Magnetic Nanofibrous Hydrogels for Dynamic Control of Stem Cell Differentiation

Abstract: The extracellular matrix in tissue consists of complex heterogeneous soft materials with hierarchical structure and dynamic mechanical properties dictating cell and tissue level function. In many natural matrices, there are nanofibrous structures that serve to guide cell activity and dictate the form and function of tissue. Synthetic hydrogels with integrated nanofibers can mimic the structural properties of native tissue; however, model systems with dynamic mechanical properties remain elusive. Here we demons… Show more

“…In the presence of these aligned fibers, stem cells (ADSC cells) underwent differentiation into osteocytes, whereas in the absence of fiber alignment, the cells differentiated into adipocytes. 29 Nevertheless, the determined values of the mechanical properties can vary depending on the method used. For example, macroscopic compression tests yield the bulk mechanical properties of the material.…”

“…This phenomenon was observed in MNPs embedded in gelatin nanofibers, where the application of an external magnetic field induces fiber alignment, thereby enhancing the material’s stiffness. In the presence of these aligned fibers, stem cells (ADSC cells) underwent differentiation into osteocytes, whereas in the absence of fiber alignment, the cells differentiated into adipocytes …”

Magnetic Force Microscopy and Nanoindentation on 3D Printed Magnetic Scaffolds for Neuronal Cell Growth

“…In the presence of these aligned fibers, stem cells (ADSC cells) underwent differentiation into osteocytes, whereas in the absence of fiber alignment, the cells differentiated into adipocytes. 29 Nevertheless, the determined values of the mechanical properties can vary depending on the method used. For example, macroscopic compression tests yield the bulk mechanical properties of the material.…”

“…This phenomenon was observed in MNPs embedded in gelatin nanofibers, where the application of an external magnetic field induces fiber alignment, thereby enhancing the material’s stiffness. In the presence of these aligned fibers, stem cells (ADSC cells) underwent differentiation into osteocytes, whereas in the absence of fiber alignment, the cells differentiated into adipocytes …”

Magnetic Force Microscopy and Nanoindentation on 3D Printed Magnetic Scaffolds for Neuronal Cell Growth

Unlocking the biological response of smart Stimuli-Responsive hydrogels and their application in biological systems

Advances in natural and synthetic macromolecules with stem cells and extracellular vesicles for orthopedic disease treatment