Principles of Supra Molecular Self Assembly and Use of Fiber mesh Scaffolds in the Fabrication of Biomaterials
- Authors: Haseeb Ahsan1, Salman Ul Islam2, Muhammad Bilal Ahmed3, Adeeb Shehzad4, Mazhar Ul Islam5, Young Sup Lee6, Jong Kyung Sonn7
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View Affiliations Hide AffiliationsAffiliations: 1 School of Life Sciences, College of Natural Sciences, Kyungpook National University, 41566,Korea | Department of Pharmacy, Faculty of Life and Environmental Sciences, University of Peshawar 25120, Khyber Pakhtunkhwa, Pakistan 2 School of Life Sciences, College of Natural Sciences, Kyungpook National University, 41566,Korea | Department of Pharmacy, CECOS University, Peshawar, Pakistan 3 School of Life Sciences, College of Natural Sciences, Kyungpook National University, 41566,Korea 4 Department of Biomedical Engineering & Sciences, School of Mechanical and ManufacturingEngineering, National University of Science & Technology, Islamabad, Pakistan 5 Department of Chemical Engineering, College of Engineering, Dhofar University, Salalah,Oman 6 School of Life Sciences, College of Natural Sciences, Kyungpook National University, 41566,Korea 7 School of Life Sciences, College of Natural Sciences, Kyungpook National University, 41566,Korea
- Source: Biomaterial Fabrication Techniques , pp 218-242
- Publication Date: November 2022
- Language: English
Tissue engineering techniques aim to create a natural tissue architecture using biomaterials that have all the histological and physiological properties of human cells to replace or regenerate damaged tissue or organs. Nanotechnology is on the rise and expanding to all fields of science, including engineering, medicine, diagnostics and therapeutics. Nanostructures (biomaterials) specifically designed to mimic the physiological signals of the cellular/extracellular environment may prove to be indispensable tools in regenerative medicine and tissue engineering. In this chapter, we have discussed biomaterial design from two different perspectives. Supramolecular self-assembly is the bottom-up approach to biomaterials design that takes advantage of all the forces and interactions present in biomolecules and are responsible for their functional organization. This approach has the potential for one of the greatest breakthroughs in tissue engineering technology because it mimics the natural, complex process of coiling and folding biomolecules. In contrast, a fiber mesh scaffold is a topdown approach in which cells are seeded. The scaffolds form the cellular scaffold while the cells produce and release the desired chemical messengers to support the regeneration process. Therefore, both techniques, if efficiently explored, may lead to the development of ideal biomaterials produced by self-assembly or by the fabrication of optimal scaffolds with long shelf life and minimal adverse reactions.
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