Stem Cells & AI in Drug Discovery: iPSCs and Organoids 101
Learn how stem cells, iPSCs, organoids, and AI are transforming clinical trials, drug safety, and personalized medicine.
Stem Cells & AI in Drug Discovery: iPSCs and Organoids 101 free download
Learn how stem cells, iPSCs, organoids, and AI are transforming clinical trials, drug safety, and personalized medicine.
Are you curious about how the future of drug discovery is shifting toward patient-specific, human-relevant systems? This course introduces you to the cutting-edge intersection of iPSC technology, AI, and organoids that is redefining biomedical research.
You will learn how induced pluripotent stem cells, or iPSCs, are generated from adult somatic cells using Yamanaka factors, and how they can be differentiated into functional, organ-specific tissues. These lab-grown tissues, known as organoids, are already being used in clinical trials in a dish to predict drug responses with far greater accuracy than animal models.
We will also explore how artificial intelligence is revolutionizing safety assessment, drug screening, and personalized medicine. Key topics include the FDA Modernization Act 2.0, preclinical safety pipelines, biobanking, and case studies in cardiology, oncology, and neurodegenerative disease research.
This course is ideal for students, pre-med learners, biotech professionals, and anyone passionate about the future of translational science. No prior lab experience required — just curiosity and a drive to understand the future of precision medicine.
What you will learn:
iPSC generation, differentiation, and therapeutic applications
Organoid models and their role in preclinical testing
AI-driven approaches in drug development
Ethical, regulatory, and safety frameworks in next-gen therapeutics
Join us and become fluent in the science behind tomorrow's medicine.
