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The concept of regenerating tissues, with properties and functions that mimic natural tissues, has attracted significant attention in recent years. It provides potential solutions for treating many diseases and other healthcare issues. To fully realize the potential of the approach, it is crucial to have a rational biomaterial design to create novel scaffolds, and other materials systems suitable for tissue engineering, repair and regeneration. Research advances on the topic include the design of new biomaterials and their composites, the scaffold fabrication via subtractive and additive manufacturing approaches, the development of implantable scaffolds for disease monitoring, diagnostics, and treatment, as well as the understanding of cells–biomaterial scaffolds interaction. This Special Issue, “Novel Biomaterials for Tissue Engineering”, covers a selection of timely research activities in the field of biomaterials for tissue engineering and regeneration purposes. Promising findings on different approaches to design and develop new biomaterials, biomaterial systems and methods for tissue engineering, are presented and discussed. Recent advances in biofabrication techniques for tissue engineering are additionally demonstrated. The issue comprises a series of state-of-the-art experimental works, up-to-date review articles and commentaries.

tissue regeneration --- biomaterial structuring --- tissue engineering --- implantable scaffolds --- scaffolds --- biomaterials --- bioprinting --- cell-biomaterial interaction

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3D Lung Models for Regenerating Lung Tissue is a comprehensive summary on the current state of art 3D lung models and novel techniques that can be used to regenerate lung tissue. Written by experts in the field, readers can expect to learn more about 3D lung models, novel techniques including bioprinting and advanced imaging techniques, as well as important knowledge about the complexity of the lung and its extracellular matrix composition.

Regeneration (Biology) --- Regenerative biology --- Regrowth (Biology) --- Developmental biology --- Autotomy --- Wound healing --- Lungs --- Regenerative medicine. --- Lung --- Microphysiological Systems --- Organ Culture Techniques --- Bioprinting --- Regeneration --- Diseases --- Treatment. --- Models. --- Lung. --- Microphysiological Systems. --- Organ Culture Techniques. --- Bioprinting. --- Regeneration.

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Tissue engineering. --- Biomedical engineering. --- Three-dimensional printing. --- Bioprinting. --- Tissue Engineering. --- Engineering, Tissue --- Organ Culture Techniques --- Tissue Expansion --- Regenerative Medicine --- Guided Tissue Regeneration --- Cell- and Tissue-Based Therapy --- 3-D printing --- 3D printing --- 3DP (Three-dimensional printing) --- Rapid prototyping --- Clinical engineering --- Medical engineering --- Bioengineering --- Biophysics --- Engineering --- Medicine --- Biomedical engineering --- Regenerative medicine --- Tissue culture --- Bioprinting --- Additive manufacturing --- Tissue engineering --- Three-dimensional printing --- Tissue Engineering --- Microphysiological Systems

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Bioprinting: From Multidisciplinary Design to Emerging Opportunities describes state-of-the-art techniques and highlights open issues of different aspects that affect the efficiency of bioprinting protocols. Starting from a description of the main bioprinting technologies, the book addresses the most advanced approaches for the design of "on-demand" biomaterials suitable for incorporating biological components, along with the challenges associated with the development of a cellular model, and with the biological read-out. Coverage includes intelligent process design techniques, emerging technologies, and specific applications.

Regenerative medicine. --- Regenerative Medicine --- Medicine --- Regeneration (Biology) --- Medicine, Regenerative --- Medicines, Regenerative --- Regenerative Medicines --- Regenerative Endodontics --- Cell- and Tissue-Based Therapy --- Three-dimensional printing. --- 3-D printing --- 3D printing --- 3DP (Three-dimensional printing) --- Additive manufacturing --- Tissue engineering. --- Bioprinting --- Tissue Engineering --- Bioprinting. --- Regenerative Medicine. --- Tissue Engineering.

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3D Bioprinting in Tissue and Organ Regeneration covers state-of-the-art advances and applications in bioprinting. Beginning with an introduction that considers techniques, bioinks and construct design, the authors then move onto a detailed review of applications of bioprinting in different biomedical fields (skin, cartilage, bone, vascularized tissue, etc.). This is followed by a chapter overview of intraoperative bioprinting, which is widely considered one of the important future trends in this area. Finally, the authors tackle ethical and regulation concerns regarding the utilization of bioprinting. The book is written by three global experts for an audience of students and professionals with some basic knowledge of bioprinting, but who seek a deeper understanding of the biomedical applications involved in bioprinting.--

Three-dimensional imaging in medicine. --- Medical technology. --- Tissue engineering. --- Biomedical engineering --- Regenerative medicine --- Tissue culture --- Health care technology --- Health technology --- Technology --- Three-dimensional medical imaging --- Imaging systems in medicine --- Bioprinting. --- Three-dimensional printing --- Tissue Engineering --- Bioprinting --- Regenerative Medicine --- Therapeutic use. --- Tissue Engineering. --- Regenerative Medicine.