Research Articles
The Invisible Architects: How Scientists Engineer Biomaterial Interfaces to Rebuild Our Bodies
Exploring the breakthrough science of engineered biomaterial scaffolds that are transforming regenerative medicine by tailoring the interface between synthetic materials and living tissue.
The Wrinkled Highway to Healing Hearts: How Grooved Films Guide Stem Cells to Repair Cardiac Damage
Discover how shrink-film wrinkles align human stem cells for cardiac repair, revolutionizing regenerative medicine for heart disease treatment.
The Fat That Heals: How a Forgotten 19th-Century Discovery is Revolutionizing Regenerative Medicine
Discover how lipocartilage, a forgotten 19th-century discovery, is transforming regenerative medicine with its unique fat-filled cells and remarkable healing properties.
The Dendrimer Dilemma: Can Tiny Tree-like Molecules Shape the Future of Stem Cell Therapy?
Exploring how PAMAM dendrimers interact with mesenchymal stem cells, their effects on viability and differentiation, and potential applications in regenerative medicine.
The Invisible Architects: Unlocking the Power of Human Embryonic Stem Cells
Exploring the functional assays that validate the pluripotency of human embryonic stem cells and their crucial role in regenerative medicine.
The Cellular Time Machine: How Scientists Reprogrammed Human Cells to Embryonic Potential
Explore the groundbreaking 2007 discovery of induced pluripotent stem cells (iPSCs) by Junying Yu and James Thomson that revolutionized regenerative medicine.
Unlocking Regenerative Medicine's Future: The Ethical Quest for Alternative Stem Cell Sources
Exploring ethical alternatives to embryonic stem cells and their impact on regenerative medicine, based on the Bioethics Council's white paper.
Gravity's Hidden Hand: How Simulated Space Conditions Rewire Our Stem Cells
Exploring how simulated microgravity affects mesenchymal stem cells and its implications for regenerative medicine.
The Lone Healers: Unraveling the Secrets of Single Mesenchymal Stem Cells
Exploring the cutting-edge science of isolating, expanding, and characterizing mesenchymal stem cells at the single-cell level for precision regenerative medicine.