[HTML][HTML] Advances in cartilage tissue engineering using bioinks with decellularized cartilage and three-dimensional printing
Osteoarthritis, a chronic, debilitating, and painful disease, is one of the leading causes of
disability and socioeconomic burden, with an estimated 250 million people affected …
disability and socioeconomic burden, with an estimated 250 million people affected …
Gelatin Methacryloyl (GelMA)-Based Biomaterial Inks: Process Science for 3D/4D Printing and Current Status
Tissue engineering for injured tissue replacement and regeneration has been a subject of
investigation over the last 30 years, and there has been considerable interest in using …
investigation over the last 30 years, and there has been considerable interest in using …
Structure and properties of gelatin methacryloyl (GelMA) synthesized in different reaction systems
Gelatin methacryloyl (GelMA) hydrogels have been extensively used for drug delivery and
tissue engineering applications due to their good biocompatibility, biodegradability, and …
tissue engineering applications due to their good biocompatibility, biodegradability, and …
A 3D bioprinted nanoengineered hydrogel with photoactivated drug delivery for tumor apoptosis and simultaneous bone regeneration via macrophage …
One of the significant challenges in bone tissue engineering (BTE) is the healing of
traumatic tissue defects owing to the recruitment of local infection and delayed …
traumatic tissue defects owing to the recruitment of local infection and delayed …
Novel 3D-printing bilayer GelMA-based hydrogel containing BP, β-TCP and exosomes for cartilage–bone integrated repair
The integrated repair of cartilage and bone involves the migration and differentiation of cells,
which has always been a difficult problem to be solved. We utilize the natural biomaterial …
which has always been a difficult problem to be solved. We utilize the natural biomaterial …
Fluidic integrated 3D bioprinting system to sustain cell viability towards larynx fabrication
HS Park, JS Lee, CB Kim, KH Lee… - Bioengineering & …, 2023 - Wiley Online Library
Herein, we report the first study to create a threedimensional (3D) bioprinted artificial larynx
for wholelaryngeal replacement. Our 3D bioprinted larynx was generated using extrusion …
for wholelaryngeal replacement. Our 3D bioprinted larynx was generated using extrusion …
[HTML][HTML] Advancements of 3D bioprinting in regenerative medicine: Exploring cell sources for organ fabrication
Y Ma, B Deng, R He, P Huang - Heliyon, 2024 - cell.com
Abstract 3D bioprinting has unlocked new possibilities for generating complex and
functional tissues and organs. However, one of the greatest challenges lies in selecting the …
functional tissues and organs. However, one of the greatest challenges lies in selecting the …
An overview of nasal cartilage bioprinting: from bench to bedside
Nasal cartilage diseases and injuries are known as significant challenges in reconstructive
medicine, affecting a substantial number of individuals worldwide. In recent years, the …
medicine, affecting a substantial number of individuals worldwide. In recent years, the …
Three-dimensional and four-dimensional printing in otolaryngology
Each year, thousands of patients deal with ear, nose, and throat disorders that can be life
threatening such as tracheal stenosis, or impact the psychosocial well-being, such as …
threatening such as tracheal stenosis, or impact the psychosocial well-being, such as …
[HTML][HTML] The microparticulate inks for bioprinting applications
C An, S Zhang, J Xu, Y Zhang, Z Dou, F Shao, C Long… - Materials Today Bio, 2023 - Elsevier
Abstract Three-dimensional (3D) bioprinting has emerged as a groundbreaking technology
for fabricating intricate and functional tissue constructs. Central to this technology are the …
for fabricating intricate and functional tissue constructs. Central to this technology are the …