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Bioprinting of Self-Healing Materials and Nanostructures for Biomedical Applications: Recent Advances and Progresses on Fabrication and Characterization Techniques Publisher



Kangarshahi BM1 ; Naghib SM1 ; Kangarshahi GM2 ; Mozafari MR3
Authors
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Authors Affiliations
  1. 1. Nanotechnology Department, School of Advanced Technologies, Iran University of Science and Technology (IUST), Tehran, 1684613114, Iran
  2. 2. Biomaterials and Tissue Engineering Research Group, Interdisciplinary Technologies Department, Breast Cancer Research Center, Motamed Cancer Institute, ACECR, Tehran, Iran
  3. 3. Australasian Nanoscience and Nanotechnology Initiative (ANNI), Monash University LPO, Clayton, 3168, VIC, Australia

Source: Bioprinting Published:2024


Abstract

Bioprinting of self-healing materials and nanostructures has gained significant attention in recent years due of its potential benefits in biomedical applications. Self-healing materials and nanostructures can enhance the mechanical stability of printed constructs by restoring their strength, stiffness, and elasticity following damage. Self-healing materials and nanostructures can improve the performance of printed constructs by preserving their viability, differentiation, and integration even when they are damaged. Self-healing materials and nanostructures possess the ability to offer supplementary capabilities, including medication delivery, biosensing, and bioimaging. This is achieved by their capacity to react to external stimuli, such as light, heat, or pH, and subsequently release pharmaceuticals, generate signals, or alter colors. This study presents a comprehensive summary of the latest progress in the field of bioprinting for the creation of self-healing materials and nanostructures. The emphasis is placed on the methods used for their production, analysis, and evaluation. Initially, we provide the fundamental concepts and methodologies of bioprinting, followed by an explanation of the primary categories and characteristics of self-healing materials and nanostructures. Here, we showcase a selection of illustrative instances where self-healing materials and nanostructures have been bio-printed for diverse biological purposes, including tissue engineering, organ transplantation, drug administration, and wound healing. In addition, we analyze the present constraints and potential future directions of this developing domain, including the capacity for expansion, compatibility with living organisms, and regulatory aspects of printing self-repairing substances and nanostructures. We anticipate that this review will serve as a catalyst for novel concepts and promote additional investigation in the field of bioprinting of self-repairing substances and nanostructures for biomedical purposes. © 2024 Elsevier B.V.
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