Abstract
Muscular Dystrophy (MD) is a group of inherited muscular diseases that are commonly diagnosed with the help of techniques such as muscle biopsy, clinical presentation, and Muscle Magnetic Resonance Imaging (MRI). Among these techniques, Muscle MRI recommends the diagnosis of muscular dystrophy through identification of the patterns that exist in muscle fatty replacement. But the patterns overlap among various diseases whereas there is a lack of knowledge prevalent with regards to disease-specific patterns. Therefore, artificial intelligence techniques can be used in the diagnosis of muscular dystrophies, which enables us to analyze, learn, and predict for the future. In this scenario, the current research article presents an automated muscular dystrophy detection and classification model using Synergic Deep Learning (SDL) method with extreme Gradient Boosting (XGBoost), called SDL-XGBoost. SDL-XGBoost model has been proposed to act as an automated deep learning (DL) model that examines the muscle MRI data and diagnose muscular dystrophies. SDL-XGBoost model employs Kapur's entropy based Region of Interest (RoI) for detection purposes. Besides, SDL-based feature extraction process is applied to derive a useful set of feature vectors. Finally, XGBoost model is employed as a classification approach to determine proper class labels for muscle MRI data. The researcher conducted extensive set of simulations to showcase the superior performance of SDL-XGBoost model. The obtained experimental values highlighted the supremacy of SDL-XGBoost model over other methods in terms of high accuracy being 96.18% and 94.25% classification performance upon DMD and BMD respectively. Therefore, SDL-XGBoost model can help physicians in the diagnosis of muscular dystrophies by identifying the patterns of muscle fatty replacement in muscle MRI.
Highlights
In 1954, Walton and Nattrass defined Muscular Dystrophy (MD) as a heterogeneous set of primary genetic diseases that impact muscles and is medically characterized by advanced muscular weakness and waste
The aim of the proposed Synergic Deep Learning (SDL)-XGBoost model is to act as an automated Deep Learning (DL) model that examines muscle Magnetic Resonance Imaging (MRI) data and diagnose the muscular dystrophies
Machine Learning (ML) techniques undergo training to perform helpful tasks based on manual stimulation
Summary
In 1954, Walton and Nattrass defined Muscular Dystrophy (MD) as a heterogeneous set of primary genetic diseases that impact muscles and is medically characterized by advanced muscular weakness and waste. Dystrophin and the proteins related to the family form a complex yet essential architecture that works with intracellular actin cytoskeleton to extra-cellular matrix This association strengthens the sarcolemma from mechanical stress during muscle contraction. Some of the features in MRI can create an impact upon clinical decision making too In spite of these constraints, there is a rising attention upon imaging technique (especially MRI) to investigate genetic muscle diseases [4,5]. The aim of the proposed SDL-XGBoost model is to act as an automated Deep Learning (DL) model that examines muscle MRI data and diagnose the muscular dystrophies.
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