… In this study, we established a 3D bioprinted glioma stem cell … stem cells achieved a survival
rate of 86.92%, and proliferated with high cellular activity immediately following bioprinting. …

… In another study, the differentiation potential of bioprinted mesenchymal stem cells (MSCs)
was investigated. Here, MSCs were encapsulated in collagen alone or collagen–agarose …

… The aim of this study was to generate stem cell constructs that could be differentiated toward
cartilage in a post-bioprinting approach. Two natural polysaccharides (alginate and XG) …

… bioprinted … stem cells (BM-hMSCs). This study is also the first to examine co-cultures of
healthy human chondrocytes with human BM-hMSCs encapsulated in GelMA/HAMA bioprinted …

… , viable, and functional cells could already be … bioprinting. To mimic the in vivo-like behavior
of adipose tissue as close as possible, we compared the bioprinted GelMA-based cellular …

… The objective of this study was to reprogram human adipogenic mesenchymal stem cells
(hADMSCs) to form Purkinje cells and to use the reprogrammed Purkinje cells to bioprint …

… of advanced materials science, stem cell science, physics, … bioprinting is a promising
and innovative biofabrication strategy to precisely position biologics, including living cells …

… stem cell types (ie, embryonic stem cells, human bone marrow stem cells, and adipose-derived
stem cells (… achieving encapsulated stem cells of interest for genomic analysis [141,142]. …

… Average viability of extrusion-based bioprinted hTERT-immortalized mesenchymal stem
cells resuspended in a concentration of 2 ​× ​10 6 ​cells/ml in alginate 2% gelatin 8% …

… An important concern in stem cell printing is that the activity of stem cells, including
proliferation and pluripotency, may change during the printing process. Levato et al. [65] …