Overview
Tissue engineering is an interdisciplinary field that applies principles of biology, materials science, and engineering to restore, replace, or regenerate damaged tissues and organs. Its central paradigm combines three elements: a scaffold providing a three-dimensional architecture and mechanical support, cells capable of forming functional tissue, and bioactive molecules such as growth factors that direct proliferation and differentiation. Scaffold design governs porosity, degradation kinetics, surface chemistry, and biocompatibility, and draws on materials including calcium phosphates, natural polymers such as chitosan and fibrin, biopolyesters, and additively manufactured constructs. Cell sources span adult mesenchymal and adipose-derived stem cells, induced pluripotent stem cells, and tissue-specific progenitors, while emerging methods integrate three-dimensional bioprinting and organ-on-a-chip systems to recreate physiological microenvironments. Research grounded in this area examines calcium orthophosphate scaffolds for bone regeneration, laryngeal tissue engineering with adipose-derived stem cells in fibrin, enzymatic degradation and characterization of chitosan scaffolds, electrospun biopolyester scaffolds with favorable biological response, 3D-printed bone scaffolds and biocompatible materials, biocompatible matrices for stem-cell transplantation in neural models, and bioprinting coupled with organ-on-a-chip technology. The journal publishes peer-reviewed research on Tissue Repair and Regeneration, addressing scaffold biomaterials, stem-cell strategies, and fabrication technologies that advance regenerative and reconstructive approaches to tissue loss and injury.
Research published in this journal
12 peer-reviewed articles, ranked by relevance. Each links to its DOI.
Laryngeal Tissue Engineering using Rabbit Adipose Derived Stem Cells in Fibrin: A Pre-Clinical Model
Lysozyme-Induced Degradation of Chitosan: The Characterisation of Degraded Chitosan Scaffolds
Electrospun Biopolyesters: Hydrophobic Scaffolds with Favorable Biological Response
Review on 3D Printed Bone Scaffold and Biocompatible Material
Biocompatible Scaffolds for Human-Induced Pluripotent Stem Cell Transplantation and Modeling Post-Stroke Recovery in Three-Dimensional Neural Cell Culture
Exploring the Nanomedicinal Features of Ayurvedic Bhasmas: Insights from Traditional Medicine
Molecular Control of Human Embryonic Development: A Comprehensive Study
Chondroplasty Efficacy of Bone Matrix
Comparative Healing Efficacy of Platelet Rich Fibrin and Zinc Oxide Nanoparticles on Critical-Sized Ulnar Bone Defects in Rabbits
Coupling of 3D Bio-printing with Organ-on-a-chip Technology Creates New Possibility for Biomimicry
Human Umbilical Cord-Derived Mesenchymal Stem Cells as a Source of Odontoblasts: a GMP-compliant Approach
How this research is being cited
The 12 articles above have been cited 348 times in the scholarly literature. Citation data via OpenAlex and Crossref, updated Jun 2026.
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2026 · Journal of Polymers and the Environment
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2026 · Scientific Reports
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2026 · Carbohydrate Polymer Technologies and Applications
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2026 · npj Flexible Electronics
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2026 · Analytical Science Advances
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2026 · Journal of Adhesion Science and Technology
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2026 · BioNanoScience
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2026 · International Journal of Biological Macromolecules
A sample of recent works citing this journal's research on Tissue Engineering, linking to each citing work.