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Literature DB >> 32228889

Potentials of sandwich-like chitosan/polycaprolactone/gelatin scaffolds for guided tissue regeneration membrane.

Lin Zhang¹, Yunsheng Dong¹, Na Zhang¹, Jie Shi¹, Xiangyun Zhang¹, Chunxiao Qi¹, Adam C Midgley¹, Shufang Wang².

Abstract

Periodontal disease is a common complication and conventional periodontal surgery can lead to severe bleeding. Guided tissue regeneration (GTR) membranes favor periodontal regrowth, but they still have limitations, such as improper biodegradation, poor mechanical property, and no effective hemostatic property. To overcome these shortcomings, we generated unique multifunctional scaffolds. A chitosan/polycaprolactone/gelatin sandwich-like construction was fabricated by electrospinning and lyophilization. These composite scaffolds showed favorable physicochemical properties, including: appropriate porosity (<50%), pore size (about 10 μm) and mechanical stability (increasing with more PCL), good swelling and hydrophilicity. Appropriate degradation rates were approved by degradability analysis in vitro and in vivo, which resembled tissue regeneration process more closely. As shown in cell viability assay, cell attachment assay and Sirius red staining, we knew that the scaffolds had good biocompatibility, did not adversely affect cell ability for attachment, and induced high levels of collagen secretion. Experiments of blood clotting measurement in vitro showed that composite scaffolds were capable of accelerating blood clotting and could realize effective hemostasis. The results from subcutaneous implantation revealed the scaffolds had strong cell barrier effects and protection from external cell invasion. In summary, our multifunctional composite scaffolds showed optimised structure, enhanced regenerative capabilities, and serve as a basis for approaches to improve GTR designs for periodontal regeneration.

Entities: Chemical Disease Gene

Keywords: Barrier membrane; Composite nanofibers; Electrospinning; Hemostatic; Periodontal tissue regeneration; Sandwich-like scaffolds

Mesh：

Substances：

Year: 2020 PMID： 32228889 DOI： 10.1016/j.msec.2019.110618

Source DB: PubMed Journal: Mater Sci Eng C Mater Biol Appl ISSN： 0928-4931 Impact factor: 7.328

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Cited

12 in total

Review 1. Barrier Membrane in Regenerative Therapy: A Narrative Review.

Authors: Muhammad Syafiq Alauddin; Nur Ayman Abdul Hayei; Muhammad Annurdin Sabarudin; Nor Haliza Mat Baharin
Journal: Membranes (Basel) Date: 2022-04-20

Review 2. The recent advances in scaffolds for integrated periodontal regeneration.

Authors: Hyun Nyun Woo; Young Joon Cho; Solaiman Tarafder; Chang H Lee
Journal: Bioact Mater Date: 2021-03-18

3. Effect of Molecular Weight and Nanoarchitecture of Chitosan and Polycaprolactone Electrospun Membranes on Physicochemical and Hemocompatible Properties for Possible Wound Dressing.

Authors: Maria Oviedo; Yuliet Montoya; Wilson Agudelo; Alejandra García-García; John Bustamante
Journal: Polymers (Basel) Date: 2021-12-10 Impact factor: 4.329

4. Characterization of Five Collagenous Biomaterials by SEM Observations, TG-DTA, Collagenase Dissolution Tests and Subcutaneous Implantation Tests.

Authors: Miki Hoshi; Tomofumi Sawada; Wataru Hatakeyama; Masayuki Taira; Yuki Hachinohe; Kyoko Takafuji; Hidemichi Kihara; Shinji Takemoto; Hisatomo Kondo
Journal: Materials (Basel) Date: 2022-02-02 Impact factor: 3.623

5. Antibacterial and Fluorescence Staining Properties of an Innovative GTR Membrane Containing 45S5BGs and AIE Molecules In Vitro.

Authors: Yu-Wen Wei; Sayed Mir Sayed; Wei-Wen Zhu; Ke-Fei Xu; Fu-Gen Wu; Jing Xu; He-Peng Nie; Yu-Li Wang; Xiao-Lin Lu; Qian Ma
Journal: Nanomaterials (Basel) Date: 2022-02-14 Impact factor: 5.076

6. Fabrication of Guided Tissue Regeneration Membrane Using Lignin-Mediated ZnO Nanoparticles in Biopolymer Matrix for Antimicrobial Activity.

Authors: Bushra Bilal; Rimsha Niazi; Sohail Nadeem; Muhammad Asim Farid; Muhammad Shahid Nazir; Toheed Akhter; Mohsin Javed; Ayesha Mohyuddin; Abdul Rauf; Zulfiqar Ali; Syed Ali Raza Naqvi; Nawshad Muhammad; Eslam B Elkaeed; Hala A Ibrahium; Nasser S Awwad; Sadaf Ul Hassan
Journal: Front Chem Date: 2022-04-19 Impact factor: 5.545

Potentials of sandwich-like chitosan/polycaprolactone/gelatin scaffolds for guided tissue regeneration membrane.

Review 1. Barrier Membrane in Regenerative Therapy: A Narrative Review.

Review 2. The recent advances in scaffolds for integrated periodontal regeneration.

3. Effect of Molecular Weight and Nanoarchitecture of Chitosan and Polycaprolactone Electrospun Membranes on Physicochemical and Hemocompatible Properties for Possible Wound Dressing.

4. Characterization of Five Collagenous Biomaterials by SEM Observations, TG-DTA, Collagenase Dissolution Tests and Subcutaneous Implantation Tests.

5. Antibacterial and Fluorescence Staining Properties of an Innovative GTR Membrane Containing 45S5BGs and AIE Molecules In Vitro.

6. Fabrication of Guided Tissue Regeneration Membrane Using Lignin-Mediated ZnO Nanoparticles in Biopolymer Matrix for Antimicrobial Activity.

Review 7. Naturally-Sourced Antibacterial Polymeric Nanomaterials with Special Reference to Modified Polymer Variants.

Review 8. Role of Biomaterials Used for Periodontal Tissue Regeneration-A Concise Evidence-Based Review.

Review 9. A Comparative Review of Natural and Synthetic Biopolymer Composite Scaffolds.

Review 10. Polymeric Materials for Hemostatic Wound Healing.