A Review on Recent Advances of Protein-Polymer Hydrogels
Peter Rivière,Yuanhan Tang,Xin Zhang,Xinyue Li,Chiyue Ma,Xiaoxiao Chu,Linlin Wang,Wenlong Xu +7 more
TLDR
Protein-polymer hydrogels have gained significant progress in various fields, such as tissue engineering, drug delivery and encapsulation, wearable sensors, adsorption, and other applications as discussed by the authors.About:
This article is published in European Polymer Journal.The article was published on 2021-11-17 and is currently open access. It has received 31 citations till now. The article focuses on the topics: Self-healing hydrogels & Polymer.read more
Citations
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Natural Hydrogel-Based Bio-Inks for 3D Bioprinting in Tissue Engineering: A Review
TL;DR: In this article , the state of the art of the utilization of bio-inks based on natural polymers (biopolymers), such as cellulose, agarose, alginate, decellularized matrix, in 3D bioprinting is explored.
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Novel Trends in Hydrogel Development for Biomedical Applications: A Review
TL;DR: The main purpose of this review article was to summarize the most recent trends of hydrogel technology, going through the most used polymeric materials and the most popularHydrogel synthesis methods in recent years, including different strategies of enhancing hydrogels’ properties, such as cross-linking and the manufacture of composite hydrogELs.
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Multifunctional and Smart Wound Dressings—A Review on Recent Research Advancements in Skin Regenerative Medicine
Nithya Rani Raju,E. O. Silina,V. Stupin,N. Manturova,Saravana Babu Chidambaram,Raghu Ram Achar +5 more
TL;DR: Emerging treatments based on biomaterials, nanoparticles, and biomimetic proteases have the keys to improving wound care and will be a vital addition to the therapeutic toolkit for slow-healing wounds.
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Advances and challenges in conductive hydrogels: From properties to applications
Can Zhou,Tingting Wu,Xinmin Xie,Guoxi Song,Xintao Ma,Qiyu Mu,Zixu Huang,Xiguang Liu,Wenlong Xu +8 more
TL;DR: In this article , the research progress of conductive hydrogels in recent years is reviewed, and the conductive mechanisms of hydrogel can be divided into electronic conductive mechanism and ionic conductivity mechanism.
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Recently Emerging Trends in Magnetic Polymer Hydrogel Nanoarchitectures
TL;DR: Magnetic hydrogels (MHDG) as discussed by the authors are composites that are biocompatible, biodegradable, magnetically responsive, and characterized by type, concentration, geometry, and degree of uniformity of magnetic particulates, used in fabrication.
References
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Synthetic biomaterials as instructive extracellular microenvironments for morphogenesis in tissue engineering
TL;DR: Although modern synthetic biomaterials represent oversimplified mimics of natural ECMs lacking the essential natural temporal and spatial complexity, a growing symbiosis of materials engineering and cell biology may ultimately result in synthetic materials that contain the necessary signals to recapitulate developmental processes in tissue- and organ-specific differentiation and morphogenesis.
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Hydrogel: Preparation, characterization, and applications: A review
TL;DR: A review of the literature concerning classification of hydrogels on different bases, physical and chemical characteristics of these products, and technical feasibility of their utilization is presented in this paper, together with technologies adopted for hydrogel production together with process design implications, block diagrams, and optimized conditions of the preparation process.
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Hydrogels in pharmaceutical formulations.
TL;DR: The aim of this article is to present a concise review on the applications of hydrogels in the pharmaceutical field, hydrogel characterization and analysis of drug release from such devices.
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Hydrophilic Gels for Biological Use
Oto Wichterle,D. Lím +1 more
TL;DR: In this article, the structural similarity with the tissue has not been emphasized although physiologically unfavourable effects were observed in most cases of application of normal type plastics in permanent contact with living tissues.
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On the mechanisms of biocompatibility.
TL;DR: It is shown that, in the vast majority of circumstances, the sole requirement for biocompatibility in a medical device intended for long-term contact with the tissues of the human body is that the material shall do no harm to those tissues, achieved through chemical and biological inertness.
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