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aims to summarize the recent microfluidic studies on mechanically stimulated osteocytes in regulating other cell types.Recent FindingsMicrofluidics is a powerful technology that has been widely employed ...
environments that mimic the osteochondral interface, enabling co‐culture of chondrocytes with osteoblasts from non‐sclerotic and sclerotic subchondral bone. This co‐culture in differential oxygen conditions ...
Microfluidics has emerged as a promising approach for assessing cellular behavior in vitro, providing more physiologically relevant cell culture environments with dynamic flow and shear stresses ...
limited by the implementation of sophisticated devices and procedures that can foster a tissue-specific 3D cell microenvironment along with a dynamic cultivation regime. In this study , we consequently ...
‐lineage (RAW 264.7) cells were performed. Osteoblast ‐lineage cells adhered to the microcoating and deposited an extracellular matrix of collagen fibrils and mineral accretions. Mineralization was detected ...
biological systems in an accurate environment , coculture systems are widely used. The majority of the existent studies concerning neuron and osteoblast lineage were performed with cell – cell contact cultures ...
Here we report a BioMEMS based microfluidic device as a deformation assay to study the deformability and growth capability of cells through microgaps. The micro-gaps are ranging from 3µm to 30µm ...
work is attempting to establish appropriate osteocyte cell lines suitable for studying osteocyte- osteoblast signaling [38, 39]. Future experiments using our microfluidic device can mitigate this issue ...
with microfluidic technology (e.g., organ-on-a-chip and lab-on-a-chip) and the applications of these studies , reported qualitative and quantitative results, and referred to human or animal cells were included ...
, relative to CM from static cultures. Endothelial cell sprouting was studied using a dual-channel collagen gel-based microfluidic device that mimics vessel geometry. Static CM enhanced endothelial cell ...
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