Journal ArticleDOI
3D Bioprinting Human Chondrocytes with Nanocellulose-Alginate Bioink for Cartilage Tissue Engineering Applications
Kajsa Markstedt,Athanasios Mantas,Ivan Tournier,Héctor Martínez Ávila,Daniel Hägg,Paul Gatenholm +5 more
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TLDR
A bioink that combines the outstanding shear thinning properties of nanofibrillated cellulose (NFC) with the fast cross-linking ability of alginate with the potential use of nanocellulose for 3D bioprinting of living tissues and organs is formulated.About:
This article is published in Biomacromolecules.The article was published on 2015-04-07. It has received 1169 citations till now. The article focuses on the topics: 3D bioprinting & Tissue engineering.read more
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3D printing of polymer matrix composites: A review and prospective
TL;DR: In this paper, the authors give an overview on 3D printing techniques of polymer composite materials and the properties and performance of 3D printed composite parts as well as their potential applications in the fields of biomedical, electronics and aerospace engineering.
Journal ArticleDOI
3D bioprinting for engineering complex tissues.
TL;DR: Combined with recent advances in human pluripotent stem cell technologies, 3D-bioprinted tissue models could serve as an enabling platform for high-throughput predictive drug screening and more effective regenerative therapies.
Journal ArticleDOI
Production of cellulose nanofibrils: A review of recent advances
TL;DR: A review of cellulose nanofibrillated cellulose (CNF) is presented in this article, covering raw materials selection, structural and chemical aspects, conventional and novel mechanical disintegration techniques, as well as biological and chemical pretreatments aimed at facilitating Nanofibril isolation.
Journal ArticleDOI
Current advances and future perspectives in extrusion-based bioprinting.
TL;DR: This paper, presenting a first-time comprehensive review of EBB, discusses the current advancements in EBB technology and highlights future directions to transform the technology to generate viable end products for tissue engineering and regenerative medicine.
Journal ArticleDOI
Nanocellulose, a Versatile Green Platform: From Biosources to Materials and Their Applications
Bejoy Thomas,Midhun C. Raj,Athira K. B,Rubiyah M. H,Jithin Joy,Jithin Joy,Audrey Moores,Glenna L. Drisko,Clément Sanchez +8 more
TL;DR: Nanocellulose has excellent strength, high Young's modulus, biocompatibility, and tunable self-assembly, thixotropic, and photonic properties, which are essential for the applications of this material.
References
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Journal ArticleDOI
Alginate: properties and biomedical applications
Kuen Yong Lee,David J. Mooney +1 more
TL;DR: This review will provide a comprehensive overview of general properties of alginate and its hydrogels, their biomedical applications, and suggest new perspectives for future studies with these polymers.
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Nanocelluloses: A New Family of Nature-Based Materials
D. Klemm,Friederike Kramer,Sebastian Moritz,Tom Lindström,Mikael Ankerfors,Derek G. Gray,Annie Dorris +6 more
TL;DR: This Review assembles the current knowledge on the isolation of microfibrillated cellulose from wood and its application in nanocomposites; the preparation of nanocrystalline cellulose and its use as a reinforcing agent; and the biofabrication of bacterial nanocellulose, as well as its evaluation as a biomaterial for medical implants.
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Enzymatic hydrolysis combined with mechanical shearing and high-pressure homogenization for nanoscale cellulose fibrils and strong gels.
Marjo Pääkkö,Mikael Ankerfors,Harri Kosonen,Antti Nykänen,Susanna Ahola,Monika Österberg,Janne Ruokolainen,Janne Laine,Per Tomas Larsson,Olli Ikkala,Tom Lindström +10 more
TL;DR: Mild enzymatic hydrolysis has been introduced and combined with mechanical shearing and a high-pressure homogenization, leading to a controlled fibrillation down to nanoscale and a network of long and highly entangled cellulose I elements.
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3D Bioprinting of Vascularized, Heterogeneous Cell‐Laden Tissue Constructs
David B. Kolesky,Ryan L. Truby,A. Sydney Gladman,Travis Alexander Busbee,Kimberly A. Homan,Jennifer A. Lewis +5 more
TL;DR: A new bioprinting method is reported for fabricating 3D tissue constructs replete with vasculature, multiple types of cells, and extracellular matrix that open new -avenues for drug screening and fundamental studies of wound healing, angiogenesis, and stem-cell niches.
Journal ArticleDOI
Alginate hydrogels as biomaterials.
TL;DR: Micro-CT images of bone-like constructs that result from transplantation of osteoblasts on gels that degrade over a time frame of several months leading to improved bone formation are presented.