A scaffold-free cartilage construct fabricated using a bio 3D printer accelerates critical-size bone defect regeneration
Hiromu Yoshizato, Daiki Murata, Shohei Kashimoto, Toshihiro Nonaka, Ryota Fujimoto, Yukiko Nagaishi, Manabu Itoh, Tadatsugu Morimoto, Koichi Nakayama

TL;DR
A new scaffold-free method using bio-3D printing and cartilage constructs accelerates healing of critical bone defects in rats.
Contribution
This is the first study to regenerate long bone defects using scaffold-free cartilage from AT-MSCs by mimicking endochondral ossification.
Findings
MSC-Ch group showed significantly higher bone volume ratios compared to other groups at 6 and 12 weeks.
Histology revealed robust new bone formation in the MSC-Ch group, with bone bridging and minimal fibrosis.
Undifferentiated MSCs and the Defect group showed limited healing, with fibrous and adipose tissue filling the defect.
Abstract
Critical-size bone defects (CSD), often resulting from trauma or tumour resection, represent a challenging clinical condition that is difficult to treat. Although autologous bone grafting is a common treatment, limitations such as donor site morbidity necessitate the development of novel therapeutic strategies. Approaches that mimic endochondral ossification, the natural process of bone development and healing, are increasingly recognised for their bone regenerative potential. The combination of mesenchymal stem cells and scaffolds, used in many bone regeneration studies, has drawbacks, such as scaffold-derived complications including chronic inflammation and fibrosis. To overcome these issues, we used a bio-three-dimensional (3D) printer that enables the fabrication of scaffold-free 3D cellular constructs. This study aimed to establish a novel therapeutic strategy for CSD by generating…
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Taxonomy
TopicsBone Tissue Engineering Materials · Heterotopic Ossification and Related Conditions · Osteoarthritis Treatment and Mechanisms
