TY - JOUR
T1 - Spring-Charged Particles Model to Improved Shape Recovery
T2 - An Application for X-Ray Spinal Segmentation
AU - Sardjono, Tri A.
AU - Van Ooijen, Peter M.A.
AU - Purnama, I. Ketut Eddy
AU - Kindhi, Berlian Al
AU - Wicaksono, Ardian Yusuf
AU - Yuniarno, Eko M.
AU - Verkerke, G. J.
AU - Purnomo, Mauridhi Hery
AU - Wilkinson, Michael H.F.
N1 - Publisher Copyright:
© 2013 IEEE.
PY - 2022
Y1 - 2022
N2 - Deformable models are widely used in medical image segmentation methods, to find not only single but also multiple objects within an image. They have the ability to follow the contours of an object of interest, define the boundary of ROI (Region Of Interest) and improve shape recovery. However, these methods still have limitations in cases of low image quality or clutter. This paper presents a new deformable model, the Spring-Charged Particles Model (SCPM). It simulates the movement of positively charged particles connected by springs, attracted towards the contour of objects of interest which is charged negatively, according to the gradient-magnitude image. Springs prevent the particles from moving away and keep the particles at appropriate distances without reducing their flexibility. SCPM was tested on simple shape images and on frontal X-ray images of scoliosis patients. Artificial noise was added to the simple images to examine the robustness of the method. Several configurations of springs and positively charged-particles were evaluated by determining the best spinal segmentation result. The performance of SCPM was compared to the Charged Fluid Model (CFM), Active Contours, and a convolutional neural network (CNN) with U-Net architecture to measure its ability for determining the curvature of the spinal column from frontal X-Ray images. The results show that SCPM is better at segmenting the spine and determining its curvature, as indicated by the highest Area Score value of 0.837, and the lowest standard deviation value of 0.028.
AB - Deformable models are widely used in medical image segmentation methods, to find not only single but also multiple objects within an image. They have the ability to follow the contours of an object of interest, define the boundary of ROI (Region Of Interest) and improve shape recovery. However, these methods still have limitations in cases of low image quality or clutter. This paper presents a new deformable model, the Spring-Charged Particles Model (SCPM). It simulates the movement of positively charged particles connected by springs, attracted towards the contour of objects of interest which is charged negatively, according to the gradient-magnitude image. Springs prevent the particles from moving away and keep the particles at appropriate distances without reducing their flexibility. SCPM was tested on simple shape images and on frontal X-ray images of scoliosis patients. Artificial noise was added to the simple images to examine the robustness of the method. Several configurations of springs and positively charged-particles were evaluated by determining the best spinal segmentation result. The performance of SCPM was compared to the Charged Fluid Model (CFM), Active Contours, and a convolutional neural network (CNN) with U-Net architecture to measure its ability for determining the curvature of the spinal column from frontal X-Ray images. The results show that SCPM is better at segmenting the spine and determining its curvature, as indicated by the highest Area Score value of 0.837, and the lowest standard deviation value of 0.028.
KW - Deformable models
KW - medical image analysis
KW - spinal segmentation
KW - spring-charged particle model
UR - http://www.scopus.com/inward/record.url?scp=85139831873&partnerID=8YFLogxK
U2 - 10.1109/ACCESS.2022.3212755
DO - 10.1109/ACCESS.2022.3212755
M3 - Article
AN - SCOPUS:85139831873
SN - 2169-3536
VL - 10
SP - 110323
EP - 110334
JO - IEEE Access
JF - IEEE Access
ER -