Physical cues are decisive factors in extracellular matrix (ECM) formation and elaboration. Their transduction across scale lengths is an inherently symbiotic phenomenon that while influencing ECM fate is also mediated by the ECM structure itself. This study investigates the possibility of enhancing ECM elaboration by topological cues that, while not modifying the substrate macro scale mechanics, can affect the meso-scale strain range acting on cells incorporated within the scaffold. Vascular smooth muscle cell micro-integrated, electrospun scaffolds were fabricated with comparable macroscopic biaxial mechanical response, but different meso-scale topology. Seeded scaffolds were conditioned on a stretch bioreactor and exposed to large strain...
Scaffolds composed of extracellular matrix (ECM) and derived from various species and various organs...
The anisotropic collagen architecture of an engineered cardiovascular tissue has a major impact on i...
Tissue development, regeneration, or de-novo tissue engineering in-vitro, are based on reciprocal ce...
Physical cues are decisive factors in extracellular matrix (ECM) formation and elaboration. Their tr...
Mechanical conditioning of engineered tissue constructs is widely recognized as one of the most rele...
BACKGROUND. Improving how scaffold architectures affect cell morphology, metabolism, phenotypic expr...
Cells in vivo reside in a framework known as extracellular matrix (ECM). The ECM guides tissue struc...
Aims: Tissue engineering is an innovative method to restore cardiovascular tissue function by implan...
<p>This study analyzed strain variations in 3D ECM scaffolds using a membrane-adherent model (MM) an...
Aims: Tissue engineering is an innovative method to restore cardiovascular tissue function by implan...
Mechanical forces are responsible for facilitating various biological functions. Single cells are th...
The next generation of therapeutic strategies to achieve improved tissue replacement and regeneratio...
[[abstract]]Production of tissue-engineered constructs could sometimes involve delivery of compressi...
Historically, cell behavior has been investigated by removing cells from their native environment an...
Tissue construct mechanics are of pivotal importance in mechanically active tissues, particularly wh...
Scaffolds composed of extracellular matrix (ECM) and derived from various species and various organs...
The anisotropic collagen architecture of an engineered cardiovascular tissue has a major impact on i...
Tissue development, regeneration, or de-novo tissue engineering in-vitro, are based on reciprocal ce...
Physical cues are decisive factors in extracellular matrix (ECM) formation and elaboration. Their tr...
Mechanical conditioning of engineered tissue constructs is widely recognized as one of the most rele...
BACKGROUND. Improving how scaffold architectures affect cell morphology, metabolism, phenotypic expr...
Cells in vivo reside in a framework known as extracellular matrix (ECM). The ECM guides tissue struc...
Aims: Tissue engineering is an innovative method to restore cardiovascular tissue function by implan...
<p>This study analyzed strain variations in 3D ECM scaffolds using a membrane-adherent model (MM) an...
Aims: Tissue engineering is an innovative method to restore cardiovascular tissue function by implan...
Mechanical forces are responsible for facilitating various biological functions. Single cells are th...
The next generation of therapeutic strategies to achieve improved tissue replacement and regeneratio...
[[abstract]]Production of tissue-engineered constructs could sometimes involve delivery of compressi...
Historically, cell behavior has been investigated by removing cells from their native environment an...
Tissue construct mechanics are of pivotal importance in mechanically active tissues, particularly wh...
Scaffolds composed of extracellular matrix (ECM) and derived from various species and various organs...
The anisotropic collagen architecture of an engineered cardiovascular tissue has a major impact on i...
Tissue development, regeneration, or de-novo tissue engineering in-vitro, are based on reciprocal ce...