Hannah Sofian scite author profile

Hannah Sofian

5Publications

43Citation Statements Received

44Citation Statements Given

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Affiliations

University of Technology Malaysia, University of Kuala Lumpur, Universiti Tun Abdul Razak

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Calcification detection using convolutional neural network architectures in Intravascular ultrasound images

Sofian

Ming

Muhammad

et al. 2020

IJEECS

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<p>Cardiovascular disease is the highest leading to death for Non-Communicable disease. Coronary artery calcification disease is part of cardiovascular disease. The built-in of the plaques and the calcification in the coronary artery inner wall make the blood vessel cross-section area narrow. The standard practice by the radiologists and medical clinical are by visual inspection to detect the calcification in the intravascular ultrasound image. Deep learning is the current image processing methods that have high potential to detect calcification analysis using convolutional neural network architecture and classifiers. To detect the absence of calcification and presence calcification on the intravascular ultrasound image, using k-fold =10, we compared the three types of convolutional neural network architectures and the seven types of classifiers with the provided ground truth from MICCAI 2011. We used two types of images named as Cartesian Coordinates image and polar reconstructed coordinate image. The classifiers such as Support Vector Machine, Discriminant analysis, Ensembles and Error-Correcting Output Codes obtained the perfect result with value one for Area Under Curve and all the performance measure result, accuracy, sensitivity, specificity, positive predictive value and negative predictive value. Area Under Curve for Naïve Bayes classifier is 0.9967 and for Decision Tree classifier is 0.9994, obtained using the polar reconstructed coordinate image for InceptionresNet-V2 architecture.</p>

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Calcification Detection Using Deep Structured Learning in Intravascular Ultrasound Image for Coronary Artery Disease

Sofian

Ming

Mohamad

et al. 2018

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Calcification Detection of Coronary Artery Disease in Intravascular Ultrasound Image: Deep Feature Learning Approach

Sofian

Than

Mohammad

et al. 2018

IJIE

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Coronary artery disease is one type of cardiovascular disease (CVD). According to the World Health Organisation (WHO), 31% of non-communicable disease (NCD) is from CVD. The build-up of lipids, plaques and calcification that embed in the inner wall of the artery that may result in narrowing the blood vessel. Therefore, the volume of blood flow is decreased. Moreover, the ruptured plaques and calcification may block the small arteries where the patient can get Abstract: Coronary artery disease (CAD) is part of the non-communicable disease (NCD) in cardiovascular disease (CVD). The blood vessel area became narrow when the calcification with the plaque embedded in the coronary artery inner wall. The radiologists and medical practitioners used visual inspection to detect calcification on IVUS image. The presence of calcification will not be able to do the measurement to calculate the maximum diameter and the maximum area for the patient coronary artery either before treatment or after treatment. More than 100 frames per patient is needed to analyse the location of the calcification. In this study, our aim is to detect the presence and the absence of the calcification in the coronary artery using intravascular ultrasound (IVUS) images with catheter frequency of 20MHz. The IVUS images used were the original Cartesian coordinate image and the polar reconstructed coordinate image. In this study, three types of convolutional neural network (CNN) using Directed Acyclic Graph networks, were used together with five types of classifiers. The dataset used to demonstrate our framework is Dataset B from MICCAI Challenge 2011 that consists of 2175 coronary artery disease IVUS image where 530 are IVUS images with calcification and 1645 are IVUS images without calcification. The cross validation for testing and training, the k-fold value used was 2, 3, 5 and 10. The performance measures for the ResNet-50, the ResNet-101 and the Inception-V3 model shows an excellent result using support vector machine classifier and discriminant analysis for both types of images. A better improvement using polar reconstructed coordinate image when using decision tree classifier and Naïve Bayes classifier whilst ResNet-101 architecture shows an excellent performance measure when applying images polar reconstructed images when using k-nearest neighbor classifier. However, Naïve Bayes classifier has an excellent result when using Inception-V3 architecture.

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Detection of the lumen boundary in the coronary artery disease

Sofian

Ming

Noor

2015

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Calcification boundary detection in coronary artery using intravascular ultrasound images

Sofian

Than

et al. 2017

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Hannah Sofian

Calcification detection using convolutional neural network architectures in Intravascular ultrasound images

Calcification Detection Using Deep Structured Learning in Intravascular Ultrasound Image for Coronary Artery Disease

Calcification Detection of Coronary Artery Disease in Intravascular Ultrasound Image: Deep Feature Learning Approach

Detection of the lumen boundary in the coronary artery disease

Calcification boundary detection in coronary artery using intravascular ultrasound images

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