TY - JOUR KW - Drug repurposing KW - Artificial Intelligence in Public Health KW - Virtual screening KW - Target identification KW - Emerging infectious diseases KW - Structure-based drug design AU - Singh A AB -

Traditional drug discovery struggles to keep pace with the ever-evolving threat of infectious diseases. New viruses and antibiotic-resistant bacteria, all demand rapid solutions. Artificial Intelligence (AI) offers a promising path forward through accelerated drug repurposing. AI allows researchers to analyze massive datasets, revealing hidden connections between existing drugs, disease targets, and potential treatments. This approach boasts several advantages. First, repurposing existing drugs leverages established safety data and reduces development time and costs. Second, AI can broaden the search for effective therapies by identifying unexpected connections between drugs and potential new targets. Finally, AI can help mitigate limitations by predicting and minimizing side effects, optimizing drugs for repurposing, and navigating intellectual property hurdles. The article explores specific AI strategies like virtual screening, target identification, structure base drug design and natural language processing. Real-world examples highlight the potential of AI-driven drug repurposing in discovering new treatments for infectious diseases.

BT - Artificial Intelligence Chemistry DO - 10.1016/j.aichem.2024.100071 IS - 2 LA - ENG M3 - Article N2 -

Traditional drug discovery struggles to keep pace with the ever-evolving threat of infectious diseases. New viruses and antibiotic-resistant bacteria, all demand rapid solutions. Artificial Intelligence (AI) offers a promising path forward through accelerated drug repurposing. AI allows researchers to analyze massive datasets, revealing hidden connections between existing drugs, disease targets, and potential treatments. This approach boasts several advantages. First, repurposing existing drugs leverages established safety data and reduces development time and costs. Second, AI can broaden the search for effective therapies by identifying unexpected connections between drugs and potential new targets. Finally, AI can help mitigate limitations by predicting and minimizing side effects, optimizing drugs for repurposing, and navigating intellectual property hurdles. The article explores specific AI strategies like virtual screening, target identification, structure base drug design and natural language processing. Real-world examples highlight the potential of AI-driven drug repurposing in discovering new treatments for infectious diseases.

PB - Elsevier BV PY - 2024 SP - 1 EP - 14 T2 - Artificial Intelligence Chemistry TI - Artificial intelligence for drug repurposing against infectious diseases UR - https://www.sciencedirect.com/science/article/pii/S2949747724000290/pdfft?md5=061eb4d8766a2284afb22976a6d28b51&pid=1-s2.0-S2949747724000290-main.pdf VL - 2 SN - 2949-7477 ER -