New Poly(lactic acid)–Hydrogel Core–Shell Scaffolds Highly Support MSCs’ Viability, Proliferation and Osteogenic Differentiation

Pasini, Chiara; Pandini, Stefano; Re, Federica; Ferroni, Matteo; Borsani, Elisa; Russo, Domenico; Sartore, Luciana

doi:10.3390/polym15244631

Cited by 2 publications

(1 citation statement)

References 41 publications

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“…Based on the good biodegradability and histocompatibility of poly(lactic acid), poly(lactic acid)-based hydrogel adhesives have been applied in three-dimensional bioresorbable scaffolds [189], the prevention of post-operative abdominal adhesions [190], and biomimetic coatings [191]. In addition, recent results also show that poly(lactic acid)-based hydrogel adhesives can be used for a controlled drug release.…”

Section: Poly(lactic Acid)mentioning

confidence: 99%

Recent Advances in the Degradability and Applications of Tissue Adhesives Based on Biodegradable Polymers

Zhu,

Dou,

Zeng

et al. 2024

IJMS

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In clinical practice, tissue adhesives have emerged as an alternative tool for wound treatments due to their advantages in ease of use, rapid application, less pain, and minimal tissue damage. Since most tissue adhesives are designed for internal use or wound treatments, the biodegradation of adhesives is important. To endow tissue adhesives with biodegradability, in the past few decades, various biodegradable polymers, either natural polymers (such as chitosan, hyaluronic acid, gelatin, chondroitin sulfate, starch, sodium alginate, glucans, pectin, functional proteins, and peptides) or synthetic polymers (such as poly(lactic acid), polyurethanes, polycaprolactone, and poly(lactic-co-glycolic acid)), have been utilized to develop novel biodegradable tissue adhesives. Incorporated biodegradable polymers are degraded in vivo with time under specific conditions, leading to the destruction of the structure and the further degradation of tissue adhesives. In this review, we first summarize the strategies of utilizing biodegradable polymers to develop tissue adhesives. Furthermore, we provide a symmetric overview of the biodegradable polymers used for tissue adhesives, with a specific focus on the degradability and applications of these tissue adhesives. Additionally, the challenges and perspectives of biodegradable polymer-based tissue adhesives are discussed. We expect that this review can provide new inspirations for the design of novel biodegradable tissue adhesives for biomedical applications.

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Section: Poly(lactic Acid)mentioning

confidence: 99%

Recent Advances in the Degradability and Applications of Tissue Adhesives Based on Biodegradable Polymers

Zhu,

Dou,

Zeng

et al. 2024

IJMS

View full text Add to dashboard Cite

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3D printing materials and 3D printed surgical devices in oral and maxillofacial surgery: design, workflow and effectiveness

Wang,

Mu,

Yan

et al. 2024

Regenerative Biomaterials

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Oral and maxillofacial surgery is a specialized surgical field devoted to diagnosing and managing conditions affecting the oral cavity, jaws, face, and related structures. In recent years, the integration of 3D printing technology has revolutionized this field, offering a range of innovative surgical devices such as patient-specific implants (PSIs), surgical guides, splints, bone models, and regenerative scaffolds. In this comprehensive review, we primarily focus on examining the utility of 3D printed surgical devices in the context of oral and maxillofacial surgery and evaluating their efficiency. Initially, we provide an insightful overview of commonly utilized 3D printed surgical devices, discussing their innovations and clinical applications. Recognizing the pivotal role of materials, we give consideration to suitable biomaterials and printing technology of each device, while also introducing the emerging fields of regenerative scaffolds and bioprinting. Furthermore, we delve into the transformative impact of 3D printed surgical devices within specific subdivisions of oral and maxillofacial surgery, placing particular emphasis on their rejuvenating effects in bone reconstruction, orthognathic surgery, temporomandibular joint (TMJ) treatment, and other applications. Additionally, we elucidate how the integration of 3D printing technology has reshaped clinical workflows and influenced treatment outcomes in oral and maxillofacial surgery, providing updates on advancements in ensuring accuracy and cost-effectiveness in 3D printing-based procedures.

show abstract

New Poly(lactic acid)–Hydrogel Core–Shell Scaffolds Highly Support MSCs’ Viability, Proliferation and Osteogenic Differentiation

Cited by 2 publications

References 41 publications

Recent Advances in the Degradability and Applications of Tissue Adhesives Based on Biodegradable Polymers

Recent Advances in the Degradability and Applications of Tissue Adhesives Based on Biodegradable Polymers

3D printing materials and 3D printed surgical devices in oral and maxillofacial surgery: design, workflow and effectiveness

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