Additive manufacturing of sustainable biomaterials for biomedical applications
Biopolymers are promising environmentally benign materials applicable in multifarious applications. They are especially favorable in implantable biomedical devices thanks to their excellent unique properties, including bioactivity, renewability, bioresorbability, biocompatibility, biodegradability a...
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| Abstract | Biopolymers are promising environmentally benign materials applicable in multifarious applications. They are especially favorable in implantable biomedical devices thanks to their excellent unique properties, including bioactivity, renewability, bioresorbability, biocompatibility, biodegradability and hydrophilicity. Additive manufacturing (AM) is a flexible and intricate manufacturing technology, which is widely used to fabricate biopolymer-based customized products and structures for advanced healthcare systems. Three-dimensional (3D) printing of these sustainable materials is applied in functional clinical settings including wound dressing, drug delivery systems, medical implants and tissue engineering. The present review highlights recent advancements in different types of biopolymers, such as proteins and polysaccharides, which are employed to develop different biomedical products by using extrusion, vat polymerization, laser and inkjet 3D printing techniques in addition to normal bioprinting and four-dimensional (4D) bioprinting techniques. It also incorporates the influence of nanoparticles on the biological and mechanical performances of 3D-printed tissue scaffolds, and addresses current challenges as well as future developments of environmentally friendly polymeric materials manufactured through the AM techniques. Ideally, there is a need for more focused research on the adequate blending of these biodegradable biopolymers for achieving useful results in targeted biomedical areas. We envision that biopolymer-based 3D-printed composites have the potential to revolutionize the biomedical sector in the near future.
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| AbstractList | Biopolymers are promising environmentally benign materials applicable in multifarious applications. They are especially favorable in implantable biomedical devices thanks to their excellent unique properties, including bioactivity, renewability, bioresorbability, biocompatibility, biodegradability and hydrophilicity. Additive manufacturing (AM) is a flexible and intricate manufacturing technology, which is widely used to fabricate biopolymer-based customized products and structures for advanced healthcare systems. Three-dimensional (3D) printing of these sustainable materials is applied in functional clinical settings including wound dressing, drug delivery systems, medical implants and tissue engineering. The present review highlights recent advancements in different types of biopolymers, such as proteins and polysaccharides, which are employed to develop different biomedical products by using extrusion, vat polymerization, laser and inkjet 3D printing techniques in addition to normal bioprinting and four-dimensional (4D) bioprinting techniques. This review also incorporates the influence of nanoparticles on the biological and mechanical performances of 3D-printed tissue scaffolds. This work also addresses current challenges as well as future developments of environmentally friendly polymeric materials manufactured through the AM techniques. Ideally, there is a need for more focused research on the adequate blending of these biodegradable biopolymers for achieving useful results in targeted biomedical areas. We envision that biopolymer-based 3D-printed composites have the potential to revolutionize the biomedical sector in the near future. Biopolymers are promising environmentally benign materials applicable in multifarious applications. They are especially favorable in implantable biomedical devices thanks to their excellent unique properties, including bioactivity, renewability, bioresorbability, biocompatibility, biodegradability and hydrophilicity. Additive manufacturing (AM) is a flexible and intricate manufacturing technology, which is widely used to fabricate biopolymer-based customized products and structures for advanced healthcare systems. Three-dimensional (3D) printing of these sustainable materials is applied in functional clinical settings including wound dressing, drug delivery systems, medical implants and tissue engineering. The present review highlights recent advancements in different types of biopolymers, such as proteins and polysaccharides, which are employed to develop different biomedical products by using extrusion, vat polymerization, laser and inkjet 3D printing techniques in addition to normal bioprinting and four-dimensional (4D) bioprinting techniques. This review also incorporates the influence of nanoparticles on the biological and mechanical performances of 3D-printed tissue scaffolds. This work also addresses current challenges as well as future developments of environmentally friendly polymeric materials manufactured through the AM techniques. Ideally, there is a need for more focused research on the adequate blending of these biodegradable biopolymers for achieving useful results in targeted biomedical areas. We envision that biopolymer-based 3D-printed composites have the potential to revolutionize the biomedical sector in the near future.Biopolymers are promising environmentally benign materials applicable in multifarious applications. They are especially favorable in implantable biomedical devices thanks to their excellent unique properties, including bioactivity, renewability, bioresorbability, biocompatibility, biodegradability and hydrophilicity. Additive manufacturing (AM) is a flexible and intricate manufacturing technology, which is widely used to fabricate biopolymer-based customized products and structures for advanced healthcare systems. Three-dimensional (3D) printing of these sustainable materials is applied in functional clinical settings including wound dressing, drug delivery systems, medical implants and tissue engineering. The present review highlights recent advancements in different types of biopolymers, such as proteins and polysaccharides, which are employed to develop different biomedical products by using extrusion, vat polymerization, laser and inkjet 3D printing techniques in addition to normal bioprinting and four-dimensional (4D) bioprinting techniques. This review also incorporates the influence of nanoparticles on the biological and mechanical performances of 3D-printed tissue scaffolds. This work also addresses current challenges as well as future developments of environmentally friendly polymeric materials manufactured through the AM techniques. Ideally, there is a need for more focused research on the adequate blending of these biodegradable biopolymers for achieving useful results in targeted biomedical areas. We envision that biopolymer-based 3D-printed composites have the potential to revolutionize the biomedical sector in the near future. Biopolymers are promising environmentally benign materials applicable in multifarious applications. They are especially favorable in implantable biomedical devices thanks to their excellent unique properties, including bioactivity, renewability, bioresorbability, biocompatibility, biodegradability and hydrophilicity. Additive manufacturing (AM) is a flexible and intricate manufacturing technology, which is widely used to fabricate biopolymer-based customized products and structures for advanced healthcare systems. Three-dimensional (3D) printing of these sustainable materials is applied in functional clinical settings including wound dressing, drug delivery systems, medical implants and tissue engineering. The present review highlights recent advancements in different types of biopolymers, such as proteins and polysaccharides, which are employed to develop different biomedical products by using extrusion, vat polymerization, laser and inkjet 3D printing techniques in addition to normal bioprinting and four-dimensional (4D) bioprinting techniques. It also incorporates the influence of nanoparticles on the biological and mechanical performances of 3D-printed tissue scaffolds, and addresses current challenges as well as future developments of environmentally friendly polymeric materials manufactured through the AM techniques. Ideally, there is a need for more focused research on the adequate blending of these biodegradable biopolymers for achieving useful results in targeted biomedical areas. We envision that biopolymer-based 3D-printed composites have the potential to revolutionize the biomedical sector in the near future. [Display omitted] Biopolymers are promising environmentally benign materials applicable in multifarious applications. They are especially favorable in implantable biomedical devices thanks to their excellent unique properties, including bioactivity, renewability, bioresorbability, biocompatibility, biodegradability and hydrophilicity. Additive manufacturing (AM) is a flexible and intricate manufacturing technology, which is widely used to fabricate biopolymer-based customized products and structures for advanced healthcare systems. Three-dimensional (3D) printing of these sustainable materials is applied in functional clinical settings including wound dressing, drug delivery systems, medical implants and tissue engineering. The present review highlights recent advancements in different types of biopolymers, such as proteins and polysaccharides, which are employed to develop different biomedical products by using extrusion, vat polymerization, laser and inkjet 3D printing techniques in addition to normal bioprinting and four-dimensional (4D) bioprinting techniques. This review also incorporates the influence of nanoparticles on the biological and mechanical performances of 3D-printed tissue scaffolds. This work also addresses current challenges as well as future developments of environmentally friendly polymeric materials manufactured through the AM techniques. Ideally, there is a need for more focused research on the adequate blending of these biodegradable biopolymers for achieving useful results in targeted biomedical areas. We envision that biopolymer-based 3D-printed composites have the potential to revolutionize the biomedical sector in the near future. Image, graphical abstract Biopolymers are promising environmentally benign materials applicable in multifarious applications.They are especially favorable in implantable biomedical devices thanks to their excellent unique properties,including bioactivity,renewability,bioresorbability,biocompatibility,biodegradability and hydrophilicity.Additive manufacturing(AM)is a flexible and intricate manufacturing technology,which is widely used to fabricate biopolymer-based customized products and structures for advanced healthcare systems.Three-dimensional(3D)printing of these sustainable materials is applied in functional clinical settings including wound dressing,drug delivery systems,medical implants and tissue engineering.The present review highlights recent advancements in different types of biopolymers,such as proteins and polysaccharides,which are employed to develop different biomedical products by using extrusion,vat polymerization,laser and inkjet 3D printing techniques in addition to normal bioprinting and four-dimensional(4D)bioprinting techniques.It also incorporates the influence of nanoparticles on the biological and mechanical performances of 3D-printed tissue scaffolds,and addresses current challenges as well as future developments of environmentally friendly polymeric materials manufactured through the AM techniques.Ideally,there is a need for more focused research on the adequate blending of these biodegradable biopolymers for achieving useful results in targeted biomedical areas.We envision that biopolymer-based 3D-printed composites have the potential to revolutionize the biomedical sector in the near future. |
| ArticleNumber | 100812 |
| Author | Arif, Zia Ullah Umer, Rehan Noroozi, Reza Shi, HaoTian Harvey Tariq, Ali Khalid, Muhammad Yasir Hossain, Mokarram Ramakrishna, Seeram |
| AuthorAffiliation | Department of Mechanical Engineering,University of Management&Technology Lahore,Sialkot Campus 51041,Pakistan%Department of Aerospace Engineering,Khalifa University of Science and Technology,Abu Dhabi 127788,United Arab Emirates%School of Mechanical Engineering,Faculty of Engineering,University of Tehran,Tehran,Iran%Zienkiewicz Centre for Computational Engineering(ZCCE),Faculty of Science and Engineering,Swansea University,Swansea SA1 8EN,UK%Department of Mechanical&Materials Engineering,Western University,Ontario N6A 3K7,Canada%Department of Mechanical Engineering,Center for Nanofibers and Nanotechnology,National University of Singapore,119260,Singapore |
| AuthorAffiliation_xml | – name: Department of Mechanical Engineering,University of Management&Technology Lahore,Sialkot Campus 51041,Pakistan%Department of Aerospace Engineering,Khalifa University of Science and Technology,Abu Dhabi 127788,United Arab Emirates%School of Mechanical Engineering,Faculty of Engineering,University of Tehran,Tehran,Iran%Zienkiewicz Centre for Computational Engineering(ZCCE),Faculty of Science and Engineering,Swansea University,Swansea SA1 8EN,UK%Department of Mechanical&Materials Engineering,Western University,Ontario N6A 3K7,Canada%Department of Mechanical Engineering,Center for Nanofibers and Nanotechnology,National University of Singapore,119260,Singapore |
| Author_xml | – sequence: 1 givenname: Zia Ullah orcidid: 0000-0002-9254-7606 surname: Arif fullname: Arif, Zia Ullah email: chzia980@gmail.com organization: Department of Mechanical Engineering, University of Management & Technology Lahore, Sialkot Campus 51041, Pakistan – sequence: 2 givenname: Muhammad Yasir surname: Khalid fullname: Khalid, Muhammad Yasir email: 100062624@ku.ac.ae organization: Department of Aerospace Engineering, Khalifa University of Science and Technology, Abu Dhabi 127788, United Arab Emirates – sequence: 3 givenname: Reza surname: Noroozi fullname: Noroozi, Reza organization: School of Mechanical Engineering, Faculty of Engineering, University of Tehran, Tehran, Iran – sequence: 4 givenname: Mokarram surname: Hossain fullname: Hossain, Mokarram organization: Zienkiewicz Centre for Computational Engineering (ZCCE), Faculty of Science and Engineering, Swansea University, Swansea SA1 8EN, UK – sequence: 5 givenname: HaoTian Harvey orcidid: 0000-0003-2477-9795 surname: Shi fullname: Shi, HaoTian Harvey organization: Department of Mechanical & Materials Engineering, Western University, Ontario N6A 3K7, Canada – sequence: 6 givenname: Ali surname: Tariq fullname: Tariq, Ali organization: Department of Mechanical Engineering, University of Management & Technology Lahore, Sialkot Campus 51041, Pakistan – sequence: 7 givenname: Seeram orcidid: 0000-0001-8479-8686 surname: Ramakrishna fullname: Ramakrishna, Seeram email: seeram@nus.edu.sg organization: Department of Mechanical Engineering, Center for Nanofibers and Nanotechnology, National University of Singapore, 119260, Singapore – sequence: 8 givenname: Rehan surname: Umer fullname: Umer, Rehan organization: Department of Aerospace Engineering, Khalifa University of Science and Technology, Abu Dhabi 127788, United Arab Emirates |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/37274921$$D View this record in MEDLINE/PubMed |
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| Copyright | 2023 2023 Shenyang Pharmaceutical University. Published by Elsevier B.V. Copyright © Wanfang Data Co. Ltd. All Rights Reserved. 2023 Shenyang Pharmaceutical University. Published by Elsevier B.V. 2023 |
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| Keywords | Additive manufacturing Tissue engineering Biopolymers 3D printing Biomedical Sustainable biomaterials |
| Language | English |
| License | This is an open access article under the CC BY-NC-ND license. 2023 Shenyang Pharmaceutical University. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). |
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| Publisher | Elsevier B.V Department of Mechanical Engineering,University of Management&Technology Lahore,Sialkot Campus 51041,Pakistan%Department of Aerospace Engineering,Khalifa University of Science and Technology,Abu Dhabi 127788,United Arab Emirates%School of Mechanical Engineering,Faculty of Engineering,University of Tehran,Tehran,Iran%Zienkiewicz Centre for Computational Engineering(ZCCE),Faculty of Science and Engineering,Swansea University,Swansea SA1 8EN,UK%Department of Mechanical&Materials Engineering,Western University,Ontario N6A 3K7,Canada%Department of Mechanical Engineering,Center for Nanofibers and Nanotechnology,National University of Singapore,119260,Singapore Shenyang Pharmaceutical University Elsevier |
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| SubjectTerms | 3D printing Additive manufacturing Biomedical Biopolymers Review Sustainable biomaterials Tissue engineering |
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| Title | Additive manufacturing of sustainable biomaterials for biomedical applications |
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