Showing total 2 results

1. Sequential Data–Based Patient Similarity Framework for Patient Outcome Prediction: Algorithm Development

Author

Hui Chen, Lan Wei, Honglei Liu, Ni Wang, Xiaolu Fei, Yang Zhou, and Muyu Wang

Subjects

Computer science, health data, acute myocardial infarction, Health Informatics, computer.software_genre, Patient Readmission, outcome prediction, Similarity (network science), electronic medical records, informatics, Cluster Analysis, Electronic Health Records, Humans, In patient, natural language processing, Original Paper, deep learning, machine learning, Cross-Sectional Studies, Sequential data, Neural Networks, Computer, Data mining, Preprint, time series, Outcome prediction, patient similarity, computer, Algorithms

Abstract

Background Sequential information in electronic medical records is valuable and helpful for patient outcome prediction but is rarely used for patient similarity measurement because of its unevenness, irregularity, and heterogeneity. Objective We aimed to develop a patient similarity framework for patient outcome prediction that makes use of sequential and cross-sectional information in electronic medical record systems. Methods Sequence similarity was calculated from timestamped event sequences using edit distance, and trend similarity was calculated from time series using dynamic time warping and Haar decomposition. We also extracted cross-sectional information, namely, demographic, laboratory test, and radiological report data, for additional similarity calculations. We validated the effectiveness of the framework by constructing k–nearest neighbors classifiers to predict mortality and readmission for acute myocardial infarction patients, using data from (1) a public data set and (2) a private data set, at 3 time points—at admission, on Day 7, and at discharge—to provide early warning patient outcomes. We also constructed state-of-the-art Euclidean-distance k–nearest neighbor, logistic regression, random forest, long short-term memory network, and recurrent neural network models, which were used for comparison. Results With all available information during a hospitalization episode, predictive models using the similarity model outperformed baseline models based on both public and private data sets. For mortality predictions, all models except for the logistic regression model showed improved performances over time. There were no such increasing trends in predictive performances for readmission predictions. The random forest and logistic regression models performed best for mortality and readmission predictions, respectively, when using information from the first week after admission. Conclusions For patient outcome predictions, the patient similarity framework facilitated sequential similarity calculations for uneven electronic medical record data and helped improve predictive performance.

Published

2022

2. Technology Acceptance of Home-Based Cardiac Telerehabilitation Programs in Patients With Coronary Heart Disease: Systematic Scoping Review

Author

Ying Jiang, Hadassah Joann RAMACHANDRANa, Jun Yi Claire Teo, Tee Joo Yeo, and Wenru Wang

Subjects

Technology, medicine.medical_specialty, cardiac, web-based, perspective, Coronary Disease, Health Informatics, Review, heart, rehabilitation, Surveys and Questionnaires, technology acceptance, acceptability, Telerehabilitation, Humans, Medicine, In patient, coronary heart disease, app, home-based, evaluation, business.industry, mobile application, Home based, Coronary heart disease, usability, cardiology, Physical therapy, telerehabilitation, business, acceptance

Abstract

Background An understanding of the technology acceptance of home-based cardiac telerehabilitation programs is paramount if they are to be designed and delivered to target the needs and preferences of patients with coronary heart disease; however, the current state of technology acceptance of home-based cardiac telerehabilitation has not been systematically evaluated in the literature. Objective We aimed to provide a comprehensive summary of home-based cardiac telerehabilitation technology acceptance in terms of (1) the timing and approaches used and (2) patients’ perspectives on its usability, utility, acceptability, acceptance, and external variables. Methods We searched PubMed, CENTRAL, Embase, CINAHL, PsycINFO, and Scopus (inception to July 2021) for English-language papers that reported empirical evidence on the technology acceptance of early-phase home-based cardiac telerehabilitation in patients with coronary heart disease. Content analysis was undertaken. Results The search identified 1798 studies, of which 18 studies, with 14 unique home-based cardiac telerehabilitation programs, met eligibility criteria. Technology acceptance (of the home-based cardiac telerehabilitation programs) was mostly evaluated at intra- and posttrial stages using questionnaires (n=10) and usage data (n=11). The least used approach was evaluation through qualitative interviews (n=3). Usability, utility, acceptability, and acceptance were generally favored. External variables that influenced home-based cardiac telerehabilitation usage included component quality, system quality, facilitating conditions, and intrinsic factors. Conclusions Home-based cardiac telerehabilitation usability, utility, acceptability, and acceptance were high; yet, a number of external variables influenced acceptance. Findings and recommendations from this review can provide guidance for developing and evaluating patient-centered home-based cardiac telerehabilitation programs to stakeholders and clinicians.

Published

2022