal of the Korean Society of Emergency Medicine 2025;36(1):1-11
Objective:
Cardiac arrest and cardiopulmonary resuscitation (CA/R) lead to whole-body ischemia and reperfusion (IR) injury, causing multiple organ dysfunction, including ischemic spinal cord injury. The thoracic spinal cord levels are crucial for maintaining the sympathetic functions vital for life. This study examined blood-spinal cord barrier (BSCB) leakage and astrocyte endfeet (AEF) disruption and their effects on survival, physiological variables, and neuronal damage/death in the intermediate zone (IMZ) at the seventh thoracic spinal cord level after asphyxial CA/R in rats.
Methods:
The rats underwent whole-body IR injury by asphyxial CA/R. Kaplan-Meier analysis was conducted to assess the cumulative survival post-CA/R. The histological changes post-CA/R were evaluated using immunohistochemistry, histofluorescence, and double histofluorescence.
Results:
No significant differences in body weight, mean arterial pressure, and heart rate were found between the sham and CA/R groups post-CA/R. The survival rates in the CA/R group at 12, 24, and 48 hours were 62.58%, 36.37%, and 7.8%, respectively. Neuronal loss and BSCB leakage began 12 hours post-CA/R, increasing with time. Reactive astrogliosis appeared at 12 hours and increased, while AEF disruption around blood vessels was evident at 48 hours.
Conclusion
The survival rate declined significantly by 48 hours post-CA/R. Neuronal loss and BSCB leakage in the thoracic spinal cord IMZ was evident at 12 hours and significant by 48 hours, aligning with AEF disruption. Neuronal loss in the thoracic spinal cord IMZ post-CA/R may be related to BSCB leakage and AEF disruption.
3.Age of asthma onset and its relevance to adult asthma in the general population
Ha-Kyeong WON ; Yewon KANG ; Jin AN ; Ji-Hyang LEE ; Min-Gyu KANG ; Tae-Bum KIM ; Woo-Jung SONG
Allergy, Asthma & Respiratory Disease 2025;13(1):22-29
Purpose:
The classification of asthma phenotypes frequently depends on the age of onset. However, the rationale for specific age cutoffs remains unclear. This study aimed to explore the distribution of asthma onset age, to define subgroups based on onset age, and to examine their characteristics within a broad Korean population.
Methods:
An analysis of cross-sectional data involving 56,632 participants from the Korean National Health and Nutrition Examination Survey (2010–2016) was conducted. Data on asthma history, including diagnosis, self-reported age of asthma onset, and current disease status, were collected using structured questionnaires.
Results:
The distribution of asthma onset age showed a distinct peak in early childhood, with a decline between the ages 15 and 20.Based on this distribution, asthma was categorized into childhood-onset ( ≤ 18 years) and adult-onset ( > 18 years) for further analysis.Multivariate analyses indicated that adult-onset asthma was associated with older age, female sex, obesity, and a history of smoking, whereas childhood-onset asthma was linked to younger age, male sex, allergic rhinitis, and atopic dermatitis. Among the adultonset group, current asthma had a later onset age, increased history of smoking history, and atopic dermatitis compared to past asthma.
Conclusion
This analysis of nationwide general population data suggests that an age threshold around 18 years may be relevant for defining adult-onset asthma.
4.Age of asthma onset and its relevance to adult asthma in the general population
Ha-Kyeong WON ; Yewon KANG ; Jin AN ; Ji-Hyang LEE ; Min-Gyu KANG ; Tae-Bum KIM ; Woo-Jung SONG
Allergy, Asthma & Respiratory Disease 2025;13(1):22-29
Purpose:
The classification of asthma phenotypes frequently depends on the age of onset. However, the rationale for specific age cutoffs remains unclear. This study aimed to explore the distribution of asthma onset age, to define subgroups based on onset age, and to examine their characteristics within a broad Korean population.
Methods:
An analysis of cross-sectional data involving 56,632 participants from the Korean National Health and Nutrition Examination Survey (2010–2016) was conducted. Data on asthma history, including diagnosis, self-reported age of asthma onset, and current disease status, were collected using structured questionnaires.
Results:
The distribution of asthma onset age showed a distinct peak in early childhood, with a decline between the ages 15 and 20.Based on this distribution, asthma was categorized into childhood-onset ( ≤ 18 years) and adult-onset ( > 18 years) for further analysis.Multivariate analyses indicated that adult-onset asthma was associated with older age, female sex, obesity, and a history of smoking, whereas childhood-onset asthma was linked to younger age, male sex, allergic rhinitis, and atopic dermatitis. Among the adultonset group, current asthma had a later onset age, increased history of smoking history, and atopic dermatitis compared to past asthma.
Conclusion
This analysis of nationwide general population data suggests that an age threshold around 18 years may be relevant for defining adult-onset asthma.
5.Thoracic spinal cord damage in rat following cardiac arrest: neuronal loss, blood-spinal cord barrier leakage, and astrocyte endfeet disruption
Myoung Cheol SHIN ; Hyun-Jin TAE ; Joon Ha PARK ; Ji Hyeon AHN ; Dae Won KIM ; Moo-Ho WON ; Jun Hwi CHO ; Tae-Kyeong LEE
Journal of the Korean Society of Emergency Medicine 2025;36(1):1-11
Objective:
Cardiac arrest and cardiopulmonary resuscitation (CA/R) lead to whole-body ischemia and reperfusion (IR) injury, causing multiple organ dysfunction, including ischemic spinal cord injury. The thoracic spinal cord levels are crucial for maintaining the sympathetic functions vital for life. This study examined blood-spinal cord barrier (BSCB) leakage and astrocyte endfeet (AEF) disruption and their effects on survival, physiological variables, and neuronal damage/death in the intermediate zone (IMZ) at the seventh thoracic spinal cord level after asphyxial CA/R in rats.
Methods:
The rats underwent whole-body IR injury by asphyxial CA/R. Kaplan-Meier analysis was conducted to assess the cumulative survival post-CA/R. The histological changes post-CA/R were evaluated using immunohistochemistry, histofluorescence, and double histofluorescence.
Results:
No significant differences in body weight, mean arterial pressure, and heart rate were found between the sham and CA/R groups post-CA/R. The survival rates in the CA/R group at 12, 24, and 48 hours were 62.58%, 36.37%, and 7.8%, respectively. Neuronal loss and BSCB leakage began 12 hours post-CA/R, increasing with time. Reactive astrogliosis appeared at 12 hours and increased, while AEF disruption around blood vessels was evident at 48 hours.
Conclusion
The survival rate declined significantly by 48 hours post-CA/R. Neuronal loss and BSCB leakage in the thoracic spinal cord IMZ was evident at 12 hours and significant by 48 hours, aligning with AEF disruption. Neuronal loss in the thoracic spinal cord IMZ post-CA/R may be related to BSCB leakage and AEF disruption.
6.Age of asthma onset and its relevance to adult asthma in the general population
Ha-Kyeong WON ; Yewon KANG ; Jin AN ; Ji-Hyang LEE ; Min-Gyu KANG ; Tae-Bum KIM ; Woo-Jung SONG
Allergy, Asthma & Respiratory Disease 2025;13(1):22-29
Purpose:
The classification of asthma phenotypes frequently depends on the age of onset. However, the rationale for specific age cutoffs remains unclear. This study aimed to explore the distribution of asthma onset age, to define subgroups based on onset age, and to examine their characteristics within a broad Korean population.
Methods:
An analysis of cross-sectional data involving 56,632 participants from the Korean National Health and Nutrition Examination Survey (2010–2016) was conducted. Data on asthma history, including diagnosis, self-reported age of asthma onset, and current disease status, were collected using structured questionnaires.
Results:
The distribution of asthma onset age showed a distinct peak in early childhood, with a decline between the ages 15 and 20.Based on this distribution, asthma was categorized into childhood-onset ( ≤ 18 years) and adult-onset ( > 18 years) for further analysis.Multivariate analyses indicated that adult-onset asthma was associated with older age, female sex, obesity, and a history of smoking, whereas childhood-onset asthma was linked to younger age, male sex, allergic rhinitis, and atopic dermatitis. Among the adultonset group, current asthma had a later onset age, increased history of smoking history, and atopic dermatitis compared to past asthma.
Conclusion
This analysis of nationwide general population data suggests that an age threshold around 18 years may be relevant for defining adult-onset asthma.
7.Age of asthma onset and its relevance to adult asthma in the general population
Ha-Kyeong WON ; Yewon KANG ; Jin AN ; Ji-Hyang LEE ; Min-Gyu KANG ; Tae-Bum KIM ; Woo-Jung SONG
Allergy, Asthma & Respiratory Disease 2025;13(1):22-29
Purpose:
The classification of asthma phenotypes frequently depends on the age of onset. However, the rationale for specific age cutoffs remains unclear. This study aimed to explore the distribution of asthma onset age, to define subgroups based on onset age, and to examine their characteristics within a broad Korean population.
Methods:
An analysis of cross-sectional data involving 56,632 participants from the Korean National Health and Nutrition Examination Survey (2010–2016) was conducted. Data on asthma history, including diagnosis, self-reported age of asthma onset, and current disease status, were collected using structured questionnaires.
Results:
The distribution of asthma onset age showed a distinct peak in early childhood, with a decline between the ages 15 and 20.Based on this distribution, asthma was categorized into childhood-onset ( ≤ 18 years) and adult-onset ( > 18 years) for further analysis.Multivariate analyses indicated that adult-onset asthma was associated with older age, female sex, obesity, and a history of smoking, whereas childhood-onset asthma was linked to younger age, male sex, allergic rhinitis, and atopic dermatitis. Among the adultonset group, current asthma had a later onset age, increased history of smoking history, and atopic dermatitis compared to past asthma.
Conclusion
This analysis of nationwide general population data suggests that an age threshold around 18 years may be relevant for defining adult-onset asthma.
8.Thoracic spinal cord damage in rat following cardiac arrest: neuronal loss, blood-spinal cord barrier leakage, and astrocyte endfeet disruption
Myoung Cheol SHIN ; Hyun-Jin TAE ; Joon Ha PARK ; Ji Hyeon AHN ; Dae Won KIM ; Moo-Ho WON ; Jun Hwi CHO ; Tae-Kyeong LEE
Journal of the Korean Society of Emergency Medicine 2025;36(1):1-11
Objective:
Cardiac arrest and cardiopulmonary resuscitation (CA/R) lead to whole-body ischemia and reperfusion (IR) injury, causing multiple organ dysfunction, including ischemic spinal cord injury. The thoracic spinal cord levels are crucial for maintaining the sympathetic functions vital for life. This study examined blood-spinal cord barrier (BSCB) leakage and astrocyte endfeet (AEF) disruption and their effects on survival, physiological variables, and neuronal damage/death in the intermediate zone (IMZ) at the seventh thoracic spinal cord level after asphyxial CA/R in rats.
Methods:
The rats underwent whole-body IR injury by asphyxial CA/R. Kaplan-Meier analysis was conducted to assess the cumulative survival post-CA/R. The histological changes post-CA/R were evaluated using immunohistochemistry, histofluorescence, and double histofluorescence.
Results:
No significant differences in body weight, mean arterial pressure, and heart rate were found between the sham and CA/R groups post-CA/R. The survival rates in the CA/R group at 12, 24, and 48 hours were 62.58%, 36.37%, and 7.8%, respectively. Neuronal loss and BSCB leakage began 12 hours post-CA/R, increasing with time. Reactive astrogliosis appeared at 12 hours and increased, while AEF disruption around blood vessels was evident at 48 hours.
Conclusion
The survival rate declined significantly by 48 hours post-CA/R. Neuronal loss and BSCB leakage in the thoracic spinal cord IMZ was evident at 12 hours and significant by 48 hours, aligning with AEF disruption. Neuronal loss in the thoracic spinal cord IMZ post-CA/R may be related to BSCB leakage and AEF disruption.
9.Review and latest trends of dental ceramic restorative materials
Seon-Mi BYEON ; Kyeong-Seon KIM ; Jae-Woo SHIN ; Jung-Hwan LEE ; Jeong-Hui JI ; Min-Soo BAE ; Yong-Seok JANG ; Min-Ho LEE ; Tae-Sung BAE
Korean Journal of Dental Materials 2024;51(1):1-14
Prosthodontic treatment is being performed for morphology and functional restoration due to damage and loss of teeth. As the aesthetic demands of patients increase, interest in ceramic materials with shades and translucency similar to natural teeth has increased.Recently, the manufacturing and processing technology of ceramic materials has greatly improved, and the market for dental ceramic materials is growing rapidly. The purpose of this literature review and evaluation is to provide information on the classification and properties of dental ceramic materials with excellent aesthetics and fracture resistance. In this article, it is classified as follows: I) Dental porcelain; II) Sinterable all-ceramic; III) Glass-ceramic for casting; IV) Glass-infiltrated alumina ceramic; V) Glass-ceramic ingots for heat-pressing technique; Vl) Blocks for CAD/CAM; Vll) Ceramic for CAD/3D printing. Dental ceramic materials and their restoration manufacturing methods have evolved significantly over the past decade. As a result, the manufacturing method of restorations has progressed from the layered firing technique of powdered materials or heat-pressing technique to the cutting and processing of single and multi-layer blocks using CAD/CAM technology, leading to the introduction of CAD/3D printing technology. In this manuscript, we will review the types of ceramic materials used in the fabrication of dental restorations and their advantages and disadvantages.
10.Dry Eye Syndrome in Children during the COVID-19 Pandemic
Yun Kyeong HWANG ; Tae-Eun LEE ; In Cheon YOU ; Jong Seung KIM ; Cha Dong YEO ; Haeng-Jin LEE
Korean Journal of Ophthalmology 2024;38(6):441-449
Purpose:
The aim of this study was to investigate the occurrence of dry eye syndrome (DES) in children under 18 years old before and during the COVID-19 pandemic using nationwide population-based cohort analysis.
Methods:
This study utilized the database provided by the Korea Disease Control and Prevention Agency and the Korean National Health Insurance Service. We used claims-based data for patients diagnosed with COVID-19 between October 8, 2020, and December 31, 2021, and those without a diagnosis of COVID-19. DES cases were defined as having at least one diagnosis of H0411 or H1621 based on the International Classification of Diseases, 10th Revision codes. The primary outcome was the evaluation of the hazard ratio for DES between the COVID-19 season and the non–COVID-19 season.
Results:
A total of 198,486 individuals from the COVID-19 season cohort and 211,828 individuals from the non–COVID-19 season cohort were included in the study. There were no differences in characteristics between the COVID-19 season cohort and the non–COVID-19 season cohort (all standardized mean difference, <0.1). The cumulative incidence of DES during the COVID-19 season was significantly higher than that during the non–COVID-19 season. The COVID-19 season DES incidence rate was 6,419.64 per 100,000 person-years and non–COVID-19 season DES incidence rate was 5,804.88 per 100,000 person-years. In addition, children aged 13 to 18 years, female sex, those living in metropolitan areas, and those with diabetes mellitus had a higher risk of DES.
Conclusions
The prevalence of diagnosed DES in children increased during the COVID-19 pandemic compared to previous years. Children aged 13 to 18 years, female sex, those living in metropolitan areas, and those with diabetes mellitus had a higher risk of DES. Further studies are needed to directly analyze the potential factors associated with the increased prevalence of DES.

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