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Tytuł pozycji:

Additive manufacturing of nanocellulose based scaffolds for tissue engineering: Beyond a reinforcement filler.

Tytuł:
Additive manufacturing of nanocellulose based scaffolds for tissue engineering: Beyond a reinforcement filler.
Autorzy:
Kuhnt T; MERLN Institute for Technology-inspired Regenerative Medicine, Complex Tissue Regeneration Department, Maastricht University, P.O. Box 616, 6200MD Maastricht, the Netherlands. Electronic address: .
Camarero-Espinosa S; POLYMAT and Polymer Science and Technology Department, Faculty of Chemistry, University of the Basque Country UPV/EHU, Paseo Manuel de Lardizabal 3, 20018, Donostia-San Sebastián, Spain; IKERBASQUE, Basque Foundation for Science, Bilbao, Spain. Electronic address: .
Źródło:
Carbohydrate polymers [Carbohydr Polym] 2021 Jan 15; Vol. 252, pp. 117159. Date of Electronic Publication: 2020 Oct 02.
Typ publikacji:
Journal Article; Review
Język:
English
Imprint Name(s):
Publication: <1992-> : Barking : Elsevier Applied Science Publishers
Original Publication: London [Eng.] : Applied Science Publishers, c1981-
MeSH Terms:
Cell Differentiation*
Nanostructures*
Tissue Scaffolds*
Biocompatible Materials/*chemistry
Cellulose/*chemistry
Tissue Engineering/*methods
Cell Line ; Humans
Contributed Indexing:
Keywords: Additive manufacturing; Cellulose nanomaterial; Nanocomposite; Printing; Scaffold; Tissue engineering
Substance Nomenclature:
0 (Biocompatible Materials)
9004-34-6 (Cellulose)
Entry Date(s):
Date Created: 20201113 Date Completed: 20210412 Latest Revision: 20210412
Update Code:
20240105
DOI:
10.1016/j.carbpol.2020.117159
PMID:
33183610
Czasopismo naukowe
Cellulose nanomaterials (CNMs) have attracted great attention in the last decades due to the abundance of the biopolymer, the biorenewable character and the outstanding mechanical properties they account for. These, together with their biocompatibility makes them ideal candidates for tissue engineering (TE) applications. Additive manufacturing is an ideal biofabrication approach for TE, providing rapid and reliable technologies to produce scaffolds aimed for the guidance of host or implanted cells to form functional tissues. However, the control of parameters at the nanoscale that regulate cellular functions such as proliferation and differentiation remain challenging. This review article presents the latest advances in the use of CNMs as platforms to guide cellular functions in additive manufactured scaffolds. Special attention is given to functionalization routes, methods to exploit them as topographical cues and to improve the local mechanical properties together with the resulting cell-CNM interactions.
(Copyright © 2020 Elsevier Ltd. All rights reserved.)

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