Drug delivery systems based on polyethylene glycol hydrogels for enhanced bone regeneration
S Sun, Y Cui, B Yuan, M Dou, G Wang, H Xu… - … in bioengineering and …, 2023 - frontiersin.org
Drug delivery systems composed of osteogenic substances and biological materials are of
great significance in enhancing bone regeneration, and appropriate biological carriers are …
great significance in enhancing bone regeneration, and appropriate biological carriers are …
Hydrogel-based bioinks for 3D bioprinting articular cartilage: a comprehensive review with focus on mechanical reinforcement
Y Huang, X Li, AJ Poudel, W Zhang, L Xiao - Applied Materials Today, 2022 - Elsevier
Articular cartilage defects always progress to degenerative osteoarthritis (OA) and
negatively affect the quality of life for millions of people globally. Biofabrication technologies …
negatively affect the quality of life for millions of people globally. Biofabrication technologies …
Methacrylated fibrinogen hydrogels for 3D cell culture and delivery
H Simaan-Yameen, O Bar-Am, G Saar, D Seliktar - Acta Biomaterialia, 2023 - Elsevier
Methacrylation was performed on fibrinogen to design a new biomedical hydrogel for 3D cell
culture or as a biodegradable delivery matrix for in vivo implantation. The methacrylation of …
culture or as a biodegradable delivery matrix for in vivo implantation. The methacrylation of …
3D bioprintable hypoxia-mimicking peg-based nano bioink for cartilage tissue engineering
As hypoxia plays a significant role in the formation and maintenance of cartilage tissue,
aiming to develop native hypoxia-mimicking tissue engineering scaffolds is an efficient …
aiming to develop native hypoxia-mimicking tissue engineering scaffolds is an efficient …
Bioengineering strategies for 3D bioprinting of tubular construct using tissue-specific decellularized extracellular matrix
The goal of the current study is to develop an extracellular matrix bioink that could mimic the
biochemical components present in natural blood vessels. Here, we have used an …
biochemical components present in natural blood vessels. Here, we have used an …
3D printed-electrospun PCL/hydroxyapatite/MWCNTs scaffolds for the repair of subchondral bone
Y Cao, L Sun, Z Liu, Z Shen, W Jia… - Regenerative …, 2023 - academic.oup.com
Osteochondral defect caused by trauma or osteoarthritis exhibits a major challenge in
clinical treatment with limited symptomatic effects at present. The regeneration and …
clinical treatment with limited symptomatic effects at present. The regeneration and …
Osteomatrix as a personalized 3D tissue-specific invasion test-bed for oral carcinoma
The clinical challenge in the successful management of oral cancer malignancy remains in
the inaccuracy of detecting regional invasion potential and inefficient treatment of recurrent …
the inaccuracy of detecting regional invasion potential and inefficient treatment of recurrent …
Functional engineering strategies of 3D printed implants for hard tissue replacement
C Chen, B Huang, Y Liu, F Liu… - Regenerative Biomaterials, 2023 - academic.oup.com
Three-dimensional printing technology with the rapid development of printing materials are
widely recognized as a promising way to fabricate bioartificial bone tissues. In consideration …
widely recognized as a promising way to fabricate bioartificial bone tissues. In consideration …
Tension exerted on cells by magnetic nanoparticles regulates differentiation of human mesenchymal stem cells
Cells can 'sense'physical cues in the surrounding microenvironment and 'react'by changing
their function. Previous studies have focused on regulating the physical properties of the …
their function. Previous studies have focused on regulating the physical properties of the …
Bone cell exosomes and emerging strategies in bone engineering
S Vig, MH Fernandes - Biomedicines, 2022 - mdpi.com
Bone tissue remodeling is a highly regulated process balancing bone formation and
resorption through complex cellular crosstalk between resident bone and microenvironment …
resorption through complex cellular crosstalk between resident bone and microenvironment …