Recent advances in 3D-printed polylactide and polycaprolactone-based biomaterials for tissue engineering applications

International Journal of Biological Macromolecules, Journal Year: 2022, Volume and Issue: 218, P. 930 - 968

Published: July 24, 2022

Language: Английский

---

Synthesis methods of hydroxyapatite from natural sources: A review

Ceramics International, Journal Year: 2022, Volume and Issue: 48(11), P. 14959 - 14979

Published: March 12, 2022

Language: Английский

---

Cerium oxide nanoparticles: Synthesis methods and applications in wound healing

Materials Today Bio, Journal Year: 2023, Volume and Issue: 23, P. 100823 - 100823

Published: Oct. 1, 2023

Wound care and treatment can be critical from a clinical standpoint. While different strategies for the management of skin wounds have been developed, limitations inherent in current approaches necessitate development more effective alternative strategies. Advances tissue engineering resulted novel promising accelerating wound healing. The use various biomaterials capable regeneration damaged is engineering. In this regard, cerium oxide nanoparticles (CeO

Language: Английский

---

Electrospun Scaffolds for Tissue Engineering: A Review

Macromol—A Journal of Macromolecular Research, Journal Year: 2023, Volume and Issue: 3(3), P. 524 - 553

Published: Aug. 3, 2023

Tissue engineering and regenerative medicine have emerged as innovative approaches to enhance clinical outcomes by addressing tissue lesions degenerations that can significantly impair organ function. Since human tissues limited capacity, the field of aims restore damaged their functionalities. Recent decades witnessed remarkable progress in materials science, engineering, medicine, leading development engineering. This interdisciplinary has revolutionized production artificial matrices, enabling design anatomically accurate structures with enhanced biocompatibility, bioabsorption, cell adhesion. Among techniques utilized for fabricating cellular scaffolds, electrospinning fibers stands out an ideal approach due its ability mimic characteristics extracellular matrix (ECM). Electrospun scaffolds exhibit distinct advantages, including a high surface area-to-volume ratio, exceptional porosity, uniformity, compositional diversity, structural flexibility, ease functionalization bioactive molecules controlled release. These versatile properties allow creation nanofiber closely resemble architecture ECM. Consequently, they facilitate transport nutrients oxygen cells well incorporation growth factors stimulate growth. advancements open up wide range applications medicine.

Language: Английский

---

Silicon-containing nanomedicine and biomaterials: materials chemistry, multi-dimensional design, and biomedical application

Chemical Society Reviews, Journal Year: 2024, Volume and Issue: 53(3), P. 1167 - 1315

Published: Jan. 1, 2024

Silicon-based biomaterials have been extensively developed in the past decades. The classification, characteristics, multi-dimensional design, and biomedical applications of silicon-containing are comprehensively elaborated.

Language: Английский

---

Keratin-containing scaffolds for tissue engineering applications: a review

Journal of Biomaterials Science Polymer Edition, Journal Year: 2024, Volume and Issue: 35(6), P. 916 - 965

Published: Feb. 13, 2024

In tissue engineering and regenerative medicine applications, the utilization of bioactive materials has become a routine tool. The goal is to create new organs tissues by combining cell biology, science, reactor engineering, clinical research. As part growth pattern for primary cells in an organ, backing material frequently used as supporting material. A porous three-dimensional (3D) scaffold can provide with optimal conditions proliferating, migrating, differentiating, functioning framework. Optimizing scaffolds' structure altering their surface may improve adhesion proliferation. keratin-based biomaterials platform been developed result discoveries made over past century extraction, purification, characterization keratin proteins from hair wool fibers. Biocompatibility, biodegradability, intrinsic biological activity, cellular binding motifs make attractive biomaterial scaffolds. Scaffolds have extracted because capacity self-assemble polymerize into intricate 3D structures. this review article, applications scaffolds different including bone, skin, nerve, vascular are explained based on common methods fabrication such electrospinning, freeze-drying process, sponge replication method.

Language: Английский

---

Plasma surface modification of electrospun polyhydroxybutyrate (PHB) nanofibers to investigate their performance in bone tissue engineering

International Journal of Biological Macromolecules, Journal Year: 2023, Volume and Issue: 230, P. 123167 - 123167

Published: Jan. 5, 2023

Language: Английский

---

Resorbable Biomaterials Used for 3D Scaffolds in Tissue Engineering: A Review

Materials, Journal Year: 2023, Volume and Issue: 16(12), P. 4267 - 4267

Published: June 8, 2023

This article provides a thorough overview of the available resorbable biomaterials appropriate for producing replacements damaged tissues. In addition, their various properties and application possibilities are discussed as well. Biomaterials fundamental components in tissue engineering (TE) scaffolds play critical role. They need to exhibit biocompatibility, bioactivity, biodegradability, non-toxicity, ensure ability function effectively with an host response. With ongoing research advancements medical implants, objective this review is explore recently developed implantable scaffold materials The categorization paper includes fossil-based (e.g., PCL, PVA, PU, PEG, PPF), natural or bio-based HA, PLA, PHB, PHBV, chitosan, fibrin, collagen, starch, hydrogels), hybrid PCL/PLA, PCL/PEG, PLA/PEG, PLA/PHB PCL/collagen, PCL/chitosan, PCL/starch, PLA/bioceramics). these both hard soft TE considered, particular focus on physicochemical, mechanical, biological properties. Furthermore, interactions between immune system context scaffold-driven regeneration discussed. Additionally, briefly mentions concept situ TE, which leverages self-renewal capacities affected tissues highlights crucial role played by biopolymer-based strategy.

Language: Английский

---

Evaluation of the effects of halloysite nanotube on polyhydroxybutyrate - chitosan electrospun scaffolds for cartilage tissue engineering applications

International Journal of Biological Macromolecules, Journal Year: 2023, Volume and Issue: 233, P. 123651 - 123651

Published: Feb. 10, 2023

Language: Английский

---

An Overview on the Big Players in Bone Tissue Engineering: Biomaterials, Scaffolds and Cells

International Journal of Molecular Sciences, Journal Year: 2024, Volume and Issue: 25(7), P. 3836 - 3836

Published: March 29, 2024

Presently, millions worldwide suffer from degenerative and inflammatory bone joint issues, comprising roughly half of chronic ailments in those over 50, leading to prolonged discomfort physical limitations. These conditions become more prevalent with age lifestyle factors, escalating due the growing elderly populace. Addressing these challenges often entails surgical interventions utilizing implants or grafts, though treatments may entail complications such as pain tissue death at donor sites for along immune rejection. To surmount challenges, engineering has emerged a promising avenue injury repair reconstruction. It involves use different biomaterials development three-dimensional porous matrices scaffolds, alongside osteoprogenitor cells growth factors stimulate natural regeneration. This review compiles methodologies that can be used develop are important replacement Biomaterials orthopedic implants, several scaffold types production methods, well techniques assess biomaterials’ suitability human use—both laboratory settings within living organisms—are discussed. Even researchers have had some success, there is still room improvements their processing techniques, especially ones make scaffolds mechanically stronger without weakening biological characteristics. Bone therefore area rise bone-related injuries.

Language: Английский

---