Your search keyword '"Lorraine Johnson"' showing total 2 results

1. Feature Selection from Lyme Disease Patient Survey Using Machine Learning

Author

Joshua Vendrow, Jamie Haddock, Deanna Needell, and Lorraine Johnson

Subjects

Lyme disease, machine learning, feature selection, survey data, symptom severity, Industrial engineering. Management engineering, T55.4-60.8, Electronic computers. Computer science, QA75.5-76.95

Abstract

Lyme disease is a rapidly growing illness that remains poorly understood within the medical community. Critical questions about when and why patients respond to treatment or stay ill, what kinds of treatments are effective, and even how to properly diagnose the disease remain largely unanswered. We investigate these questions by applying machine learning techniques to a large scale Lyme disease patient registry, MyLymeData, developed by the nonprofit LymeDisease.org. We apply various machine learning methods in order to measure the effect of individual features in predicting participants’ answers to the Global Rating of Change (GROC) survey questions that assess the self-reported degree to which their condition improved, worsened, or remained unchanged following antibiotic treatment. We use basic linear regression, support vector machines, neural networks, entropy-based decision tree models, and k-nearest neighbors approaches. We first analyze the general performance of the model and then identify the most important features for predicting participant answers to GROC. After we identify the “key” features, we separate them from the dataset and demonstrate the effectiveness of these features at identifying GROC. In doing so, we highlight possible directions for future study both mathematically and clinically.

Published

2020

2. Feature Selection from Lyme Disease Patient Survey Using Machine Learning

Author

Deanna Needell, Jamie Haddock, Lorraine Johnson, and Joshua Vendrow

Subjects

lcsh:T55.4-60.8, Computer science, Decision tree, Feature selection, Disease, Machine learning, computer.software_genre, lcsh:QA75.5-76.95, survey data, Theoretical Computer Science, 03 medical and health sciences, 0302 clinical medicine, feature selection, lcsh:Industrial engineering. Management engineering, Lyme disease, 030212 general & internal medicine, 030304 developmental biology, 0303 health sciences, Numerical Analysis, Artificial neural network, business.industry, Global Rating, Support vector machine, Computational Mathematics, symptom severity, machine learning, Computational Theory and Mathematics, Scale (social sciences), Survey data collection, Artificial intelligence, lcsh:Electronic computers. Computer science, business, computer

Abstract

Lyme disease is a rapidly growing illness that remains poorly understood within the medical community. Critical questions about when and why patients respond to treatment or stay ill, what kinds of treatments are effective, and even how to properly diagnose the disease remain largely unanswered. We investigate these questions by applying machine learning techniques to a large scale Lyme disease patient registry, MyLymeData, developed by the nonprofit LymeDisease.org. We apply various machine learning methods in order to measure the effect of individual features in predicting participants&rsquo, answers to the Global Rating of Change (GROC) survey questions that assess the self-reported degree to which their condition improved, worsened, or remained unchanged following antibiotic treatment. We use basic linear regression, support vector machines, neural networks, entropy-based decision tree models, and k-nearest neighbors approaches. We first analyze the general performance of the model and then identify the most important features for predicting participant answers to GROC. After we identify the &ldquo, key&rdquo, features, we separate them from the dataset and demonstrate the effectiveness of these features at identifying GROC. In doing so, we highlight possible directions for future study both mathematically and clinically.

Published

2020