Simple complexity: incorporating bioinspired delivery machinery within self-assembled peptide biogels

R Li, QL Zhou, MR Tai, K Ashton-Mourney, MI Harty… - Gels, 2023 - mdpi.com
Bioinspired self-assembly is a bottom-up strategy enabling biologically sophisticated
nanostructured biogels that can mimic natural tissue. Self-assembling peptides (SAPs) …

Recent advancements in extrudable gel-based bioinks for biomedical settings

A Raza, M Mumtaz, U Hayat, N Hussain… - Journal of Drug Delivery …, 2022 - Elsevier
Biomaterials have been used since ancient times to stimulate non-functional or injured
tissues and organs. Metals were the very first materials utilized for this function, and as time …

[HTML][HTML] Electrostatic complexation of growth factors in thiol-armed hydrogel enhances in situ cartilage tissue engineering

LMC Aguilar, A Trengove, SM Silva, A Xie… - Applied Materials …, 2024 - Elsevier
Tissue engineering is a promising approach to addressing the poor natural healing capacity
of articular cartilage. However, the challenge is to sustain stem cells' chondrogenic …

[HTML][HTML] Self-healing, 3D printed bioinks from self-assembled peptide and alginate hybrid hydrogels

EH Field, J Ratcliffe, CJ Johnson, KJ Binger… - Biomaterials …, 2024 - Elsevier
There is a pressing need for new cell-laden, printable, biomaterials that are rigid and highly
biocompatible. These materials can mimic stiffer tissues such as cartilage, fibrotic tissue and …

Self-healing, biocompatible bioinks from self-assembled peptide and alginate hybrid hydrogels

EH Field, J Ratcliffe, CJ Johnson, KJ Binger… - bioRxiv, 2024 - biorxiv.org
There is a pressing need for new biomaterials that are printable, stiff and highly
biocompatible. This is primarily due to the inverse relationship between the printability and …