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      Lignin-Derived Biomaterials for Drug Release and Tissue Engineering

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          Abstract

          Renewable resources are gaining increasing interest as a source for environmentally benign biomaterials, such as drug encapsulation/release compounds, and scaffolds for tissue engineering in regenerative medicine. Being the second largest naturally abundant polymer, the interest in lignin valorization for biomedical utilization is rapidly growing. Depending on its resource and isolation procedure, lignin shows specific antioxidant and antimicrobial activity. Today, efforts in research and industry are directed toward lignin utilization as a renewable macromolecular building block for the preparation of polymeric drug encapsulation and scaffold materials. Within the last five years, remarkable progress has been made in isolation, functionalization and modification of lignin and lignin-derived compounds. However, the literature so far mainly focuses lignin-derived fuels, lubricants and resins. The purpose of this review is to summarize the current state of the art and to highlight the most important results in the field of lignin-based materials for potential use in biomedicine (reported in 2014–2018). Special focus is placed on lignin-derived nanomaterials for drug encapsulation and release as well as lignin hybrid materials used as scaffolds for guided bone regeneration in stem cell-based therapies.

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          Towards lignin-based functional materials in a sustainable world

          Xian Loh, Yong Liang Yap, Yun Khim Chua (2016)
          The recent developments of lignin were reviewed in terms of different approaches to synthesize lignin-based copolymers, the resulting features and the potential applications of such copolymers. In light of the incessant consumption of raw materials in the world today, the search for sustainable resources is ever pressing. Lignin, the second most naturally abundant biomass, which makes up 15% to 35% of the cell walls of terrestrial plants, has always been treated as waste and used in low-value applications such as heat and electricity generation. However, its abundance in nature could potentially solve the problem of the rapidly depleting resources if it was successfully translated into a renewable resource or valorized to higher value materials. Advanced lignin modification chemistry has generated a number of functional lignin-based polymers, which integrate both the intrinsic features of lignin and additional properties of the grafted polymers. These modified lignin and its copolymers display better miscibility with other polymeric matrices, leading to improved performance for these lignin/polymer composites. This review summarizes the progress in using such biopolymers as reinforcement fillers, antioxidants, UV adsorbents, antimicrobial agents, carbon precursors and biomaterials for tissue engineering and gene therapy. Recent developments in lignin-based smart materials are discussed as well.
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            Advances in Biomaterials for Drug Delivery

            Michael J. Mitchell, Owen Fenton, Katy N. Olafson (2018)
            Advances in biomaterials for drug delivery are enabling significant progressin biology and medicine. Multidisciplinary collaborations between physical scientists, engineers, biologists, and clinicians generate innovative strategies and materials to treat a range of diseases. Specifically, recent advances include major breakthroughs in materials for cancer immunotherapy, autoimmune diseases, and genome editing. Here, strategies for the design and implementation of biomaterials for drug delivery are reviewed. A brief history of the biomaterials field is first established, and then commentary on RNA delivery, responsive materials development, and immunomodulation are provided. Current challenges associated with these areas as well as opportunities to address long-standing problems in biology and medicine are discussed throughout.
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              An environmentally benign antimicrobial nanoparticle based on a silver-infused lignin core.

              Alexander Richter, Joseph S Brown, Bhuvnesh Bharti (2015)
              Silver nanoparticles have antibacterial properties, but their use has been a cause for concern because they persist in the environment. Here, we show that lignin nanoparticles infused with silver ions and coated with a cationic polyelectrolyte layer form a biodegradable and green alternative to silver nanoparticles. The polyelectrolyte layer promotes the adhesion of the particles to bacterial cell membranes and, together with silver ions, can kill a broad spectrum of bacteria, including Escherichia coli, Pseudomonas aeruginosa and quaternary-amine-resistant Ralstonia sp. Ion depletion studies have shown that the bioactivity of these nanoparticles is time-limited because of the desorption of silver ions. High-throughput bioactivity screening did not reveal increased toxicity of the particles when compared to an equivalent mass of metallic silver nanoparticles or silver nitrate solution. Our results demonstrate that the application of green chemistry principles may allow the synthesis of nanoparticles with biodegradable cores that have higher antimicrobial activity and smaller environmental impact than metallic silver nanoparticles.
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                Author and article information

                Contributors
                Charles Xu: Role: Academic Editor
                Michael Paleologou: Role: Academic Editor
                Journal
                Journal ID (nlm-ta): Molecules
                Journal ID (iso-abbrev): Molecules
                Journal ID (publisher-id): molecules
                Title: Molecules : A Journal of Synthetic Chemistry and Natural Product Chemistry
                Publisher: MDPI
                ISSN (Electronic): 1420-3049
                Publication date (Electronic): 27 July 2018
                Publication date Collection: August 2018
                Volume: 23
                Issue: 8
                Electronic Location Identifier: 1885
                Affiliations
                [1 ]Department of Natural Sciences, Bonn-Rhein-Sieg University of Applied Sciences, von-Liebig-Str. 20, D-53359 Rheinbach, Germany; markus.witzler@ 123456h-brs.de (M.W.); abla.alzagameem@ 123456h-brs.de (A.A.); michel.bergs@ 123456h-brs.de (M.B.); basma.elkhaldi-hansen@ 123456h-brs.de (B.E.K.-H.); stephanie.klein@ 123456h-brs.de (S.E.K.); dorothee.hielscher@ 123456h-brs.de (D.H.); edda.tobiasch@ 123456h-brs.de (E.T.)
                [2 ]Faculty of Environment and Natural Sciences, Brandenburg University of Technology BTU Cottbus-Senftenberg, Platz der Deutschen Einheit 1, D-03046 Cottbus, Germany; kamm@ 123456btu-cottbus-senftenberg.de
                [3 ]Rheinische Friedrich-Wilhelms-University Bonn, INRES, Klein-Altendorf 2, D-53359 Rheinbach, Germany
                [4 ]Kompetenzzentrum Holz GmbH, Altenberger Strasse 69, A-4040 Linz, Austria; b.kamm@ 123456kplus-wood.at
                [5 ]Rheinische Friedrich Wilhelms-University Bonn, Katzenburgweg 7-9, D-53115 Bonn, Germany; j.kreyenschmidt@ 123456uni-bonn.de
                Author notes
                [* ]Correspondence: margit.schulze@ 123456h-brs.de ; Tel./Fax: +49-2241-865-566
                Author information
                https://orcid.org/0000-0002-0468-3051
                https://orcid.org/0000-0002-8975-1753
                Article
                Publisher ID: molecules-23-01885
                DOI: 10.3390/molecules23081885
                PMC ID: 6222784
                PubMed ID: 30060536
                SO-VID: 3584a739-33eb-4d3b-9ce7-7e7e53a22afa
                Copyright © © 2018 by the authors.
                License:

                Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( http://creativecommons.org/licenses/by/4.0/).

                History
                Date received : 06 July 2018
                Date accepted : 24 July 2018
                Categories
                Subject: Review

                Keywords: biomaterial,bone regeneration,drug release,hydrogel,lignin,multivariate data processing,osteogenesis,scaffolds,stem cells,tissue engineering
                Data availability:
                Keywords: biomaterial, bone regeneration, drug release, hydrogel, lignin, multivariate data processing, osteogenesis, scaffolds, stem cells, tissue engineering

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