Efficient brain tumor grade classification using ensemble deep learning models

Detecting brain tumors early on is critical for effective treatment and life-saving efforts. The analysis of the brain with MRI scans is fundamental to the diagnosis because it contains detailed structural views of the brain, which is vital in identifying any of its abnormalities. The other option o...

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Bibliographic Details
Published in:BMC medical imaging 2024-11, Vol.24 (1), p.297-22, Article 297
Main Authors: M, Sankar, Bv, Baiju, D, Preethi, S, Ananda Kumar, Mathivanan, Sandeep Kumar, Shah, Mohd Asif
Format: Article
Language:English
Subjects:
Abnormalities
Accuracy
Algorithms
Automation
Biopsy
Brain
Brain cancer
Brain Neoplasms - classification
Brain Neoplasms - diagnostic imaging
Brain Neoplasms - pathology
Brain tumor
Brain tumor grade classification
Brain tumors
Cancer
Classification
Computerized diagnostics
Deep Learning
Glioma
Gliomas
Humans
Image enhancement
Image Interpretation, Computer-Assisted - methods
Machine learning
Magnetic resonance image
Magnetic resonance imaging
Magnetic Resonance Imaging - methods
Medical imaging
Meningioma
Neoplasm Grading
Oncology
Pituitary
Tissues
Tumors
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Summary:Detecting brain tumors early on is critical for effective treatment and life-saving efforts. The analysis of the brain with MRI scans is fundamental to the diagnosis because it contains detailed structural views of the brain, which is vital in identifying any of its abnormalities. The other option of performing an invasive biopsy is very painful and uncomfortable, which is not the case with MRI as it is free from surgically invasive margins and pieces of equipment. This helps patients to feel more at ease and hasten the diagnostic procedure, allowing physicians to formulate and practice action plans quicker. It is very difficult to locate a human brain tumor by manual because MRI scans produce large numbers of three-dimensional images. Complete applicability of pre-written computerized diagnostics, affords high possibilities in providing areas of interest earlier through the application of machine learning techniques and algorithms. The proposed work in the present study was to develop a deep learning model which will classify brain tumor grade images (BTGC), and hence enhance accuracy in diagnosing patients with different grades of brain tumors using MRI. A MobileNetV2 model, was used to extract the features from the images. This model increases the efficiency and generalizability of the model further. In this study, six standard Kaggle brain tumor MRI datasets were used to train and validate the developed and tested model of a brain tumor detection and classification algorithm into several types. This work consists of two key components: (i) brain tumor detection and (ii) classification of the tumor. The tumor classifications are conducted in both three classes (Meningioma, Pituitary, and glioma) and two classes (malignant, benign). The model has been reported to detect brain tumors with 99.85% accuracy, to distinguish benign and malignant tumors with 99.87% accuracy, and to type meningioma, pituitary, and glioma tumors with 99.38% accuracy. The results of this study indicate that the described technique is useful in the detection and classification of brain tumors.
ISSN:1471-2342
1471-2342
DOI:10.1186/s12880-024-01476-1