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Hwang Hye Jeon,이상민,Seo Joon Beom,Kim Ji-Eun,Choi Hye Young,Kim Namkug,Lee Jae Seung,Lee Sei Won,Oh Yeon-Mok 대한영상의학회 2020 Korean Journal of Radiology Vol.21 No.7
Objective: Patients with chronic obstructive pulmonary disease (COPD) are known to be at risk of osteoporosis. The purpose of this study was to evaluate the association between thoracic vertebral bone density measured on chest CT (DThorax) and clinical variables, including survival, in patients with COPD. Materials and Methods: A total of 322 patients with COPD were selected from the Korean Obstructive Lung Disease (KOLD) cohort. DThorax was measured by averaging the CT values of three consecutive vertebral bodies at the level of the left main coronary artery with a round region of interest as large as possible within the anterior column of each vertebral body using an in-house software. Associations between DThorax and clinical variables, including survival, pulmonary function test (PFT) results, and CT densitometry, were evaluated. Results: The median follow-up time was 7.3 years (range: 0.1–12.4 years). Fifty-six patients (17.4%) died. DThroax differed significantly between the different Global Initiative for Chronic Obstructive Lung Disease stages. DThroax correlated positively with body mass index (BMI), some PFT results, and the six-minute walk distance, and correlated negatively with the emphysema index (EI) (all p < 0.05). In the univariate Cox analysis, older age (hazard ratio [HR], 3.617; 95% confidence interval [CI], 2.119–6.173, p < 0.001), lower BMI (HR, 3.589; 95% CI, 2.122–6.071, p < 0.001), lower forced expiratory volume in one second (FEV1) (HR, 2.975; 95% CI, 1.682–5.262, p < 0.001), lower diffusing capacity of the lung for carbon monoxide corrected with hemoglobin (DLCO) (HR, 4.595; 95% CI, 2.665–7.924, p < 0.001), higher EI (HR, 3.722; 95% CI, 2.192–6.319, p < 0.001), presence of vertebral fractures (HR, 2.062; 95% CI, 1.154–3.683, p = 0.015), and lower DThorax (HR, 2.773; 95% CI, 1.620–4.746, p < 0.001) were significantly associated with all-cause mortality and lung-related mortality. In the multivariate Cox analysis, lower DThorax (HR, 1.957; 95% CI, 1.075–3.563, p = 0.028) along with older age, lower BMI, lower FEV1, and lower DLCO were independent predictors of all-cause mortality. Conclusion: The thoracic vertebral bone density measured on chest CT demonstrated significant associations with the patients’ mortality and clinical variables of disease severity in the COPD patients included in KOLD cohort.
Hwang Hye Jeon,Seo Joon Beom,Lee Sang Min,Kim Namkug,이재연,Lee Jae Seung,Lee Sei Won,Oh Yeon-Mok,Lee Sang-Do 대한영상의학회 2021 Korean Journal of Radiology Vol.22 No.10
Objective: Emphysema and small-airway disease are the two major components of chronic obstructive pulmonary disease (COPD). We propose a novel method of quantitative computed tomography (CT) emphysema air-trapping composite (EAtC) mapping to assess each COPD component. We analyzed the potential use of this method for assessing lung function in patients with COPD. Materials and Methods: A total of 584 patients with COPD underwent inspiration and expiration CTs. Using pairwise analysis of inspiration and expiration CTs with non-rigid registration, EAtC mapping classified lung parenchyma into three areas: Normal, functional air trapping (fAT), and emphysema (Emph). We defined fAT as the area with a density change of less than 60 Hounsfield units (HU) between inspiration and expiration CTs among areas with a density less than -856 HU on inspiration CT. The volume fraction of each area was compared with clinical parameters and pulmonary function tests (PFTs). The results were compared with those of parametric response mapping (PRM) analysis. Results: The relative volumes of the EAtC classes differed according to the Global Initiative for Chronic Obstructive Lung Disease stages (p < 0.001). Each class showed moderate correlations with forced expiratory volume in 1 second (FEV1) and FEV1/forced vital capacity (FVC) (r = -0.659–0.674, p < 0.001). Both fAT and Emph were significant predictors of FEV1 and FEV1/FVC (R2 = 0.352 and 0.488, respectively; p < 0.001). fAT was a significant predictor of mean forced expiratory flow between 25% and 75% and residual volume/total vital capacity (R2 = 0.264 and 0.233, respectively; p < 0.001), while Emph and age were significant predictors of carbon monoxide diffusing capacity (R2 = 0.303; p < 0.001). fAT showed better correlations with PFTs than with small-airway disease on PRM. Conclusion: The proposed quantitative CT EAtC mapping provides comprehensive lung functional information on each disease component of COPD, which may serve as an imaging biomarker of lung function.
Hwang Hye Jeon,Lee Sang Min,Seo Joon Beom,Lee Jae Seung,Kim Namkug,Lee Sei Won,Oh Yeon-Mok 대한영상의학회 2020 Korean Journal of Radiology Vol.21 No.9
Objective: To assess the regional ventilation in patients with asthma-chronic obstructive pulmonary disease (COPD) overlap syndrome (ACOS) using xenon-ventilation dual-energy CT (DECT), and to compare it to that in patients with COPD. Materials and Methods: Twenty-one patients with ACOS and 46 patients with COPD underwent xenon-ventilation DECT. The ventilation abnormalities were visually determined to be 1) peripheral wedge/diffuse defect, 2) diffuse heterogeneous defect, 3) lobar/segmental/subsegmental defect, and 4) no defect on xenon-ventilation maps. Emphysema index (EI), airway wall thickness (Pi10), and mean ventilation values in the whole lung, peripheral lung, and central lung areas were quantified and compared between the two groups using the Student’s t test. Results: Most patients with ACOS showed the peripheral wedge/diffuse defect (n = 14, 66.7%), whereas patients with COPD commonly showed the diffuse heterogeneous defect and lobar/segmental/subsegmental defect (n = 21, 45.7% and n = 20, 43.5%, respectively). The prevalence of ventilation defect patterns showed significant intergroup differences (p < 0.001). The quantified ventilation values in the peripheral lung areas were significantly lower in patients with ACOS than in patients with COPD (p = 0.045). The quantified Pi10 was significantly higher in patients with ACOS than in patients with COPD (p = 0.041); however, EI was not significantly different between the two groups. Conclusion: The ventilation abnormalities on the visual and quantitative assessments of xenon-ventilation DECT differed between patients with ACOS and patients with COPD. Xenon-ventilation DECT may demonstrate the different physiologic changes of pulmonary ventilation in patients with ACOS and COPD.
Development of Prediction Equation of Diffusing Capacity of Lung for Koreans
Hwang, Yong Il,Park, Yong Bum,Yoon, Hyoung Kyu,Lim, Seong Yong,Kim, Tae-Hyung,Park, Joo Hun,Lee, Won-Yeon,Park, Seong Ju,Lee, Sei Won,Kim, Woo Jin,Kim, Ki Uk,Shin, Kyeong Cheol,Kim, Do Jin,Kim, Hui Ju The Korean Academy of Tuberculosis and Respiratory 2018 Tuberculosis and Respiratory Diseases Vol.81 No.1
Background: The diffusing capacity of the lung is influenced by multiple factors such as age, sex, height, weight, ethnicity and smoking status. Although a prediction equation for the diffusing capacity of Korea was proposed in the mid-1980s, this equation is not used currently. The aim of this study was to develop a new prediction equation for the diffusing capacity for Koreans. Methods: Using the data of the Korean National Health and Nutrition Examination Survey, a total of 140 nonsmokers with normal chest X-rays were enrolled in this study. Results: Using linear regression analysis, a new predicting equation for diffusing capacity was developed. For men, the following new equations were developed: carbon monoxide diffusing capacity (DLco)=-10.4433-0.1434${\times}$age (year)+0.2482${\times}$heights (cm); DLco/alveolar volume (VA)=6.01507-0.02374${\times}$age (year)-0.00233${\times}$heights (cm). For women the prediction equations were described as followed: DLco=-12.8895-0.0532${\times}$age (year)+0.2145${\times}$heights (cm) and DLco/VA=7.69516-0.02219${\times}$age (year)-0.01377${\times}$heights (cm). All equations were internally validated by k-fold cross validation method. Conclusion: In this study, we developed new prediction equations for the diffusing capacity of the lungs of Koreans. A further study is needed to validate the new predicting equation for diffusing capacity.
Development of Prediction Equation of Diffusing Capacity of Lung for Koreans
( Yong Il Hwang ),( Yong Bum Park ),( Hyoung Kyu Yoon ),( Seong Yong Lim ),( Tae-hyung Kim ),( Joo Hun Park ),( Won-yeon Lee ),( Seong Ju Park ),( Sei Won Lee ),( Woo Jin Kim ),( Ki Uk Kim ),( Kyeong 대한결핵 및 호흡기학회 2018 Tuberculosis and Respiratory Diseases Vol.81 No.1
Background: The diffusing capacity of the lung is influenced by multiple factors such as age, sex, height, weight, ethnicity and smoking status. Although a prediction equation for the diffusing capacity of Korea was proposed in the mid-1980s, this equation is not used currently. The aim of this study was to develop a new prediction equation for the diffusing capacity for Koreans. Methods: Using the data of the Korean National Health and Nutrition Examination Survey, a total of 140 nonsmokers with normal chest X-rays were enrolled in this study. Results: Using linear regression analysis, a new predicting equation for diffusing capacity was developed. For men, the following new equations were developed: carbon monoxide diffusing capacity (DLco)=-10.4433-0.1434×age (year)+0.2482×heights (cm); DLco/alveolar volume (VA)=6.01507-0.02374×age (year)-0.00233×heights (cm). For women the prediction equations were described as followed: DLco=-12.8895-0.0532×age (year)+0.2145×heights (cm) and DLco/VA=7.69516-0.02219×age (year)-0.01377×heights (cm). All equations were internally validated by k-fold cross validation method. Conclusion: In this study, we developed new prediction equations for the diffusing capacity of the lungs of Koreans. A further study is needed to validate the new predicting equation for diffusing capacity.
황준연(Jun Yeon Hwang),김희종(Heui Jong Kim),문석균(Seog Kyun Mun),이세영(Sei Young Lee) 대한두경부종양학회 2007 대한두경부 종양학회지 Vol.23 No.2
About 20% of non-Hodgkin’ lymphoma occur in the extra-nodal region in the head and neck area and more than half of extra-nodal lymphoma in the head and neck area involves the Waldeyer’ ring. Malignant lym-phoma arising in the parotid glands are relatively rare, although 90% of all salivary gland lymphomas, appear in parotid gland and are classified as extranodal non Hodgkin’ lymphoma. We experienced one rare case of non-Hodgkin’ lymphoma in the right parotid gland, with a painless swelling of the cheek region as the chief complaint. We treated with CHOP(cyclophosphamide, 750mg/m 2 i.v. day1;doxorubicin, 50mg/m 2 i.v. day 1;vincristine, 1.4mg/m 2 i.v. day 1;prednisone, 50mg/m 2 orally days 1 to 5. repeat every 21 days) and Rituxi-mab combination therapy. We aimed to report here one case of non-Hodgkin’ lymphoma in the right parotid gland with review of literature.
이연희,황정민,오세열,Yeon Hee Lee,M,D,Jeong Min Hwang,M,D,Sei Yeul Oh,M,D 대한안과학회 2006 대한안과학회지 Vol.47 No.12
Purpose: This study investigated the natural course of strabismus associated with thyroid ophthalmopathy. Methods: A retrospective review was performed on the medical records of 31 patients with strabismus associated with thyroid ophthalmopathy who had been followed up for more than 6 months and had not received surgery. For the purpose of this study, a significant change of deviation angle was defined as more than 10 prism diopters in the primary position. Results: Forty-two percent of patients showed a significant change in deviation angle during the observation period of 23.8±17.7 months. The direction of the change was vertical in 32%, horizontal in 3%, and vertical and horizontal in 6% of patients. A significant change of deviation angle developed in 30% of patients within 6 months from the initial ophthalmologic examination, in 24% between 6 and 12 months, and in 13% of patients between 12 and 18 months from the initial examination. Conclusions: Although the deviation angle of strabismus associated with thyroid ophthalmopathy tended to stabilize with time, it nonetheless was susceptible to change even 12 months after the initial ophthalmologic examination. In addition, a vertical change in the deviation angle was more frequent than a horizontal change