Artificial Intelligence (AI) is a branch of study that deals with intelligent machine learning, primarily intelligent computer programs that produce outcomes that resemble human attention processes. The ability of machines and computers to think, act, behave, and function like humans is referred to as artificial intelligence. Beyond drug development, AI improves medication management and customizes patient care to revolutionize pharmacy operations. Community pharmacists can use digital technology and artificial intelligence (AI) to transform patient care in a number of ways. In order to forecast drug activity at every scale, AI systems can examine intricate correlations between pharmacological characteristics, formulation elements, and physiological parameters. In pharmaceutical research, artificial intelligence (AI) has become a potent tool for predicting the physicochemical stability of oral dosage forms. Potential applications of artificial intelligence include patient education, physical activity suggestions, personal dietary intervention, and behavioural coaching. In recent years, artificial intelligence (AI) in medicinal chemistry has drawn a lot of attention as a potential way to transform the pharmaceutical sector. Additionally, medication candidates' toxicity has been predicted using AI-based techniques. Predicting the toxicity and effectiveness of possible therapeutic molecules is one of the main uses of AI in medicinal chemistry.
Pawan Vishwakarma*1, Faizan Raza1, Abdul Quaiyoom2, Shekhar Singh3, Navneet Kumar Verma3 (Wed,) studied this question.