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Your search keyword '"Nguyen, Phung-Anh Alex"' showing total 24 results
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24 results on '"Nguyen, Phung-Anh Alex"'

1. A richly interactive exploratory data analysis and visualization tool using electronic medical records

Author

Huang, Chih-Wei, Lu, Richard, Iqbal, Usman, Lin, Shen-Hsien, Nguyen, Phung Anh Alex, Yang, Hsuan-Chia, Wang, Chun-Fu, Li, Jianping, Ma, Kwan-Liu, Li, Yu-Chuan Jack, and Jian, Wen-Shan

Subjects
Networking and Information Technology R&D (NITRD), Clinical Research, Bioengineering, Generic health relevance, Clinical Studies as Topic, Data Interpretation, Statistical, Electronic Health Records, Humans, Information Storage and Retrieval, National Health Programs, Pilot Projects, Taiwan, Information Systems, Clinical Sciences, Medical Informatics
Abstract

BackgroundElectronic medical records (EMRs) contain vast amounts of data that is of great interest to physicians, clinical researchers, and medial policy makers. As the size, complexity, and accessibility of EMRs grow, the ability to extract meaningful information from them has become an increasingly important problem to solve.MethodsWe develop a standardized data analysis process to support cohort study with a focus on a particular disease. We use an interactive divide-and-conquer approach to classify patients into relatively uniform within each group. It is a repetitive process enabling the user to divide the data into homogeneous subsets that can be visually examined, compared, and refined. The final visualization was driven by the transformed data, and user feedback direct to the corresponding operators which completed the repetitive process. The output results are shown in a Sankey diagram-style timeline, which is a particular kind of flow diagram for showing factors' states and transitions over time.ResultsThis paper presented a visually rich, interactive web-based application, which could enable researchers to study any cohorts over time by using EMR data. The resulting visualizations help uncover hidden information in the data, compare differences between patient groups, determine critical factors that influence a particular disease, and help direct further analyses. We introduced and demonstrated this tool by using EMRs of 14,567 Chronic Kidney Disease (CKD) patients.ConclusionsWe developed a visual mining system to support exploratory data analysis of multi-dimensional categorical EMR data. By using CKD as a model of disease, it was assembled by automated correlational analysis and human-curated visual evaluation. The visualization methods such as Sankey diagram can reveal useful knowledge about the particular disease cohort and the trajectories of the disease over time.

Published
2015

6. Development of a Web-Based System for Exploring Cancer Risk With Long-term Use of Drugs: Logistic Regression Approach

Author

Yang, Hsuan-Chia, Islam, Md Mohaimenul, Nguyen, Phung Anh Alex, Wang, Ching-Huan, Poly, Tahmina Nasrin, Huang, Chih-Wei, and Li, Yu-Chuan Jack

Subjects
Public aspects of medicine, RA1-1270
Abstract

BackgroundExisting epidemiological evidence regarding the association between the long-term use of drugs and cancer risk remains controversial. ObjectiveWe aimed to have a comprehensive view of the cancer risk of the long-term use of drugs. MethodsA nationwide population-based, nested, case-control study was conducted within the National Health Insurance Research Database sample cohort of 1999 to 2013 in Taiwan. We identified cases in adults aged 20 years and older who were receiving treatment for at least two months before the index date. We randomly selected control patients from the patients without a cancer diagnosis during the 15 years (1999-2013) of the study period. Case and control patients were matched 1:4 based on age, sex, and visit date. Conditional logistic regression was used to estimate the association between drug exposure and cancer risk by adjusting potential confounders such as drugs and comorbidities. ResultsThere were 79,245 cancer cases and 316,980 matched controls included in this study. Of the 45,368 associations, there were 2419, 1302, 662, and 366 associations found statistically significant at a level of P

Published
2021
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7. Machine Learning Approach to Reduce Alert Fatigue Using a Disease Medication–Related Clinical Decision Support System: Model Development and Validation

Author

Poly, Tahmina Nasrin, Islam, Md.Mohaimenul, Muhtar, Muhammad Solihuddin, Yang, Hsuan-Chia, Nguyen, Phung Anh (Alex), and Li, Yu-Chuan (Jack)

Subjects
Computer applications to medicine. Medical informatics, R858-859.7
Abstract

BackgroundComputerized physician order entry (CPOE) systems are incorporated into clinical decision support systems (CDSSs) to reduce medication errors and improve patient safety. Automatic alerts generated from CDSSs can directly assist physicians in making useful clinical decisions and can help shape prescribing behavior. Multiple studies reported that approximately 90%-96% of alerts are overridden by physicians, which raises questions about the effectiveness of CDSSs. There is intense interest in developing sophisticated methods to combat alert fatigue, but there is no consensus on the optimal approaches so far. ObjectiveOur objective was to develop machine learning prediction models to predict physicians’ responses in order to reduce alert fatigue from disease medication–related CDSSs. MethodsWe collected data from a disease medication–related CDSS from a university teaching hospital in Taiwan. We considered prescriptions that triggered alerts in the CDSS between August 2018 and May 2019. Machine learning models, such as artificial neural network (ANN), random forest (RF), naïve Bayes (NB), gradient boosting (GB), and support vector machine (SVM), were used to develop prediction models. The data were randomly split into training (80%) and testing (20%) datasets. ResultsA total of 6453 prescriptions were used in our model. The ANN machine learning prediction model demonstrated excellent discrimination (area under the receiver operating characteristic curve [AUROC] 0.94; accuracy 0.85), whereas the RF, NB, GB, and SVM models had AUROCs of 0.93, 0.91, 0.91, and 0.80, respectively. The sensitivity and specificity of the ANN model were 0.87 and 0.83, respectively. ConclusionsIn this study, ANN showed substantially better performance in predicting individual physician responses to an alert from a disease medication–related CDSS, as compared to the other models. To our knowledge, this is the first study to use machine learning models to predict physician responses to alerts; furthermore, it can help to develop sophisticated CDSSs in real-world clinical settings.

Published
2020
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17. Application of a Common Data Model (CDM) to rank the paediatric user and prescription prevalence of 15 different drug classes in South Korea, Hong Kong, Taiwan, Japan and Australia: an observational, descriptive study

Author

Brauer, Ruth, primary, Wong, Ian Chi Kei, additional, Man, Kenneth KC, additional, Pratt, Nicole L, additional, Park, Rae Woong, additional, Cho, Soo-Yeon, additional, Li, Yu-Chuan (Jack), additional, Iqbal, Usman, additional, Nguyen, Phung-Anh Alex, additional, and Schuemie, Martijn, additional

Published
2020
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20. Uncovering exposures responsible for birth season – disease effects: a global study

Author

Boland, Mary Regina, primary, Parhi, Pradipta, additional, Li, Li, additional, Miotto, Riccardo, additional, Carroll, Robert, additional, Iqbal, Usman, additional, Nguyen, Phung-Anh (Alex), additional, Schuemie, Martijn, additional, You, Seng Chan, additional, Smith, Donahue, additional, Mooney, Sean, additional, Ryan, Patrick, additional, Li, Yu-Chuan (Jack), additional, Park, Rae Woong, additional, Denny, Josh, additional, Dudley, Joel T, additional, Hripcsak, George, additional, Gentine, Pierre, additional, and Tatonetti, Nicholas P, additional

Published
2017
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21. Ankylosing spondylitis and the risk of cancer

Author

Chang, Chih-Cheng, primary, Chang, Cheng-Wei, additional, Nguyen, Phung-Anh Alex, additional, Chang, Tzu-Hao, additional, Shih, Ya-Ling, additional, Chang, Wen-Ying, additional, Horng, Jorng-Tzong, additional, Lee, Oscar Kuang-Sheng, additional, and Ho, Jennifer Hui-Chun, additional

Published
2017
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22. A richly interactive exploratory data analysis and visualization tool using electronic medical records.

Author

Chih-Wei Huang, Lu, Richard, Iqbal, Usman, Shen-Hsien Lin, Nguyen, Phung Anh, Hsuan-Chia Yang, Chun-Fu Wang, Jianping Li, Kwan-Liu Ma, Yu-Chuan Li, Wen-Shan Jian, Huang, Chih-Wei, Lin, Shen-Hsien, Nguyen, Phung Anh Alex, Yang, Hsuan-Chia, Wang, Chun-Fu, Li, Jianping, Ma, Kwan-Liu, Li, Yu-Chuan Jack, and Jian, Wen-Shan

Subjects
QUANTITATIVE research, VISUALIZATION, ELECTRONIC health records, ACCESS to information, FLOW charts, COMPUTER software, INFORMATION retrieval, NATIONAL health services, STATISTICS, PILOT projects, DATA analysis
Abstract

Background: Electronic medical records (EMRs) contain vast amounts of data that is of great interest to physicians, clinical researchers, and medial policy makers. As the size, complexity, and accessibility of EMRs grow, the ability to extract meaningful information from them has become an increasingly important problem to solve.Methods: We develop a standardized data analysis process to support cohort study with a focus on a particular disease. We use an interactive divide-and-conquer approach to classify patients into relatively uniform within each group. It is a repetitive process enabling the user to divide the data into homogeneous subsets that can be visually examined, compared, and refined. The final visualization was driven by the transformed data, and user feedback direct to the corresponding operators which completed the repetitive process. The output results are shown in a Sankey diagram-style timeline, which is a particular kind of flow diagram for showing factors' states and transitions over time.Results: This paper presented a visually rich, interactive web-based application, which could enable researchers to study any cohorts over time by using EMR data. The resulting visualizations help uncover hidden information in the data, compare differences between patient groups, determine critical factors that influence a particular disease, and help direct further analyses. We introduced and demonstrated this tool by using EMRs of 14,567 Chronic Kidney Disease (CKD) patients.Conclusions: We developed a visual mining system to support exploratory data analysis of multi-dimensional categorical EMR data. By using CKD as a model of disease, it was assembled by automated correlational analysis and human-curated visual evaluation. The visualization methods such as Sankey diagram can reveal useful knowledge about the particular disease cohort and the trajectories of the disease over time. [ABSTRACT FROM AUTHOR]

Published
2015
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24. Application of a Common Data Model (CDM) to rank the paediatric user and prescription prevalence of 15 different drug classes in South Korea, Hong Kong, Taiwan, Japan and Australia: an observational, descriptive study

Author

Martijn J. Schuemie, Ian C. K. Wong, Rae Woong Park, Usman Iqbal, Phung Anh Nguyen, Soo Yeon Cho, Yu-Chuan Jack Li, Kenneth K.C. Man, Ruth Brauer, Nicole L. Pratt, Brauer, Ruth, Wong, Ian Chi Kei, Man, Kenneth KC, Pratt, Nicole L, Park, Rae Woong, Cho, Soo-Yeon, Li, Yu-Chuan (Jack), Iqbal, Usman, Nguyen, Phung-Anh Alex, and Schuemie, Martijn

Subjects
Male, medicine.medical_specialty, Adolescent, Taiwan, Prevalence, Pharmaceutical Benefits Scheme, paediatrics, Japan, Republic of Korea, Epidemiology, medicine, Humans, East Asia, Medical prescription, Child, business.industry, Age Factors, Australia, Paediatrics, General Medicine, Drug Utilization, Checklist, Prescriptions, Pharmaceutical Preparations, Socioeconomic Factors, Child, Preschool, Family medicine, Hong Kong, Population study, Female, Observational study, epidemiology, clinical pharmacology, business
Abstract

ObjectiveTo measure the paediatric user and prescription prevalence in inpatient and ambulatory settings in South Korea, Hong Kong, Taiwan, Japan and Australia by age and gender. A further objective was to list the most commonly used drugs per drug class, per country.Design and settingHospital inpatient and insurance paediatric healthcare data from the following databases were used to conduct this descriptive drug utilisation study: (i) the South Korean Ajou University School of Medicine database; (ii) the Hong Kong Clinical Data Analysis and Reporting System; (iii) the Japan Medical Data Center; (iv) Taiwan’s National Health Insurance Research Database and (v) the Australian Pharmaceutical Benefits Scheme. Country-specific data were transformed into the Observational Medical Outcomes Partnership Common Data Model.PatientsChildren (≤18 years) with at least 1 day of observation in any of the respective databases from January 2009 until December 2013 were included.Main outcome measuresFor each drug class, we assessed the per-protocol overall user and prescription prevalence rates (per 1000 persons) per country and setting.ResultsOur study population comprised 1 574 524 children (52.9% male). The highest proportion of dispensings was recorded in the youngest age category (ConclusionsCountry-specific paediatric drug utilisation patterns were described, ranked and compared between four East Asian countries and Australia. The widespread use of mucolytics in East Asia warrants further investigation.

Published
2020

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