Exploring Cell-Based Therapies, Applications in Regenerative Therapies, Tissue Engineering, and Biomedical Innovations
This course, Basics of Stem Cell Biology and Regenerative Medicine, offers a comprehensive introduction to one of the most transformative fields in modern biomedical science. Designed for beginners and life science enthusiasts, the course explores the fascinating world of stem cells, their origin, characteristics, and potential to revolutionize healthcare. Learners will gain a strong foundation in stem cell biology, understanding the differences between embryonic, adult, and induced pluripotent stem cells, along with their unique properties and applications.
What you’ll learn
- Understand the fundamental concepts of stem cells including types, characteristics and development of embryonic, adult, and induced pluripotent stem cells..
- Explain the principles and applications of regenerative medicine, and how stem cells are used to repair, regenerate, and replace damaged tissues and organs..
- Analyze the techniques and technologies involved in stem cell culture, differentiation, and genetic modification, as well as their translational pathways..
- Evaluate the ethical, social, and regulatory challenges associated with stem cell research, clinical trials, and commercialization..
Course Content
- Basics of Stem Cell Technology and Regenerative Medicine –> 12 lectures • 1hr 44min.
- Quizzes –> 0 lectures • 0min.
Requirements
This course, Basics of Stem Cell Biology and Regenerative Medicine, offers a comprehensive introduction to one of the most transformative fields in modern biomedical science. Designed for beginners and life science enthusiasts, the course explores the fascinating world of stem cells, their origin, characteristics, and potential to revolutionize healthcare. Learners will gain a strong foundation in stem cell biology, understanding the differences between embryonic, adult, and induced pluripotent stem cells, along with their unique properties and applications.
The course delves into the principles of regenerative medicine, highlighting how stem cells contribute to tissue repair, organ regeneration, and the treatment of degenerative diseases. Students will explore how cellular therapies and tissue engineering are being translated from the lab to clinical settings, supported by real-world examples and case studies. Key topics such as gene editing, organoid technology, biomaterials, and bioartificial organ development are also covered to introduce learners to emerging innovations shaping the future of medicine.
Ethical, social, and regulatory dimensions form an integral part of the curriculum, encouraging students to critically assess the challenges and responsibilities involved in stem cell research and therapy. By the end of the course, learners will have a solid conceptual understanding of how stem cell science is bridging biology and medicine, offering hope for previously incurable conditions. Whether you are a student, researcher, or simply curious about the future of healthcare, this course will provide a clear and engaging pathway into the science of regeneration and repair.