3D bioprinting in otolaryngology: A review
A McMillan, N McMillan, N Gupta… - Advanced …, 2023 - Wiley Online Library
The evolution of tissue engineering and 3D bioprinting has allowed for increased
opportunities to generate musculoskeletal tissue grafts that can enhance functional and …
opportunities to generate musculoskeletal tissue grafts that can enhance functional and …
Individual cell-only bioink and photocurable supporting medium for 3D printing and generation of engineered tissues with complex geometries
Scaffold-free engineering of three-dimensional (3D) tissue has focused on building
sophisticated structures to achieve functional constructs. Although the development of …
sophisticated structures to achieve functional constructs. Although the development of …
Developmentally engineered callus organoid bioassemblies exhibit predictive in vivo long bone healing
Clinical translation of cell‐based products is hampered by their limited predictive in vivo
performance. To overcome this hurdle, engineering strategies advocate to fabricate tissue …
performance. To overcome this hurdle, engineering strategies advocate to fabricate tissue …
Biomimetic trachea engineering via a modular ring strategy based on bone‐marrow stem cells and atelocollagen for use in extensive tracheal reconstruction
The fabrication of biomimetic tracheas with a architecture of cartilaginous rings alternately
interspersed between vascularized fibrous tissue (CRVFT) has the potential to perfectly …
interspersed between vascularized fibrous tissue (CRVFT) has the potential to perfectly …
Articular Cartilage Regeneration through Bioassembling Spherical Micro-Cartilage Building Blocks
BE Grottkau, Z Hui, Y Pang - Cells, 2022 - mdpi.com
Articular cartilage lesions are prevalent and affect one out of seven American adults and
many young patients. Cartilage is not capable of regeneration on its own. Existing …
many young patients. Cartilage is not capable of regeneration on its own. Existing …
Nanofibrillar decellularized wharton's jelly matrix for segmental tracheal repair
Wharton's jelly (WJ) is considered a potential scaffold in tissue‐engineered trachea for its
similar composition and function to cartilage tissue. However, the feasibility of using WJ to …
similar composition and function to cartilage tissue. However, the feasibility of using WJ to …
4D cell‐condensate bioprinting
Abstract 4D bioprinting techniques that facilitate formation of shape‐changing scaffold‐free
cell condensates with prescribed geometries have yet been demonstrated. Here, a simple …
cell condensates with prescribed geometries have yet been demonstrated. Here, a simple …
3D printed biomimetic PCL scaffold as framework interspersed with collagen for long segment tracheal replacement
Y She, Z Fan, L Wang, Y Li, W Sun, H Tang… - Frontiers in cell and …, 2021 - frontiersin.org
The rapid development of tissue engineering technology has provided new methods for
tracheal replacement. However, none of the previously developed biomimetic tracheas …
tracheal replacement. However, none of the previously developed biomimetic tracheas …
Biomimetic trachea regeneration using a modular ring strategy based on poly (sebacoyl diglyceride)/polycaprolactone for segmental trachea defect repair
The lack of a biomimetic tracheal substitute featured with cartilage ring/vascularized
connective tissue alternate structure (CVCAS) has significantly retarded a clinical …
connective tissue alternate structure (CVCAS) has significantly retarded a clinical …
Fabrication and in vitro evaluation of nanocomposite hydrogel scaffolds based on gelatin/PCL–PEG–PCL for cartilage tissue engineering
N Asadi, E Alizadeh, A Rahmani Del Bakhshayesh… - ACS …, 2019 - ACS Publications
The self-repair of cartilage tissue is limited. Hydrogels with 3D hydrated polymers have
properties that make them a suitable material for cartilage tissue engineering. In this study, a …
properties that make them a suitable material for cartilage tissue engineering. In this study, a …