… -guided magnet-driven degradable microrobots to deliver engineered stem cells onto the
desired … The microrobots were designed to meet the requirements of degradability, mechanical …

… biodegradable microrobot (hereafter GelMA microrobot) fabricated with a simple microfluidic
device; the GelMA microrobot was designed for stem cell … Human nasal turbinate stem cells (…

… During the degradation of cell-loaded microrobots, human nasal turbinate stem cells (hNTSCs)
and superparamagnetic iron oxide nanoparticles (SPIONs) are released. To stimulate the …

… of numerous mouse macrophages and human adipose-derived mesenchymal stem cells
(hADMSCs) into Mag-C. As a feasibility test of the use of cell-loaded Mag-C for liver cancer …

… microrobots for drug delivery, we propose a novel, biodegradable hydrogel microrobot in
which the remnant MNPs from the … such as stem cells as well as drugs for treating cancer cells. …

… Human bone marrow mesenchymal stem cells are selected for their therapeutic potential in
OA … The degradation results showed that M-CEDSs are degradable in natural environments …

… the PEI-coated MNPs are not biodegradable and cause cell death and inhibition of cell (17). …
it is hence a polymer suitable for the microrobot stem cell delivery for cartilage regeneration. …

… steerable microrobotic cell transporter (MCT) for stem cell delivery within a recapitulated cell
… of MCTs are biodegradable and can be remodeled by the cells. To render overall structure …

… In addition the main problem in stem cell therapy is the fact that when cells are injected into
the body, there is no control on their final site of action and their faith. It has been suggested …

… microrobots. This article proposes a new design that can result in 3D cell culture microrobots
with improved degradability … mesenchymal stem cells (MSCs) with microrobots was also …