Additive manufacturing approaches for hydroxyapatite‐reinforced composites
Additive manufacturing (AM) techniques have gained interest in the tissue engineering field,
thanks to their versatility and unique possibilities of producing constructs with complex …
thanks to their versatility and unique possibilities of producing constructs with complex …
Current methods for skeletal muscle tissue repair and regeneration
Skeletal muscle has the capacity of regeneration after injury. However, for large volumes of
muscle loss, this regeneration needs interventional support. Consequently, muscle injury …
muscle loss, this regeneration needs interventional support. Consequently, muscle injury …
Functionalizing bioinks for 3D bioprinting applications
Highlights•No biomaterial possesses the optimal properties desirable in biomimetic
constructs.•Polymer concentration and molecular weight influence the properties of the …
constructs.•Polymer concentration and molecular weight influence the properties of the …
Biomimetic scaffolds for regeneration of volumetric muscle loss in skeletal muscle injuries
Skeletal muscle injuries typically result from traumatic incidents such as combat injuries
where soft-tissue extremity injuries are present in one of four cases. Further, about 4.5 …
where soft-tissue extremity injuries are present in one of four cases. Further, about 4.5 …
Advancing the field of 3D biomaterial printing
Abstract 3D biomaterial printing has emerged as a potentially revolutionary technology,
promising to transform both research and medical therapeutics. Although there has been …
promising to transform both research and medical therapeutics. Although there has been …
Naturally derived and synthetic scaffolds for skeletal muscle reconstruction
Skeletal muscle tissue has an inherent capacity for regeneration following injury. However,
severe trauma, such as volumetric muscle loss, overwhelms these natural muscle repair …
severe trauma, such as volumetric muscle loss, overwhelms these natural muscle repair …
Shape persistent, highly conductive ionogels from ionic liquids reinforced with cellulose nanocrystal network
Shape‐persistent, conductive ionogels where both mechanical strength and ionic
conductivity are enhanced are developed using multiphase materials composed of cellulose …
conductivity are enhanced are developed using multiphase materials composed of cellulose …
In vivo biocompatibility and biodegradation of 3D-printed porous scaffolds based on a hydroxyl-functionalized poly (ε-caprolactone)
The aim of this study was to evaluate the in vivo biodegradation and biocompatibility of three-
dimensional (3D) scaffolds based on a hydroxyl-functionalized polyester (poly …
dimensional (3D) scaffolds based on a hydroxyl-functionalized polyester (poly …
Chitosan/Poly (ɛ-caprolactone) blend scaffolds for cartilage repair
Chitosan (CHT)/poly (ɛ-caprolactone)(PCL) blend 3D fiber-mesh scaffolds were studied as
possible support structures for articular cartilage tissue (ACT) repair. Micro-fibers were …
possible support structures for articular cartilage tissue (ACT) repair. Micro-fibers were …
Biodegradable CSMA/PECA/graphene porous hybrid scaffold for cartilage tissue engineering
JF Liao, Y Qu, BY Chu, XN Zhang, ZY Qian - Scientific reports, 2015 - nature.com
Owing to the limited repair capacity of articular cartilage, it is essential to develop tissue-
engineered cartilage for patients suffering from joint disease and trauma. Herein, we …
engineered cartilage for patients suffering from joint disease and trauma. Herein, we …