Paper Info
Title
Automatic Brain Extraction From Mri Of Human Head Scans Using Helmholtz Free Energy Principle And Morphological Operations
Abstract
In this article, two novel methods are proposed to detect the brain boundary in a magnetic resonance image (MRI) by making an analogy between Helmholtz free energy (HFE) principle in thermodynamics and the intensity of pixels in an image. In the first method, an intensity transformation equation is derived using HFE. This transformation is applied to pixels in each slice of the MRI of human head and is used to detect boundaries of all objects present in it. To identify the brain portion among these objects, a sequence of two dimensional (2D) morphological operations and the largest connected component (LCC) analysis are done. These operations produced a mask for the brain using which the brain is extracted from the T1-W MRI slices. However, the LCC process failed in some cases to identify the brain region correctly. To address this issue, a second method which makes use of information in the adjacent slices is developed. This extended scheme performed well in extracting the brain portion from each slice of a MRI volume. Experiments are conducted by applying this schemes on 38 volumes of MRI of human head scans collected from the Internet Brain Segmentation Repository (IBSR). The proposed methods produced competitive or better results than the existing popular methods Brain Extraction Tool (BET), Brain Surface Extractor (BSE) and other similar recent methods.
Year
DOI
Venue
2021
10.1016/j.bspc.2020.102270
BIOMEDICAL SIGNAL PROCESSING AND CONTROL
Keywords
DocType
Volume
Human brain, Magnetic resonance imaging, Helmholtz free energy, Intensity transformation, MRI, Brain extraction, Skull stripping
Journal
64
ISSN
Citations 
PageRank 
1746-8094
0
0.34
References 
Authors
0
7
Name
Order
Citations
PageRank
K. Ezhilarasan100.34
S. Praveenkumar200.34
Somasundaram Karuppanagounder332.43
Kalaiselvi T491.88
S. Magesh500.34
S. Kiruthika600.34
A. Jeevarekha700.34