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[HTML][HTML] Cell-tissue interaction: the biomimetic approach to design tissue engineered biomaterials
The advancement achieved in Tissue Engineering is based on a careful and in-depth study
of cell–tissue interactions. The choice of a specific biomaterial in Tissue Engineering is …
of cell–tissue interactions. The choice of a specific biomaterial in Tissue Engineering is …
PNIPAM/PEDOT: PSS hydrogels for multifunctional organic electrochemical transistors
The development of multifunctional organic materials represents a vibrant area of research,
with applications spanning from biosensing to drug delivery. This study shows the …
with applications spanning from biosensing to drug delivery. This study shows the …
Biomechanical studies on biomaterial degradation and co-cultured cells: mechanisms, potential applications, challenges and prospects
Biomechanics contains a wide variety of research fields related to biology and mechanics.
Actually, to better study or develop a tissue-engineered system, it is now widely recognized …
Actually, to better study or develop a tissue-engineered system, it is now widely recognized …
Bone surface mimicked PDMS membranes stimulate osteoblasts and calcification of bone matrix
Cellular microenvironments play a crucial role in cell behavior. In addition to the biochemical
cues present in the microenvironments, biophysical and biomechanical properties on …
cues present in the microenvironments, biophysical and biomechanical properties on …
Factors implicating the validity and interpretation of mechanobiology studies in simulated microgravity environments
C Poon - Engineering Reports, 2020 - Wiley Online Library
Simulated microgravity (s‐μg) devices provide unique conditions for elucidating the effects
of gravitational unloading on biological processes and are increasingly being applied for …
of gravitational unloading on biological processes and are increasingly being applied for …
Finite element analysis of the influence of cyclic strain on cells anchored to substrates with varying properties
The response of cytoskeleton to mechanical cues plays a pivotal role in understanding
several aspects of cellular growth, migration, and cell–cell and cell–matrix interactions under …
several aspects of cellular growth, migration, and cell–cell and cell–matrix interactions under …
Axonal extension from dorsal root ganglia on fibrillar and highly aligned poly (lactic acid)-polypyrrole substrates obtained by two different techniques: Electrospun …
The biological behaviour of Schwann cells (SCs) and dorsal root ganglia (DRG) on fibrillar,
highly aligned and electroconductive substrates obtained by two different techniques is …
highly aligned and electroconductive substrates obtained by two different techniques is …
Graphene nanofiber composites for enhanced neuronal differentiation of human mesenchymal stem cells
Aim: To differentiate mesenchymal stem cells into functional dopaminergic neurons using an
electrospun polycaprolactone (PCL) and graphene (G) nanocomposite. Methods: A one …
electrospun polycaprolactone (PCL) and graphene (G) nanocomposite. Methods: A one …
A multiscale modeling to determine in vitro mechanical responses of different cells at the cell‐substrate interface under fluid perfusion
Investigating the influence of different cellular mechanical and physical properties on cells in
vitro is important for assessing cellular activities like differentiation, proliferation, and …
vitro is important for assessing cellular activities like differentiation, proliferation, and …
Leveraging Substrate Stiffness to Promote Stem Cell Asymmetric Division via Mechanotransduction–Polarity Protein Axis and Its Bayesian Regression Analysis
Asymmetric division of stem cells is an evolutionarily conserved process in multicellular
organisms responsible for maintaining cellular fate diversity. Symmetric–asymmetric division …
organisms responsible for maintaining cellular fate diversity. Symmetric–asymmetric division …