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Innovative Ink-Based 3D Hydrogel Bioprinted Formulations for Tissue Engineering Applications

Title
Innovative Ink-Based 3D Hydrogel Bioprinted Formulations for Tissue Engineering Applications
Type
Article in International Scientific Journal
Year
2024
Authors
Sousa, AC
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Mcdermott, G
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Shields, F
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Alvites, R
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Lopes, B
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Sousa, P
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Moreira, A
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Coelho, A
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Santos, JD
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Atayde, L
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Alves, N
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Richardson, SM
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Domingos, M
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Journal
Title: GELSImported from Authenticus Search for Journal Publications
Vol. 10
Final page: 831
Indexing
Publicação em ISI Web of Knowledge ISI Web of Knowledge - 0 Citations
Publicação em Scopus Scopus - 0 Citations
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Authenticus ID: P-017-K8P
Abstract (EN): Three-dimensional (3D) models with improved biomimicry are essential to reduce animal experimentation and drive innovation in tissue engineering. In this study, we investigate the use of alginate-based materials as polymeric inks for 3D bioprinting of osteogenic models using human bone marrow stem/stromal cells (hBMSCs). A composite bioink incorporating alginate, nano-hydroxyapatite (nHA), type I collagen (Col) and hBMSCs was developed and for extrusion-based printing. Rheological tests performed on crosslinked hydrogels confirm the formation of solid-like structures, consistently indicating a superior storage modulus in relation to the loss modulus. The swelling behavior analysis showed that the addition of Col and nHA into an alginate matrix can enhance the swelling rate of the resulting composite hydrogels, which maximizes cell proliferation within the structure. The LIVE/DEAD assay outcomes demonstrate that the inclusion of nHA and Col did not detrimentally affect the viability of hBMSCs over seven days post-printing. PrestoBlueTM revealed a higher hBMSCs viability in the alginate-nHA-Col hydrogel compared to the remaining groups. Gene expression analysis revealed that alginate-nHA-col bioink favored a higher expression of osteogenic markers, including secreted phosphoprotein-1 (SPP1) and collagen type 1 alpha 2 chain (COL1A2) in hBMSCs after 14 days, indicating the pro-osteogenic differentiation potential of the hydrogel. This study demonstrates that the incorporation of nHA and Col into alginate enhances osteogenic potential and therefore provides a bioprinted model to systematically study osteogenesis and the early stages of tissue maturation in vitro.
Language: English
Type (Professor's evaluation): Scientific
No. of pages: 20
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