Showing total 8 results

1. Estimation of COVID-19 epidemic curves using genetic programming algorithm.

Author

Anđelić, Nikola, Šegota, Sandi Baressi, Lorencin, Ivan, Mrzljak, Vedran, and Car, Zlatan

Subjects

*HIGH performance computing, *COVID-19, *CONVALESCENCE, *MACHINE learning, *INFECTIOUS disease transmission, *RESEARCH funding, *STATISTICAL models, *ALGORITHMS

Abstract

This paper investigates the possibility of the implementation of Genetic Programming (GP) algorithm on a publicly available COVID-19 data set, in order to obtain mathematical models which could be used for estimation of confirmed, deceased, and recovered cases and the estimation of epidemiology curve for specific countries, with a high number of cases, such as China, Italy, Spain, and USA and as well as on the global scale. The conducted investigation shows that the best mathematical models produced for estimating confirmed and deceased cases achieved R2 scores of 0.999, while the models developed for estimation of recovered cases achieved the R2 score of 0.998. The equations generated for confirmed, deceased, and recovered cases were combined in order to estimate the epidemiology curve of specific countries and on the global scale. The estimated epidemiology curve for each country obtained from these equations is almost identical to the real data contained within the data set [ABSTRACT FROM AUTHOR]

Published

2021

2. A framework for evaluating epidemic forecasts.

Author

Tabataba, Farzaneh Sadat, Chakraborty, Prithwish, Ramakrishnan, Naren, Venkatramanan, Srinivasan, Jiangzhuo Chen, Lewis, Bryan, Marathe, Madhav, and Chen, Jiangzhuo

Subjects

*EPIDEMIOLOGY, *FORECASTING, *PERFORMANCE evaluation, *DETERMINISTIC algorithms, *EPIDEMIOLOGICAL models, *INFLUENZA epidemiology, *AGE distribution, *ALGORITHMS, *EPIDEMICS, *MATHEMATICAL models, *RESEARCH funding, *STATISTICS, *THEORY

Abstract

Background: Over the past few decades, numerous forecasting methods have been proposed in the field of epidemic forecasting. Such methods can be classified into different categories such as deterministic vs. probabilistic, comparative methods vs. generative methods, and so on. In some of the more popular comparative methods, researchers compare observed epidemiological data from the early stages of an outbreak with the output of proposed models to forecast the future trend and prevalence of the pandemic. A significant problem in this area is the lack of standard well-defined evaluation measures to select the best algorithm among different ones, as well as for selecting the best possible configuration for a particular algorithm.Results: In this paper we present an evaluation framework which allows for combining different features, error measures, and ranking schema to evaluate forecasts. We describe the various epidemic features (Epi-features) included to characterize the output of forecasting methods and provide suitable error measures that could be used to evaluate the accuracy of the methods with respect to these Epi-features. We focus on long-term predictions rather than short-term forecasting and demonstrate the utility of the framework by evaluating six forecasting methods for predicting influenza in the United States. Our results demonstrate that different error measures lead to different rankings even for a single Epi-feature. Further, our experimental analyses show that no single method dominates the rest in predicting all Epi-features when evaluated across error measures. As an alternative, we provide various Consensus Ranking schema that summarize individual rankings, thus accounting for different error measures. Since each Epi-feature presents a different aspect of the epidemic, multiple methods need to be combined to provide a comprehensive forecast. Thus we call for a more nuanced approach while evaluating epidemic forecasts and we believe that a comprehensive evaluation framework, as presented in this paper, will add value to the computational epidemiology community. [ABSTRACT FROM AUTHOR]

Published

2017

3. Multiple mediation analysis with survival outcomes: With an application to explore racial disparity in breast cancer survival.

Author

Yu, Qingzhao, Wu, Xiaocheng, Li, Bin, and Scribner, Richard A.

Subjects

*BREAST tumor treatment, *ALGORITHMS, *BLACK people, *BREAST tumors, *CHAOS theory, *COMPARATIVE studies, *HEALTH services accessibility, *HEALTH status indicators, *RESEARCH methodology, *MEDICAL cooperation, *POPULATION, *REGRESSION analysis, *RESEARCH, *RESEARCH funding, *SURVIVAL analysis (Biometry), *WHITE people, *SOCIOECONOMIC factors, *EVALUATION research, *TREATMENT effectiveness, *PROPORTIONAL hazards models, *STATISTICAL models

Abstract

Mediation analysis allows the examination of effects of a third variable in the pathway between an exposure and an outcome. The general multiple mediation analysis method, proposed by Yu et al, improves traditional methods (eg, estimation of natural and controlled direct effects) to enable consideration of multiple mediators/confounders simultaneously and the use of linear and nonlinear predictive models for estimating mediation/confounding effects. In this paper, we extend the method for time-to-event outcomes and apply the method to explore the racial disparity in breast cancer survivals. Breast cancer is the most common cancer and the second leading cause of cancer death among women of all races. Despite improvement of survival rates of breast cancer in the US, a significant difference between white and black women remains. Previous studies have found that more advanced and aggressive tumors and less than optimal treatment may explain the lower survival rates for black women as compared to white women. Due to limitations of current analytic methods and the lack of comprehensive data sets, researchers have not been able to differentiate the relative effect each factor contributes to the overall racial disparity. We use the CDC-funded Patterns of Care study to examine the determinants of racial disparities in breast cancer survival using a novel multiple mediation analysis. Using the proposed method, we applied the Cox hazard model and multiple additive regression trees as predictive models and found that all racial disparity in survival among Louisiana breast cancer patients were explained by factors included in the study. [ABSTRACT FROM AUTHOR]

Published

2019

4. Digitization of Electrocardiogram From Telemetry Prior to In-hospital Cardiac Arrest: A Pilot Study.

Author

Attin, Mina, Lu Wang, Soroushmehr, S. M. Reza, Chii-Dean Lin, Lemus, Hector, Spadafore, Maxwell, and Najarian, Kayvan

Subjects

*ALGORITHMS, *BIOTELEMETRY, *CARDIAC arrest, *STATISTICAL correlation, *DIGITAL diagnostic imaging, *ELECTROCARDIOGRAPHY, *HEART beat, *HOSPITAL patients, *MEDICAL cooperation, *RESEARCH, *RESEARCH funding, *PILOT projects, *DESCRIPTIVE statistics

Abstract

Background: Analyzing telemetry electrocardiogram (ECG) data over an extended period is often time-consuming because digital records are not widely available at hospitals. Investigating trends and patterns in the ECG data could lead to establishing predictors that would shorten response time to in-hospital cardiac arrest (I-HCA). This study was conducted to validate a novel method of digitizing paper ECG tracings from telemetry systems in order to facilitate the use of heart rate as a diagnostic feature prior to I-HCA. Methods: This multicenter study used telemetry to investigate full-disclosure ECG papers of 44 cardiovascular patients obtained within 1 hr of I-HCA with initial rhythms of pulseless electrical activity and asystole. Digital ECGs were available for seven of these patients. An algorithm to digitize the full-disclosure ECG papers was developed using the shortest path method. The heart rate was measured manually (averaging R-R intervals) for ECG papers and automatically for digitized and digital ECGs. Results: Significant correlations were found between manual and automated measurements of digitized ECGs (p < .001) and between digitized and digital ECGs (p < .001). Bland-Altman methods showed bias = .001 s, SD = .0276 s, lower and upper 95% limits of agreement for digitized and digital ECGs = .055 and -.053 s, and percentage error = 0.22%. Root mean square (rms), percentage rms difference, and signal to noise ratio values were in acceptable ranges. Conclusion: The digitization method was validated. Digitized ECG provides an efficient and accurate way of measuring heart rate over an extended period of time. [ABSTRACT FROM AUTHOR]

Published

2016

5. Deriving health utilities from the MacNew Heart Disease Quality of Life Questionnaire.

Author

Chen, Gang, McKie, John, Khan, Munir A., and Richardson, Jeff R.

Subjects

*CORONARY heart disease treatment, *QUALITY of life, *ALGORITHMS, *STATISTICAL correlation, *GOODNESS-of-fit tests, *NONPARAMETRIC statistics, *QUESTIONNAIRES, *REGRESSION analysis, *RESEARCH funding, *STATISTICAL sampling, *STATISTICS, *SURVEYS, *VISUAL analog scale, *INTER-observer reliability, *DATA analysis software, *MANN Whitney U Test, *KRUSKAL-Wallis Test

Abstract

Introduction: Quality of life is included in the economic evaluation of health services by measuring the preference for health states, i.e. health state utilities. However, most intervention studies include a disease-specific, not a utility, instrument. Consequently, there has been increasing use of statistical mapping algorithms which permit utilities to be estimated from a disease-specific instrument. The present paper provides such algorithms between the MacNew Heart Disease Quality of Life Questionnaire (MacNew) instrument and six multi-attribute utility (MAU) instruments, the Euroqol (EQ-5D), the Short Form 6D (SF-6D), the Health Utilities Index (HUI) 3, the Quality of Wellbeing (QWB), the 15D (15 Dimension) and the Assessment of Quality of Life (AQoL-8D). Methods: Heart disease patients and members of the healthy public were recruited from six countries. Non-parametric rank tests were used to compare subgroup utilities and MacNew scores. Mapping algorithms were estimated using three separate statistical techniques. Results: Mapping algorithms achieved a high degree of precision. Based on the mean absolute error and the intra class correlation the preferred mapping is MacNew into SF-6D or 15D. Using the R squared statistic the preferred mapping is MacNew into AQoL-8D. Implications for research: The algorithms reported in this paper enable MacNew data to be mapped into utilities predicted from any of six instruments. This permits studies which have included the MacNew to be used in cost utility analyses which, in turn, allows the comparison of services with interventions across the health system. [ABSTRACT FROM AUTHOR]

Published

2015

6. Mixture drug-count response model for the high-dimensional drug combinatory effect on myopathy.

Author

Wang, Xueying, Zhang, Pengyue, Chiang, Chien‐Wei, Wu, Hengyi, Shen, Li, Ning, Xia, Zeng, Donglin, Wang, Lei, Quinney, Sara K., Feng, Weixing, Li, Lang, and Chiang, Chien-Wei

Subjects

*ALGORITHMS, *BIOLOGICAL models, *COMBINATION drug therapy, *COMPARATIVE studies, *COMPUTER simulation, *DATABASES, *DRUG interactions, *DRUG side effects, *RESEARCH methodology, *MEDICAL cooperation, *MUSCLE diseases, *PROBABILITY theory, *RESEARCH, *RESEARCH funding, *STATISTICS, *DATA mining, *EVALUATION research, *STATISTICAL models

Abstract

Drug-drug interactions (DDIs) are a common cause of adverse drug events (ADEs). The electronic medical record (EMR) database and the FDA's adverse event reporting system (FAERS) database are the major data sources for mining and testing the ADE associated DDI signals. Most DDI data mining methods focus on pair-wise drug interactions, and methods to detect high-dimensional DDIs in medical databases are lacking. In this paper, we propose 2 novel mixture drug-count response models for detecting high-dimensional drug combinations that induce myopathy. The "count" indicates the number of drugs in a combination. One model is called fixed probability mixture drug-count response model with a maximum risk threshold (FMDRM-MRT). The other model is called count-dependent probability mixture drug-count response model with a maximum risk threshold (CMDRM-MRT), in which the mixture probability is count dependent. Compared with the previous mixture drug-count response model (MDRM) developed by our group, these 2 new models show a better likelihood in detecting high-dimensional drug combinatory effects on myopathy. CMDRM-MRT identified and validated (54; 374; 637; 442; 131) 2-way to 6-way drug interactions, respectively, which induce myopathy in both EMR and FAERS databases. We further demonstrate FAERS data capture much higher maximum myopathy risk than EMR data do. The consistency of 2 mixture models' parameters and local false discovery rate estimates are evaluated through statistical simulation studies. [ABSTRACT FROM AUTHOR]

Published

2018

7. Validation of Lower Tier Exposure Tools Used for REACH: Comparison of Tools Estimates With Available Exposure Measurements.

Author

van Tongeren, Martie, Lamb, Judith, Cherrie, John W., MacCalman, Laura, Basinas, Ioannis, and Hesse, Susanne

Subjects

*METAL analysis, *ALGORITHMS, *COMPARATIVE studies, *STATISTICAL correlation, *DECISION trees, *MEDICAL cooperation, *POWDERS, *REGRESSION analysis, *RESEARCH, *RESEARCH funding, *RISK assessment, *SOLUTION (Chemistry), *WORK environment, *OCCUPATIONAL hazards, *ENVIRONMENTAL exposure, *RESEARCH methodology evaluation, *DATA analysis software, *DESCRIPTIVE statistics, RESEARCH evaluation

Abstract

Background: Tier 1 exposure tools recommended for use under REACH are designed to easily identify situations that may pose a risk to health through conservative exposure predictions. However, no comprehensive evaluation of the performance of the lower tier tools has previously been carried out. The ETEAM project aimed to evaluate several lower tier exposure tools (ECETOC TRA, MEASE, and EMKG-EXPO-TOOL) as well as one higher tier tool (STOFFENMANAGER®). This paper describes the results of the external validation of tool estimates using measurement data. Methods: Measurement data were collected from a range of providers, both in Europe and United States, together with contextual information. Individual measurement and aggregated measurement data were obtained. The contextual information was coded into the tools to obtain exposure estimates. Results were expressed as percentage of measurements exceeding the tool estimates and presented by exposure category (non-volatile liquid, volatile liquid, metal abrasion, metal processing, and powder handling). We also explored tool performance for different process activities as well as different scenario conditions and exposure levels. Results: In total, results from nearly 4000 measurements were obtained, with the majority for the use of volatile liquids and powder handling. The comparisons of measurement results with tool estimates suggest that the tools are generally conservative. However, the tools were more conservative when estimating exposure from powder handling compared to volatile liquids and other exposure categories. In addition, results suggested that tool performance varies between process activities and scenario conditions. For example, tools were less conservative when estimating exposure during activities involving tabletting, compression, extrusion, pelletisation, granulation (common process activity PROC14) and transfer of substance or mixture (charging and discharging) at nondedicated facilities (PROC8a; powder handling only). With the exception of STOFFENMANAGER® (for estimating exposure during powder handling), the tools were less conservative for scenarios with lower estimated exposure levels. Conclusions: This is the most comprehensive evaluation of the performance of REACH exposure tools carried out to date. The results show that, although generally conservative, the tools may not always achieve the performance specified in the REACH guidance, i.e. using the 75th or 90th percentile of the exposure distribution for the risk characterisation. Ongoing development, adjustment, and recalibration of the tools with new measurement data are essential to ensure adequate characterisation and control of worker exposure to hazardous substances. [ABSTRACT FROM AUTHOR]

Published

2017

8. Fuzzy Clustering Applied to ROI Detection in Helical Thoracic CT Scans with a New Proposal and Variants.

Author

Castro, Alfonso, Rey, Alberto, Boveda, Carmen, Arcay, Bernardino, and Sanjurjo, Pedro

Subjects

*SOLITARY pulmonary nodule, *ALGORITHMS, *DATABASES, *RESEARCH funding, *SPIRAL computed tomography, *RECEIVER operating characteristic curves, *DATA analysis software, *DESCRIPTIVE statistics, *COMPUTER-aided diagnosis, *DIAGNOSIS

Abstract

The detection of pulmonary nodules is one of the most studied problems in the field of medical image analysis due to the great difficulty in the early detection of such nodules and their social impact. The traditional approach involves the development of a multistage CAD system capable of informing the radiologist of the presence or absence of nodules. One stage in such systems is the detection of ROI (regions of interest) that may be nodules in order to reduce the space of the problem. This paper evaluates fuzzy clustering algorithms that employ different classification strategies to achieve this goal. After characterising these algorithms, the authors propose a new algorithm and different variations to improve the results obtained initially. Finally it is shown as the most recent developments in fuzzy clustering are able to detect regions that may be nodules in CT studies. The algorithms were evaluated using helical thoracic CT scans obtained from the database of the LIDC (Lung Image Database Consortium). [ABSTRACT FROM AUTHOR]

Published

2016