2023
DOI: 10.7759/cureus.41582
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Utilizing Deep Learning for X-ray Imaging: Detecting and Classifying Degenerative Spinal Conditions

Abstract: Background Degenerative spinal conditions (DSCs) involve a diverse set of pathologies that significantly impact health and quality of life, affecting many individuals at least once during their lifetime. Treatment approaches are varied and complex, reflecting the intricacy of spinal anatomy and kinetics. Diagnosis and management pose challenges, with the accurate detection of lesions further complicated by age-related degeneration and surgical implants. Technological advancements, particularly in ar… Show more

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“…Deep learning (DL), a branch of artificial intelligence inspired by the understanding of the neural networks within humans, has shown great potential for improving the accuracy and efficiency of brain tumor classification [10,11]. By training deep neural networks on large datasets of brain tumor imaging data, researchers and clinicians can develop highly accurate models that can automatically identify and classify different types of brain tumors [1,[10][11][12]. The use of DL in brain tumor classification has the potential to improve patient outcomes by enabling faster and more accurate diagnosis and treatment planning [8,9].…”
Section: Introductionmentioning
confidence: 99%
“…Deep learning (DL), a branch of artificial intelligence inspired by the understanding of the neural networks within humans, has shown great potential for improving the accuracy and efficiency of brain tumor classification [10,11]. By training deep neural networks on large datasets of brain tumor imaging data, researchers and clinicians can develop highly accurate models that can automatically identify and classify different types of brain tumors [1,[10][11][12]. The use of DL in brain tumor classification has the potential to improve patient outcomes by enabling faster and more accurate diagnosis and treatment planning [8,9].…”
Section: Introductionmentioning
confidence: 99%