Dissolution of Amorphous S53P4 Glass Scaffolds in Dynamic In Vitro Conditions

Laura Aalto-Setälä; Peter Uppstu; Polina Sinitsyna; Nina C. Lindfors; Leena Hupa

doi:10.3390/ma14174834

Dissolution of Amorphous S53P4 Glass Scaffolds in Dynamic In Vitro Conditions

Laura Aalto-Setälä, Peter Uppstu, Polina Sinitsyna, Nina C. Lindfors, Leena Hupa^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

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Abstract

The silicate-based bioactive glass S53P4 is clinically used in bone regenerative applications in granule form. However, utilization of the glass in scaffold form has been limited by the high tendency of the glass to crystallize during sintering. Here, careful optimization of sintering parameters enabled the manufacture of porous amorphous S53P4 scaffolds with a strength high enough for surgical procedures in bone applications (5 MPa). Sintering was conducted in a laboratory furnace for times ranging from 25 to 300 min at 630 °C, i.e., narrowly below the commencement of the crystallization. The phase composition of the scaffolds was verified with XRD, and the ion release was tested in vitro and compared with granules in continuous flow of Tris buffer and simulated body fluid (SBF). The amorphous, porous S53P4 scaffolds present the possibility of using the glass composition in a wider range of applications.

Original language	English
Article number	4834
Journal	Materials
Volume	14
Issue number	17
DOIs	https://doi.org/10.3390/ma14174834
Publication status	Published - 26 Aug 2021
MoE publication type	A1 Journal article-refereed

Keywords

bioactive glasses
S53P4
glass scaffolds
sintering
in vitro dissolution
dynamic dissolution
biomaterials
Tissue engineering

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10.3390/ma14174834Licence: CC BY

materials-14-04834Final published version, 3.07 MBLicence: CC BY

https://urn.fi/URN:NBN:fi-fe2022031523455

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title = "Dissolution of Amorphous S53P4 Glass Scaffolds in Dynamic In Vitro Conditions",

abstract = "The silicate-based bioactive glass S53P4 is clinically used in bone regenerative applications in granule form. However, utilization of the glass in scaffold form has been limited by the high tendency of the glass to crystallize during sintering. Here, careful optimization of sintering parameters enabled the manufacture of porous amorphous S53P4 scaffolds with a strength high enough for surgical procedures in bone applications (5 MPa). Sintering was conducted in a laboratory furnace for times ranging from 25 to 300 min at 630 °C, i.e., narrowly below the commencement of the crystallization. The phase composition of the scaffolds was verified with XRD, and the ion release was tested in vitro and compared with granules in continuous flow of Tris buffer and simulated body fluid (SBF). The amorphous, porous S53P4 scaffolds present the possibility of using the glass composition in a wider range of applications.",

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AU - Aalto-Setälä, Laura

AU - Uppstu, Peter

AU - Sinitsyna, Polina

AU - Lindfors, Nina C.

AU - Hupa, Leena

PY - 2021/8/26

Y1 - 2021/8/26

N2 - The silicate-based bioactive glass S53P4 is clinically used in bone regenerative applications in granule form. However, utilization of the glass in scaffold form has been limited by the high tendency of the glass to crystallize during sintering. Here, careful optimization of sintering parameters enabled the manufacture of porous amorphous S53P4 scaffolds with a strength high enough for surgical procedures in bone applications (5 MPa). Sintering was conducted in a laboratory furnace for times ranging from 25 to 300 min at 630 °C, i.e., narrowly below the commencement of the crystallization. The phase composition of the scaffolds was verified with XRD, and the ion release was tested in vitro and compared with granules in continuous flow of Tris buffer and simulated body fluid (SBF). The amorphous, porous S53P4 scaffolds present the possibility of using the glass composition in a wider range of applications.

AB - The silicate-based bioactive glass S53P4 is clinically used in bone regenerative applications in granule form. However, utilization of the glass in scaffold form has been limited by the high tendency of the glass to crystallize during sintering. Here, careful optimization of sintering parameters enabled the manufacture of porous amorphous S53P4 scaffolds with a strength high enough for surgical procedures in bone applications (5 MPa). Sintering was conducted in a laboratory furnace for times ranging from 25 to 300 min at 630 °C, i.e., narrowly below the commencement of the crystallization. The phase composition of the scaffolds was verified with XRD, and the ion release was tested in vitro and compared with granules in continuous flow of Tris buffer and simulated body fluid (SBF). The amorphous, porous S53P4 scaffolds present the possibility of using the glass composition in a wider range of applications.

KW - bioactive glasses

KW - S53P4

KW - glass scaffolds

KW - sintering

KW - in vitro dissolution

KW - dynamic dissolution

KW - biomaterials

KW - Tissue engineering

U2 - 10.3390/ma14174834

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Dissolution of Amorphous S53P4 Glass Scaffolds in Dynamic In Vitro Conditions

Abstract

Keywords

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