Personalized Drug Therapy Recommendations Based on Doctor’s Clinical Descriptions Using AI

Personalized drug therapy is pivotal in optimizing patient outcomes by tailoring treatments to individual needs. This study explores an AI-based approach for generating personalized drug therapy recommendations based on a doctor’s clinical descriptions. By leveraging natural language processing (NLP) and machine learning algorithms, the system analyzes unstructured clinical notes to identify relevant symptoms, medical history, and diagnostic information. The extracted data is then processed to suggest optimal drug therapies, considering factors such as drug efficacy, potential side effects, and patient-specific conditions like age, allergies, and comorbidities. A comprehensive dataset of clinical notes and drug prescriptions is used to train the AI model, enhancing its ability to learn from real-world medical cases. The proposed system aims to assist healthcare professionals in making more informed decisions, reduce the risk of adverse drug reactions, and improve overall treatment effectiveness. Initial results indicate that the AI-driven model provides accurate and clinically relevant recommendations in line with standard treatment protocols. This research holds significant potential for improving the efficiency and precision of personalized medicine, offering a practical solution for integrating AI into routine healthcare practices. Future work will focus on refining the model and ensuring compliance with ethical and regulatory standards.