3D bioprinting of engineered tissue flaps with hierarchical vessel networks (VesselNet) for direct host‐to‐implant perfusion
AA Szklanny, M Machour, I Redenski… - Advanced …, 2021 - Wiley Online Library
Engineering hierarchical vasculatures is critical for creating implantable functional thick
tissues. Current approaches focus on fabricating mesoscale vessels for implantation or …
tissues. Current approaches focus on fabricating mesoscale vessels for implantation or …
The effect of tortuosity on permeability of porous scaffold
In designing porous scaffolds, permeability is essential to consider as a function of cell
migration and bone tissue regeneration. Good permeability has been achieved by …
migration and bone tissue regeneration. Good permeability has been achieved by …
Challenges in computational fluid dynamics applications for bone tissue engineering
T Pires, JWC Dunlop… - Proceedings of the …, 2022 - royalsocietypublishing.org
Bone injuries or defects that require invasive surgical treatment are a serious clinical issue,
particularly when it comes to treatment success and effectiveness. Accordingly, bone tissue …
particularly when it comes to treatment success and effectiveness. Accordingly, bone tissue …
Numerical-experimental analysis of the permeability-porosity relationship in triply periodic minimal surfaces scaffolds
Abstract Bone Tissue Engineering has been focusing on improving the current methods for
bone repair, being the use of scaffolds presented as an upgrade to traditional surgery …
bone repair, being the use of scaffolds presented as an upgrade to traditional surgery …
One‐Step 3D Printing of Heart Patches with Built‐In Electronics for Performance Regulation
Three dimensional (3D) printing of heart patches usually provides the ability to precisely
control cell location in 3D space. Here, one‐step 3D printing of cardiac patches with built‐in …
control cell location in 3D space. Here, one‐step 3D printing of cardiac patches with built‐in …
[HTML][HTML] Integrating engineered macro vessels with self-assembled capillaries in 3D implantable tissue for promoting vascular integration in-vivo
L Debbi, B Zohar, M Shuhmaher, Y Shandalov… - Biomaterials, 2022 - Elsevier
A functional multi-scale vascular network can promote 3D engineered tissue growth and
improve transplantation outcome. In this work, by using a combination of living cells …
improve transplantation outcome. In this work, by using a combination of living cells …
Advances in vascularization and innervation of constructs for neural tissue engineering
Highlights•Vascularization and innervation improve functionality of neural tissue
constructs.•Organ-on-a-chip, brain organoids and 3D printing technologies promote …
constructs.•Organ-on-a-chip, brain organoids and 3D printing technologies promote …
Rapid prototyping fabrication of soft and oriented polyester scaffolds for axonal guidance
Biodegradable polyesters have been extensively used for preparation of nerve guidance
scaffolds, due to their high biocompatibility and defined degradation periods. However …
scaffolds, due to their high biocompatibility and defined degradation periods. However …
Minimally‐Invasive and In‐Vivo Hydrogel Patterning Method for In Situ Fabrication of Implantable Hydrogel Devices
Despite advances in a wide range of device applications of hydrogels, including implantable
ones, a method for deploying patterned hydrogel devices into the body in a minimally …
ones, a method for deploying patterned hydrogel devices into the body in a minimally …
Bridging the gap in Ashby's map for soft material properties for tissue engineering
Ashby's map's role in rationally selecting materials for optimal performance is well-
established in traditional engineering applications. However, there is a major gap in Ashby's …
established in traditional engineering applications. However, there is a major gap in Ashby's …