Convolutional Neural Network to Classify Medical Images of Rare Brain Disorders

2022 International Conference on Healthcare Engineering (ICHE) Pub Date : 2022-09-23 DOI:10.1109/ICHE55634.2022.10179875

Puja Saha, S. Chowdhury, Afsana Mehrab, Jahangir Alam

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Abstract

In recent years, the widespread dominance of convolutional neural networks (CNN) in numerous computer vision applications, particularly in medical imaging, has been compelling. However, their applications as classifiers are tedious since they need high volume (usually several hundred to several thousand) and thorough preparation of training samples to learn competently. Sometimes, it is nearly impossible to collect such a large number of unique images, especially for rare diseases (i.e., Multiple Sclerosis). Hence, we proposed a CNN that required only sixty unique and nearly unprocessed samples to learn to classify disparate samples of the same disorder with an accuracy of 85%, making it highly likely to overcome the aforementioned constraint. Although due to the paucity of patients with rare brain disorders, in this research we deployed the model to perform classifications of tumorous and hemorrhagic scans against normal ones, it could be generalized to images of other conditions, even rarer ones, since it does not require much to learn.

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卷积神经网络对罕见脑疾病医学图像的分类

近年来，卷积神经网络(CNN)在众多计算机视觉应用中的广泛主导地位，特别是在医学成像方面，已经引人注目。然而，它们作为分类器的应用是乏味的，因为它们需要大量(通常是几百到几千)和彻底的训练样本准备才能胜任学习。有时，收集如此大量的独特图像几乎是不可能的，特别是对于罕见疾病(如多发性硬化症)。因此，我们提出了一个CNN，它只需要60个独特的、几乎未处理的样本来学习对相同疾病的不同样本进行分类，准确率为85%，这使得它很有可能克服上述约束。尽管由于患有罕见脑部疾病的患者很少，在这项研究中，我们部署了该模型来对肿瘤和出血扫描进行分类，以对照正常扫描，它可以推广到其他疾病的图像，甚至是罕见的图像，因为它不需要太多的学习。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 International Conference on Healthcare Engineering (ICHE)

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