Directed Neural Stem Cells Differentiation via Signal Communication with Ni–Zn Micromotors

Abstract: Neural stem cells (NSCs), with the capability of self‐renewal, differentiation, and environment modulation, are considered promising for stroke, brain injury therapy, and neuron regeneration. Activation of endogenous NSCs, is attracting increasing research enthusiasm, which avoids immune rejection and ethical issues of exogenous cell transplantation. Yet, how to induce directed growth and differentiation in situ remain a major challenge. In this study, a pure water‐driven Ni–Zn micromotor via a self‐establishe… Show more

“…Fitting the MSD curves allowed the average velocity of PCMS to be calculated by using the self-diffusion model. 16–24 Subsequently, the obtained MSD (Fig. 5D and Fig.…”

H₂O₂-stimulated Janus-shaped self-propelled nanomotors as an active treatment for acute renal injury

“…Fitting the MSD curves allowed the average velocity of PCMS to be calculated by using the self-diffusion model. 16–24 Subsequently, the obtained MSD (Fig. 5D and Fig.…”

H₂O₂-stimulated Janus-shaped self-propelled nanomotors as an active treatment for acute renal injury

“…The Ni end provides a unique advantage of controllability by enabling precise cell targeting. 22 After creating tubular Ti/Fe/Pt micro/nanomotors and studying their controlled motion in microchannels, Sanchez et al discovered that the micro/nanomotors’ directional motion along the channel was related to the flowing streams through it. The micro/nanomotor precisely moves the products to the designated spot by controlling its movement speed through the use of a magnetic field.…”

Application of micro/nanomotors in environmental remediation

“…To this end, our research group has developed a water-driven Ni–Zn tubular MNM capable of magnetically controlling its direction for the purpose of directional differentiation of neural stem cells. 46 The aim of this study is to propose new treatment strategies for neurodegenerative diseases such as Alzheimer's disease and Parkinson's disease. The motor is fabricated using the electrochemical deposition method and serves as a typical representative of metal-based micro/nanomotors.…”

Micro/nanomotors for neuromodulation