Open AccessJournal Article
Erratum : An Overview of Injectable Polymeric Hydrogels for Tissue Engineering
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TLDR
In this article, the authors provide an overview of the recent trends in the preparation of injectable hydrogels, along with key factors to be kept in balance for designing an effective injectable hyrogel system.About:
This article is published in European Polymer Journal.The article was published on 2016-01-01 and is currently open access. It has received 229 citations till now. The article focuses on the topics: Self-healing hydrogels.read more
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Injectable hydrogels for cartilage and bone tissue engineering.
Mei Liu,Xin Zeng,Chao Ma,Huan Yi,Zeeshan Ali,Zeeshan Ali,Xianbo Mou,Song Li,Yan Deng,Yan Deng,Nongyue He,Nongyue He +11 more
TL;DR: The selection of appropriate biomaterials and fabrication methods to prepare novel injectable hydrogels for cartilage and bone tissue engineering are described and the biology of Cartilage and the bony ECM is summarized.
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Bioink properties before, during and after 3D bioprinting
Katja Hölzl,Shengmao Lin,Shengmao Lin,Liesbeth Tytgat,Liesbeth Tytgat,Sandra Van Vlierberghe,Sandra Van Vlierberghe,Linxia Gu,Aleksandr Ovsianikov +8 more
TL;DR: Numerical approaches were reviewed and implemented for depicting the cellular mechanics within the hydrogel as well as for prediction of mechanical properties to achieve the desired hydrogels construct considering cell density, distribution and material-cell interaction.
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A review of the designs and prominent biomedical advances of natural and synthetic hydrogel formulations
Desireé Alesa Gyles,Lorena Diniz Castro,José Otávio Carréra Silva,Roseane Maria Ribeiro-Costa +3 more
TL;DR: This review critically detail the most common natural and synthetic hydrogel formulations, their designs and their most significant and current biomedical applications.
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Soft-Nanocomposites of Nanoparticles and Nanocarbons with Supramolecular and Polymer Gels and Their Applications.
TL;DR: This work reviews syntheses, properties, and applications of various gel-nanocomposites assembled from different metal-based nanoparticles or nanocarbons with tailor-made supramolecular (small molecular) or polymeric physical organogels and hydrogels and presents appropriate rationale to explain most of these phenomena at the molecular level.
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Crosslinking method of hyaluronic-based hydrogel for biomedical applications.
TL;DR: This review provides an overview of various methods of chemical and physical crosslinking using different linkers that have been investigated to develop the mechanical properties, biodegradation, and biocompatibility of hyaluronic acid as an injectable hydrogel in cell scaffolds, drug delivery systems, and wound healing applications.
References
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Diels−Alder Click Cross-Linked Hyaluronic Acid Hydrogels for Tissue Engineering
TL;DR: Rheological and degradation studies demonstrate that the Diels-Alder click reaction is a suitable cross-linking method for HA and these HA cross-linked hydrogels were shown to be cytocompatible and may represent a promising material for soft tissue engineering.
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Systematic Modulation of Michael-Type Reactivity of Thiols through the Use of Charged Amino Acids.
TL;DR: The results provide a basis for the rational design of peptides, where the kinetics and thus selectivity of protein/peptide conjugation with polymeric structures via Michael-type addition reactions can be controlled.
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Controlling rigidity and degradation of alginate hydrogels via molecular weight distribution.
TL;DR: The more rapidly degrading oxidized binary hydrogels facilitated the formation of new bone tissues from transplanted bone marrow stromal cells, as compared with the nonoxidized high MW hydrogel-forming polymers.
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Smart biomaterials design for tissue engineering and regenerative medicine.
TL;DR: Future advances in TE and regenerative medicine will depend on the development of "smart" biomaterials that actively participate in the formation of functional tissue.
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Comparative study of survival of autologous adipose tissue taken and transplanted by different techniques.
TL;DR: The results showed that significant numbers of adipocytes were ruptured after suction procedures, and adipocytes appeared to survive better for a short term in a more vascularized bed (rectus muscle) than in a low vascular area (ear dermis).