Automated knee bone segmentation and visualisation using mask RCNN and marching cube: Data from the osteoarthritis initiative

Automated knee bone segmentation and visualisation using mask RCNN and marching cube: Data from the osteoarthritis initiative

In this work, an automated knee bone segmentation model is proposed. A mask region-based convolutional neural network (RCNN) algorithm is developed to segment the bone and reconstructed into 3D object by using Marching-Cube algorithm. The proposed method is divided into two stages. First, the Mask R...

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Main Authors: Patekar, Rahul, Kumar, Prashant Shukla, Gan, Hong-Seng, Ramlee, Muhammad Hanif
Format: Article
Language:English
Published: Akademi Sains Malaysia 2022
Subjects:
QM Human anatomy
Online Access:http://eprints.utm.my/id/eprint/101146/1/MuhammadHanifRamlee2022_AutomatedKneeBoneSegmentationandVisualisation.pdf
http://eprints.utm.my/id/eprint/101146/
http://dx.doi.org/10.32802/asmscj.2022.968
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Institution: Universiti Teknologi Malaysia
Language: English
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spelling my.utm.1011462023-06-01T08:59:44Z http://eprints.utm.my/id/eprint/101146/ Automated knee bone segmentation and visualisation using mask RCNN and marching cube: Data from the osteoarthritis initiative Patekar, Rahul Kumar, Prashant Shukla Gan, Hong-Seng Ramlee, Muhammad Hanif QM Human anatomy In this work, an automated knee bone segmentation model is proposed. A mask region-based convolutional neural network (RCNN) algorithm is developed to segment the bone and reconstructed into 3D object by using Marching-Cube algorithm. The proposed method is divided into two stages. First, the Mask RCNN is introduced to segment subchondral knee bone from the input MRI sequence. In the second stage, the segmented output from Mask R-CNN is fed as input to the Marching cube algorithm for the 3D reconstruction of knee subchondral bone. The proposed method achieved high dice similarity scores for femur bone 95.35%, tibia bone 95.3%, and patella bone 94.40% using a Mask R-CNN with Resnet-50 as backbone architecture. Improved dice similarity scores for femur bone 97.11%, tibia bone 97.33%, and patella bone 97.05% are obtained by Mask RCNN with Resnet-101 as backbone architecture. It is noted that the Mask RCNN framework has demonstrated efficient and accurate knee subchondral bone detection as well as segmentation for input MRI sequences. Akademi Sains Malaysia 2022 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/101146/1/MuhammadHanifRamlee2022_AutomatedKneeBoneSegmentationandVisualisation.pdf Patekar, Rahul and Kumar, Prashant Shukla and Gan, Hong-Seng and Ramlee, Muhammad Hanif (2022) Automated knee bone segmentation and visualisation using mask RCNN and marching cube: Data from the osteoarthritis initiative. ASM Science Journal, 17 (NA). pp. 1-7. ISSN 1823-6782 http://dx.doi.org/10.32802/asmscj.2022.968 DOI : 10.32802/asmscj.2022.968
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic QM Human anatomy
spellingShingle QM Human anatomy
Patekar, Rahul
Kumar, Prashant Shukla
Gan, Hong-Seng
Ramlee, Muhammad Hanif
Automated knee bone segmentation and visualisation using mask RCNN and marching cube: Data from the osteoarthritis initiative
description In this work, an automated knee bone segmentation model is proposed. A mask region-based convolutional neural network (RCNN) algorithm is developed to segment the bone and reconstructed into 3D object by using Marching-Cube algorithm. The proposed method is divided into two stages. First, the Mask RCNN is introduced to segment subchondral knee bone from the input MRI sequence. In the second stage, the segmented output from Mask R-CNN is fed as input to the Marching cube algorithm for the 3D reconstruction of knee subchondral bone. The proposed method achieved high dice similarity scores for femur bone 95.35%, tibia bone 95.3%, and patella bone 94.40% using a Mask R-CNN with Resnet-50 as backbone architecture. Improved dice similarity scores for femur bone 97.11%, tibia bone 97.33%, and patella bone 97.05% are obtained by Mask RCNN with Resnet-101 as backbone architecture. It is noted that the Mask RCNN framework has demonstrated efficient and accurate knee subchondral bone detection as well as segmentation for input MRI sequences.
format Article
author Patekar, Rahul
Kumar, Prashant Shukla
Gan, Hong-Seng
Ramlee, Muhammad Hanif
author_facet Patekar, Rahul
Kumar, Prashant Shukla
Gan, Hong-Seng
Ramlee, Muhammad Hanif
author_sort Patekar, Rahul
title Automated knee bone segmentation and visualisation using mask RCNN and marching cube: Data from the osteoarthritis initiative
title_short Automated knee bone segmentation and visualisation using mask RCNN and marching cube: Data from the osteoarthritis initiative
title_full Automated knee bone segmentation and visualisation using mask RCNN and marching cube: Data from the osteoarthritis initiative
title_fullStr Automated knee bone segmentation and visualisation using mask RCNN and marching cube: Data from the osteoarthritis initiative
title_full_unstemmed Automated knee bone segmentation and visualisation using mask RCNN and marching cube: Data from the osteoarthritis initiative
title_sort automated knee bone segmentation and visualisation using mask rcnn and marching cube: data from the osteoarthritis initiative
publisher Akademi Sains Malaysia
publishDate 2022
url http://eprints.utm.my/id/eprint/101146/1/MuhammadHanifRamlee2022_AutomatedKneeBoneSegmentationandVisualisation.pdf
http://eprints.utm.my/id/eprint/101146/
http://dx.doi.org/10.32802/asmscj.2022.968
_version_ 1768006615415390208

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