Add to ORKGBACKGROUND-AIM Biomaterials with a positive impact on neurogenic processes could give a valuable contribution to prospective cell replacement therapies for neurodegenerative diseases. The idea behind is the in vitro recapitulation of neurogenesis for the substitution of damaged neurons by healthy ones. In general, the capacity of biomaterials to favour differentiation-promoting effects relies on the cellular competence for mechanotransduction, the perception of biophysical signals (i.e. rigidity and topography) and their conversion into biochemical cellular responses. So far most approaches in the context of neuronal cells were based on the modulation of substrate rigidity. Here we present the possibility to promote neuron differentiation a...
Neuronal cells are competent in precisely sensing nanotopographical features of their microenvironme...
\u3cp\u3eA new generation of in vitro human brain models is vital to surpass the limitations of curr...
The ability to control the differentiation of stem cells into specific neuronal types has a tremendo...
The identification of biomaterials which promote neuronal maturation up to the generation of integra...
BACKGROUND-AIM Cells are competent to perceive biophysical signals of their microenvironment and to ...
BACKGROUND: Thanks to mechanotransductive components cells are competent to perceive nanoscale topog...
Artificially grown neuronal cultures of brain cells have been used for decades in the attempt to rep...
Artificially grown neuronal cultures of brain cells have been used for decades in the attempt to rep...
The regulation of human pluripotent stem cell (hPSC) behaviors has been mainly studied through explo...
Controlling neuronal cell adhesion, migration, and axonal outgrowth via contact interactions with bi...
Transplantation of differentiated and fully functional neurons may be a better therapeutic option fo...
The generation of 3D networks of primary neurons is a big challenge in neuroscience. Here, a novel m...
Controlling the differentiation to certain lineages is the main goal of current stem cell research, ...
Controlling the differentiation to certain lineages is the main goal of current stem cell research, ...
Embryonic stem (ES) cell differentiation in specific cell lineages is a major issue in cell biology ...
Neuronal cells are competent in precisely sensing nanotopographical features of their microenvironme...
\u3cp\u3eA new generation of in vitro human brain models is vital to surpass the limitations of curr...
The ability to control the differentiation of stem cells into specific neuronal types has a tremendo...
The identification of biomaterials which promote neuronal maturation up to the generation of integra...
BACKGROUND-AIM Cells are competent to perceive biophysical signals of their microenvironment and to ...
BACKGROUND: Thanks to mechanotransductive components cells are competent to perceive nanoscale topog...
Artificially grown neuronal cultures of brain cells have been used for decades in the attempt to rep...
Artificially grown neuronal cultures of brain cells have been used for decades in the attempt to rep...
The regulation of human pluripotent stem cell (hPSC) behaviors has been mainly studied through explo...
Controlling neuronal cell adhesion, migration, and axonal outgrowth via contact interactions with bi...
Transplantation of differentiated and fully functional neurons may be a better therapeutic option fo...
The generation of 3D networks of primary neurons is a big challenge in neuroscience. Here, a novel m...
Controlling the differentiation to certain lineages is the main goal of current stem cell research, ...
Controlling the differentiation to certain lineages is the main goal of current stem cell research, ...
Embryonic stem (ES) cell differentiation in specific cell lineages is a major issue in cell biology ...
Neuronal cells are competent in precisely sensing nanotopographical features of their microenvironme...
\u3cp\u3eA new generation of in vitro human brain models is vital to surpass the limitations of curr...
The ability to control the differentiation of stem cells into specific neuronal types has a tremendo...