Literature DB >> 33374921

Stem Cells and Extrusion 3D Printing for Hyaline Cartilage Engineering.

Océane Messaoudi1, Christel Henrionnet1, Kevin Bourge1, Damien Loeuille1,2, Pierre Gillet1,3, Astrid Pinzano1,4.   

Abstract

Hyaline cartilage is deficient in self-healing properties. The early treatment of focal cartilage lesions is a public health challenge to prevent long-term degradation and the occurrence of osteoarthritis. Cartilage tissue engineering represents a promising alternative to the current insufficient surgical solutions. 3D printing is a thriving technology and offers new possibilities for personalized regenerative medicine. Extrusion-based processes permit the deposition of cell-seeded bioinks, in a layer-by-layer manner, allowing mimicry of the native zonal organization of hyaline cartilage. Mesenchymal stem cells (MSCs) are a promising cell source for cartilage tissue engineering. Originally isolated from bone marrow, they can now be derived from many different cell sources (e.g., synovium, dental pulp, Wharton's jelly). Their proliferation and differentiation potential are well characterized, and they possess good chondrogenic potential, making them appropriate candidates for cartilage reconstruction. This review summarizes the different sources, origins, and densities of MSCs used in extrusion-based bioprinting (EBB) processes, as alternatives to chondrocytes. The different bioink constituents and their advantages for producing substitutes mimicking healthy hyaline cartilage is also discussed.

Entities:  

Keywords:  3D printing; bio-ink; cartilage engineering; stem cells

Mesh:

Substances:

Year:  2020        PMID: 33374921      PMCID: PMC7821921          DOI: 10.3390/cells10010002

Source DB:  PubMed          Journal:  Cells        ISSN: 2073-4409            Impact factor:   6.600


  182 in total

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4.  A versatile bioink for three-dimensional printing of cellular scaffolds based on thermally and photo-triggered tandem gelation.

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Journal:  Acta Biomater       Date:  2014-09-23       Impact factor: 8.947

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8.  3D Bioprinting of osteochondral tissue substitutes - in vitro-chondrogenesis in multi-layered mineralized constructs.

Authors:  David Kilian; Tilman Ahlfeld; Ashwini Rahul Akkineni; Anne Bernhardt; Michael Gelinsky; Anja Lode
Journal:  Sci Rep       Date:  2020-05-19       Impact factor: 4.379

Review 9.  Differentiation of Human Mesenchymal Stem Cells towards Neuronal Lineage: Clinical Trials in Nervous System Disorders.

Authors:  Rosa Hernández; Cristina Jiménez-Luna; Jesús Perales-Adán; Gloria Perazzoli; Consolación Melguizo; José Prados
Journal:  Biomol Ther (Seoul)       Date:  2019-10-25       Impact factor: 4.634

Review 10.  Recent Trends in Decellularized Extracellular Matrix Bioinks for 3D Printing: An Updated Review.

Authors:  Kevin Dzobo; Keolebogile Shirley Caroline M Motaung; Adetola Adesida
Journal:  Int J Mol Sci       Date:  2019-09-18       Impact factor: 5.923
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  8 in total

Review 1.  Silk fibroin-based biomaterials for cartilage/osteochondral repair.

Authors:  Ziyang Zhou; Jin Cui; Shunli Wu; Zhen Geng; Jiacan Su
Journal:  Theranostics       Date:  2022-07-04       Impact factor: 11.600

Review 2.  A Review on Antibacterial Biomaterials in Biomedical Applications: From Materials Perspective to Bioinks Design.

Authors:  Farnoosh Pahlevanzadeh; Mohsen Setayeshmehr; Hamid Reza Bakhsheshi-Rad; Rahmatollah Emadi; Mahshid Kharaziha; S Ali Poursamar; Ahmad Fauzi Ismail; Safian Sharif; Xiongbiao Chen; Filippo Berto
Journal:  Polymers (Basel)       Date:  2022-05-31       Impact factor: 4.967

Review 3.  Cutting-Edge Technologies for Inflamed Joints on Chip: How Close Are We?

Authors:  Emine Kahraman; Ricardo Ribeiro; Meriem Lamghari; Estrela Neto
Journal:  Front Immunol       Date:  2022-03-10       Impact factor: 7.561

Review 4.  Tailoring bioinks of extrusion-based bioprinting for cutaneous wound healing.

Authors:  Yuzhen Wang; Xingyu Yuan; Bin Yao; Shuoji Zhu; Ping Zhu; Sha Huang
Journal:  Bioact Mater       Date:  2022-01-29

Review 5.  Creating an Optimal In Vivo Environment to Enhance Outcomes Using Cell Therapy to Repair/Regenerate Injured Tissues of the Musculoskeletal System.

Authors:  David A Hart; Norimasa Nakamura
Journal:  Biomedicines       Date:  2022-07-01

Review 6.  Three-Dimensional Bioprinting for Cartilage Tissue Engineering: Insights into Naturally-Derived Bioinks from Land and Marine Sources.

Authors:  Marta Anna Szychlinska; Fabio Bucchieri; Alberto Fucarino; Alfredo Ronca; Ugo D'Amora
Journal:  J Funct Biomater       Date:  2022-08-12

7.  Fundamental and Applied Advances in Stem Cell Therapeutic Research.

Authors:  Makram Merimi; Saida Rahmani; Ahmed Afailal Tribak; Fatima Bouhtit; Hassan Fahmi; Mehdi Najar
Journal:  Cells       Date:  2022-06-20       Impact factor: 7.666

8.  Mapping Thematic Trends and Analysing Hotspots Concerning the Use of Stem Cells for Cartilage Regeneration: A Bibliometric Analysis From 2010 to 2020.

Authors:  Demeng Xia; Jianghong Wu; Feng Zhou; Sheng Wang; Zhentao Zhang; Panyu Zhou; Shuogui Xu
Journal:  Front Pharmacol       Date:  2022-01-03       Impact factor: 5.810
  8 in total

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