International Journal of Sustainable Development in Computing Science

Personalized cancer diagnosis and prognosis are critical aspects of modern oncology, aiming to tailor treatments based on individual patient characteristics. This study explores the utilization of machine learning algorithms in the realm of personalized cancer diagnosis and prognosis. Leveraging extensive patient data, including genetic profiles, imaging scans, and clinical records, machine learning models are developed to predict cancer diagnosis and forecast patient outcomes. The focus is on the creation of robust models capable of accurately classifying cancer types, determining disease stage, and predicting survival rates for individual patients. Key considerations encompass feature selection, model optimization, and validation using diverse patient cohorts. The integration of machine learning techniques aims to revolutionize cancer care by offering tailored and precise diagnostic and prognostic insights, thereby contributing to more effective and personalized treatment strategies.

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