Add to ORKGAbstract: This study presents a novel approach, based on fluorescence multiphoton microscopy (MPM), to image and quantitatively characterize the microstructure and cell–substrate interactions within microporous scaffold substrates fabricated from synthetic biodegradable polymers. Using fluorescently dyed scaffolds fabricated from poly(DTE carbonate)/poly(DTO carbonate) blends of varying porosity and complementary green fluorescent protein-engineered fibroblasts, we reconstructed the three-dimensional distribution of the microporous and macroporous regions in 3D scaffolds, as well as cellular morphological patterns. The porosity, pore size anddistribution, strut size, pore interconnectivity, and orientation of bothmacroscale and microscale p...
Microfluidic screening platforms offer new possibilities for performing in vitro cell-based assays w...
This dissertation advances the field of biomaterials-based tissue engineering via the development of...
Three-dimensional (3D) micronano structures have attracted much attention in tissue engineering sinc...
A strategy in regenerative medicine involves the restitution of functional tissues using biomaterial...
In this study, we combined two-photon autofluorescence and second harmonic generation imaging to inv...
<p>Confocal microscopy for visualization of actin cytoskeleton (green) and cell nuclei (blue) to ill...
By controlling the microarchitecture of bioengineered scaffolds for artificial tissues, their materi...
One of the challenges in tissue engineering is to fabricate scaffolds which can mimic the natural mi...
Abstract: The colonization of biodegradable polymer scaf-folds with cell populations has been establ...
International audienceBiomaterial for tissue engineering is a topic of huge progress with a recent s...
Aligned fibrillar scaffolds (AFSs) have been widely studied for their application in regenerative me...
Biomaterial for tissue engineering is a topic of huge progress with a recent surge in fabrication an...
In tissue engineering, porous scaffolds are often used as three-dimensional (3D) supports for tissue...
Biomimicking biological niches of healthy tissues or tumors can be achieved by means of artificial m...
<p>Confocal microscopy for visualization of fibronectin network (red) to illustrate the filling of s...
Microfluidic screening platforms offer new possibilities for performing in vitro cell-based assays w...
This dissertation advances the field of biomaterials-based tissue engineering via the development of...
Three-dimensional (3D) micronano structures have attracted much attention in tissue engineering sinc...
A strategy in regenerative medicine involves the restitution of functional tissues using biomaterial...
In this study, we combined two-photon autofluorescence and second harmonic generation imaging to inv...
<p>Confocal microscopy for visualization of actin cytoskeleton (green) and cell nuclei (blue) to ill...
By controlling the microarchitecture of bioengineered scaffolds for artificial tissues, their materi...
One of the challenges in tissue engineering is to fabricate scaffolds which can mimic the natural mi...
Abstract: The colonization of biodegradable polymer scaf-folds with cell populations has been establ...
International audienceBiomaterial for tissue engineering is a topic of huge progress with a recent s...
Aligned fibrillar scaffolds (AFSs) have been widely studied for their application in regenerative me...
Biomaterial for tissue engineering is a topic of huge progress with a recent surge in fabrication an...
In tissue engineering, porous scaffolds are often used as three-dimensional (3D) supports for tissue...
Biomimicking biological niches of healthy tissues or tumors can be achieved by means of artificial m...
<p>Confocal microscopy for visualization of fibronectin network (red) to illustrate the filling of s...
Microfluidic screening platforms offer new possibilities for performing in vitro cell-based assays w...
This dissertation advances the field of biomaterials-based tissue engineering via the development of...
Three-dimensional (3D) micronano structures have attracted much attention in tissue engineering sinc...