Reinforcement of Calcium Phosphate Cement with Hybrid Silk Fibroin/Kappa-Carrageenan Nanofibers

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Fahimeh Roshanfar
  • Saeed Hesaraki
  • Alireza Dolatshahi-Pirouz
  • Mohsen Saeidi
  • Sara Leal-Marin
  • Birgit Glasmacher
  • Gorka Orive
  • Sajjad Khan Einipour

Research Organisations

External Research Organisations

  • Materials and Energy Research Center
  • Technical University of Denmark
  • Golestan University of Medical Sciences
  • NIFE - Lower Saxony Centre for Biomedical Engineering, Implant Research and Development
  • University of the Basque Country
  • Bioaraba Health Research Institute
  • Centros de Investigacion Biomedica en Red - CIBER
  • University Institute for Regenerative Medicine and Oral Implantology (UIRMI)
  • Singapore National Eye Center
  • Qom University of Medical Sciences
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Details

Original languageEnglish
Article number850
JournalBiomedicines
Volume11
Issue number3
Publication statusPublished - 10 Mar 2023

Abstract

Calcium phosphate cements (CPCs) offer a promising solution for treating bone defects due to their osteoconductive, injectable, biocompatible, and bone replacement properties. However, their brittle nature restricts their utilization to non-load-bearing applications. In this study, the impact of hybrid silk fibroin (SF) and kappa-carrageenan (k-CG) nanofibers as reinforcements in CPC was investigated. The CPC composite was fabricated by incorporating electrospun nanofibers in 1, 3, and 5% volume fractions. The morphology, mineralization, mechanical properties, setting time, injectability, cell adhesion, and mineralization of the CPC composites were analyzed. The results demonstrated that the addition of the nanofibers improved the CPC mixture, leading to an increase in compressive strength (14.8 ± 0.3 MPa compared to 8.1 ± 0.4 MPa of the unreinforced CPC). Similar improvements were seen in the bending strength and work fracture (WOF). The MC3T3-E1 cell culture experiments indicated that cells attached well to the surfaces of all cement samples and tended to join their adjacent cells. Additionally, the CPC composites showed higher cell mineralization after a culture period of 14 days, indicating that the SF/k-CG combination has potential for applications as a CPC reinforcement and bone cell regeneration promoter.

Keywords

    calcium phosphates cement, kappa-carrageenan, mechanical strength, nanofiber reinforcement, silk fibroin

ASJC Scopus subject areas

Cite this

Reinforcement of Calcium Phosphate Cement with Hybrid Silk Fibroin/Kappa-Carrageenan Nanofibers. / Roshanfar, Fahimeh; Hesaraki, Saeed; Dolatshahi-Pirouz, Alireza et al.
In: Biomedicines, Vol. 11, No. 3, 850, 10.03.2023.

Research output: Contribution to journalArticleResearchpeer review

Roshanfar, F, Hesaraki, S, Dolatshahi-Pirouz, A, Saeidi, M, Leal-Marin, S, Glasmacher, B, Orive, G & Khan Einipour, S 2023, 'Reinforcement of Calcium Phosphate Cement with Hybrid Silk Fibroin/Kappa-Carrageenan Nanofibers', Biomedicines, vol. 11, no. 3, 850. https://doi.org/10.3390/biomedicines11030850
Roshanfar, F., Hesaraki, S., Dolatshahi-Pirouz, A., Saeidi, M., Leal-Marin, S., Glasmacher, B., Orive, G., & Khan Einipour, S. (2023). Reinforcement of Calcium Phosphate Cement with Hybrid Silk Fibroin/Kappa-Carrageenan Nanofibers. Biomedicines, 11(3), Article 850. https://doi.org/10.3390/biomedicines11030850
Roshanfar F, Hesaraki S, Dolatshahi-Pirouz A, Saeidi M, Leal-Marin S, Glasmacher B et al. Reinforcement of Calcium Phosphate Cement with Hybrid Silk Fibroin/Kappa-Carrageenan Nanofibers. Biomedicines. 2023 Mar 10;11(3):850. doi: 10.3390/biomedicines11030850
Roshanfar, Fahimeh ; Hesaraki, Saeed ; Dolatshahi-Pirouz, Alireza et al. / Reinforcement of Calcium Phosphate Cement with Hybrid Silk Fibroin/Kappa-Carrageenan Nanofibers. In: Biomedicines. 2023 ; Vol. 11, No. 3.
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abstract = "Calcium phosphate cements (CPCs) offer a promising solution for treating bone defects due to their osteoconductive, injectable, biocompatible, and bone replacement properties. However, their brittle nature restricts their utilization to non-load-bearing applications. In this study, the impact of hybrid silk fibroin (SF) and kappa-carrageenan (k-CG) nanofibers as reinforcements in CPC was investigated. The CPC composite was fabricated by incorporating electrospun nanofibers in 1, 3, and 5% volume fractions. The morphology, mineralization, mechanical properties, setting time, injectability, cell adhesion, and mineralization of the CPC composites were analyzed. The results demonstrated that the addition of the nanofibers improved the CPC mixture, leading to an increase in compressive strength (14.8 ± 0.3 MPa compared to 8.1 ± 0.4 MPa of the unreinforced CPC). Similar improvements were seen in the bending strength and work fracture (WOF). The MC3T3-E1 cell culture experiments indicated that cells attached well to the surfaces of all cement samples and tended to join their adjacent cells. Additionally, the CPC composites showed higher cell mineralization after a culture period of 14 days, indicating that the SF/k-CG combination has potential for applications as a CPC reinforcement and bone cell regeneration promoter.",
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T1 - Reinforcement of Calcium Phosphate Cement with Hybrid Silk Fibroin/Kappa-Carrageenan Nanofibers

AU - Roshanfar, Fahimeh

AU - Hesaraki, Saeed

AU - Dolatshahi-Pirouz, Alireza

AU - Saeidi, Mohsen

AU - Leal-Marin, Sara

AU - Glasmacher, Birgit

AU - Orive, Gorka

AU - Khan Einipour, Sajjad

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PY - 2023/3/10

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N2 - Calcium phosphate cements (CPCs) offer a promising solution for treating bone defects due to their osteoconductive, injectable, biocompatible, and bone replacement properties. However, their brittle nature restricts their utilization to non-load-bearing applications. In this study, the impact of hybrid silk fibroin (SF) and kappa-carrageenan (k-CG) nanofibers as reinforcements in CPC was investigated. The CPC composite was fabricated by incorporating electrospun nanofibers in 1, 3, and 5% volume fractions. The morphology, mineralization, mechanical properties, setting time, injectability, cell adhesion, and mineralization of the CPC composites were analyzed. The results demonstrated that the addition of the nanofibers improved the CPC mixture, leading to an increase in compressive strength (14.8 ± 0.3 MPa compared to 8.1 ± 0.4 MPa of the unreinforced CPC). Similar improvements were seen in the bending strength and work fracture (WOF). The MC3T3-E1 cell culture experiments indicated that cells attached well to the surfaces of all cement samples and tended to join their adjacent cells. Additionally, the CPC composites showed higher cell mineralization after a culture period of 14 days, indicating that the SF/k-CG combination has potential for applications as a CPC reinforcement and bone cell regeneration promoter.

AB - Calcium phosphate cements (CPCs) offer a promising solution for treating bone defects due to their osteoconductive, injectable, biocompatible, and bone replacement properties. However, their brittle nature restricts their utilization to non-load-bearing applications. In this study, the impact of hybrid silk fibroin (SF) and kappa-carrageenan (k-CG) nanofibers as reinforcements in CPC was investigated. The CPC composite was fabricated by incorporating electrospun nanofibers in 1, 3, and 5% volume fractions. The morphology, mineralization, mechanical properties, setting time, injectability, cell adhesion, and mineralization of the CPC composites were analyzed. The results demonstrated that the addition of the nanofibers improved the CPC mixture, leading to an increase in compressive strength (14.8 ± 0.3 MPa compared to 8.1 ± 0.4 MPa of the unreinforced CPC). Similar improvements were seen in the bending strength and work fracture (WOF). The MC3T3-E1 cell culture experiments indicated that cells attached well to the surfaces of all cement samples and tended to join their adjacent cells. Additionally, the CPC composites showed higher cell mineralization after a culture period of 14 days, indicating that the SF/k-CG combination has potential for applications as a CPC reinforcement and bone cell regeneration promoter.

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