Regenerative medicine, what was once thought to be science fiction back in the day is now growing to become the most significant advancements made in the field of medicine and clinical studies. Regenerative medicines are medicines that help in repairing and replacing damaged tissue and re-establish organ function impaired by disease, trauma, or congenital abnormalities. Stem cells play a key role in the advancements of regenerative medicine. Stem cells are undifferentiated, meaning they don’t have a specific function and structure like skin cells or muscle cells. But they do have the potential to develop into various specialized cells. They have the ability to regenerate and replace damaged tissue and organs in our body. For example, the lining of the intestines is replaced every four days by the stem cells present beneath it 1. Stem cells are essential for understanding how the body works and for the development of new therapies for diseases 2. Regenerative Medicine (RM) overcomes limitations of conventional therapies in settings like myocardial infarction, vascular disease, limb loss, and organ failure by harnessing innate repair mechanisms. Studies in zebrafish—a model capable of regenerating hearts, fins, retina, and spinal cord—reveal key processes: cardiomyocyte dedifferentiation, proliferation, and pathways such as Notch, Wnt, FGF, BMP, and microRNAs 17, 19. Translating these insights, RM approaches now include bioengineered scaffolds, decellularized extracellular matrices, stem cell transplantation, miRNA modulation, nanomedicine-based treatments, and the creation of 3D organoids 7. A recent milestone: vascularized cardiac and liver organoids developed by Stanford using patterned growth-factor protocols replicate embryonic vasculature and beat like early hearts—offering scalable disease models and future transplant prospects 8. Continued exploration in vertebrate models will build an understanding of genetic, epigenetic, and mechanobiological cues—essential for harnessing regeneration in human tissues and organs, promising transformative therapies for life-threatening conditions 1, 19.
Panigrahi et al. (Tue,) studied this question.