3D Bioprinting and Its Role in a Wound Healing Renaissance

Tanfani, Joseph D.; Monpara, Jasmin D.; Jonnalagadda, Sriramakamal

doi:10.1002/admt.202300411

Cited by 6 publications

(1 citation statement)

References 197 publications

(712 reference statements)

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“…3D printing has gained increasing attention in tissue regeneration due to the ability to prepare scaffolds with suitable 3D morphologies and structures by using computer-aided design ( Wang et al, 2022b ). 3D printing is a viable option to create suitable structures for matching the inhomogeneous wound site, which also mimics native skin tissue by combining biomaterials with cells ( Tanfani et al, 2023 ). Due to the printability of dECM, researchers constructed different types of bioengineered 3D structures based on dECM, showing translational potential for promoting tissue repair ( Hwang et al, 2022 ).…”

Section: Introductionmentioning

confidence: 99%

Recent advances in fabrication of dECM-based composite materials for skin tissue engineering

Xu,

Cao,

Duan

et al. 2024

Front. Bioeng. Biotechnol.

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Chronic wound management is an intractable medical and social problem, affecting the health of millions worldwide. Decellularized extracellular matrix (dECM)-based materials possess remarkable biological properties for tissue regeneration, which have been used as commercial products for skin regeneration in clinics. However, the complex external environment and the longer chronic wound-healing process hinder the application of pure dECM materials. dECM-based composite materials are constructed to promote the healing process of different wounds, showing noteworthy functions, such as anti-microbial activity and suitable degradability. Moreover, fabrication technologies for designing wound dressings with various forms have expanded the application of dECM-based composite materials. This review provides a summary of the recent fabrication technologies for building dECM-based composite materials, highlighting advances in dECM-based molded hydrogels, electrospun fibers, and bio-printed scaffolds in managing wounds. The associated challenges and prospects in the clinical application of dECM-based composite materials for wound healing are finally discussed.

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Section: Introductionmentioning

confidence: 99%

Recent advances in fabrication of dECM-based composite materials for skin tissue engineering

Xu,

Cao,

Duan

et al. 2024

Front. Bioeng. Biotechnol.

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Recent Advances in the Additive Manufacturing of Stimuli‐Responsive Soft Polymers

Tariq,

Arif,

Khalid

et al. 2023

Adv Eng Mater

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Stimuli‐responsive polymers (SRPs) are special types of soft materials, which have been extensively used for developing flexible actuators, soft robots, wearable devices, sensors, self‐expanding structures, and biomedical devices, thanks to their ability to change their shapes and functional properties in response to external stimuli including light, humidity, heat, pH, electric field, solvent, and magnetic field or combinations of two or more of these stimuli. In recent years, additive manufacturing (AM) aka three‐dimensional (3D) printing technology of these SRPs, also known as four‐dimensional (4D) printing, has gained phenomenal attention in different engineering fields, thanks to its unique ability to develop complex, personalized, and innovative structures, which undergo twisting, elongating, swelling, rolling, shrinking, bending, spiraling, and other complex morphological transformations. Herein, an effort has been made to provide insightful information about the AM techniques, type of SRPs, and their applications including, but not limited to tissue engineering, soft robots, bionics, actuators, sensors, construction, and smart textiles. This article also incorporates the current challenges and prospects, hoping to provide an insightful basis for the utilization of this technology in different engineering fields. It is expected that the amalgamation of 3D printing with SRPs would provide unparalleled advantages in different engineering arenas.This article is protected by copyright. All rights reserved.

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Emerging Bioprinting for Wound Healing

et al. 2023

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Bioprinting has attracted much attention due to its suitability for fabricating biomedical devices. In particular, bioprinting has become one of the growing centres in the field of wound healing, with various types of bioprinted devices being developed, including 3D scaffolds, microneedle patches and flexible electronics. Bioprinted devices can be designed with specific biostructures and biofunctions that closely match the shape of wound sites and accelerate the regeneration of skin through various approaches. Herein, a comprehensive review of the bioprinting of smart wound dressings (SWDs) is presented, emphasizing the crucial effect of bioprinting in determining biostructures and biofunctions. The review begins with an overview of bioprinting techniques and bioprinted devices, followed with an in‐depth discussion of polymer‐based inks, modification strategies, additive ingredients, properties and applications. The strategies for the modification of bioprinted devices are divided into 7 categories, including chemical synthesis of novel inks, physical blending, coaxial bioprinting, multi‐material bioprinting, physical absorption, chemical immobilization, and hybridization with living cells, and examples are presented. Thereafter, the frontiers of bioprinting and wound healing, including 4D bioprinting, artificial intelligence (AI)‐assisted bioprinting, and in situ bioprinting, are discussed from a perspective of interdisciplinary sciences. Finally, the current challenges and future prospects in this field are highlighted.This article is protected by copyright. All rights reserved

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3D Bioprinting and Its Role in a Wound Healing Renaissance

Cited by 6 publications

References 197 publications

Recent advances in fabrication of dECM-based composite materials for skin tissue engineering

Recent advances in fabrication of dECM-based composite materials for skin tissue engineering

Recent Advances in the Additive Manufacturing of Stimuli‐Responsive Soft Polymers

Emerging Bioprinting for Wound Healing

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