Macrophages, the main marker in biocompatibility evaluation of new hydrogels after subcutaneous implantation in rats
Biocompatibility of materials is one of the most important conditions for their successful application in tissue regeneration and repair. Cell-surface interactions stimulate adhesion and activation of macrophages whose acquaintance can assist in designing novel biomaterials that promote favorable ma...
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| Published in: | Journal of biomaterials applications Vol. 36; no. 6; pp. 1111 - 1125 |
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| Main Authors: | , , , , , , , |
| Format: | Journal Article |
| Language: | English |
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London, England
SAGE Publications
01-01-2022
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| Abstract | Biocompatibility of materials is one of the most important conditions for their successful application in tissue regeneration and repair. Cell-surface interactions stimulate adhesion and activation of macrophages whose acquaintance can assist in designing novel biomaterials that promote favorable macrophage–biomaterial surface interactions for clinical application. This study is designed to determine the distribution and number of macrophages as a means of biocompatibility evaluation of two newly synthesized materials [silver/poly(vinyl alcohol) (Ag/PVA) and silver/poly(vinyl alcohol)/graphene (Ag/PVA/Gr) nanocomposite hydrogels] in vivo, with approval of the Ethics Committee of the Faculty of Veterinary Medicine, University of Belgrade. Macrophages and giant cells were analyzed in tissue sections stained by routine H&E and immunohistochemical methods (CD68+). Statistical relevance was determined in the statistical software package SPSS 20 (IBM corp). The results of the study in terms of the number of giant cells localized around the implant showed that their number was highest on the seventh postoperative day (p.o.d.) in the group implanted with Ag/PVA hydrogels, and on the 30th p.o.d. in the group implanted with Ag/PVA/Gr. Interestingly, the number of macrophages measured in the capsular and pericapsular space was highest in the group implanted with the commercial Suprasorb© material. The increased macrophage number, registered around the Ag/PVA/Gr implant on 60th p.o.d. indicates that the addition of graphene can, in a specific way, modulate different biological responses of tissues in the process of wound healing, regeneration, and integration. |
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| AbstractList | Biocompatibility of materials is one of the most important conditions for their successful application in tissue regeneration and repair. Cell-surface interactions stimulate adhesion and activation of macrophages whose acquaintance can assist in designing novel biomaterials that promote favorable macrophage-biomaterial surface interactions for clinical application. This study is designed to determine the distribution and number of macrophages as a means of biocompatibility evaluation of two newly synthesized materials [silver/poly(vinyl alcohol) (Ag/PVA) and silver/poly(vinyl alcohol)/graphene (Ag/PVA/Gr) nanocomposite hydrogels]
, with approval of the Ethics Committee of the Faculty of Veterinary Medicine, University of Belgrade. Macrophages and giant cells were analyzed in tissue sections stained by routine H&E and immunohistochemical methods (CD68
). Statistical relevance was determined in the statistical software package SPSS 20 (IBM corp). The results of the study in terms of the number of giant cells localized around the implant showed that their number was highest on the seventh postoperative day (p.o.d.) in the group implanted with Ag/PVA hydrogels, and on the 30th p.o.d. in the group implanted with Ag/PVA/Gr. Interestingly, the number of macrophages measured in the capsular and pericapsular space was highest in the group implanted with the commercial Suprasorb
material. The increased macrophage number, registered around the Ag/PVA/Gr implant on 60th p.o.d. indicates that the addition of graphene can, in a specific way, modulate different biological responses of tissues in the process of wound healing, regeneration, and integration. Biocompatibility of materials is one of the most important conditions for their successful application in tissue regeneration and repair. Cell-surface interactions stimulate adhesion and activation of macrophages whose acquaintance can assist in designing novel biomaterials that promote favorable macrophage–biomaterial surface interactions for clinical application. This study is designed to determine the distribution and number of macrophages as a means of biocompatibility evaluation of two newly synthesized materials [silver/poly(vinyl alcohol) (Ag/PVA) and silver/poly(vinyl alcohol)/graphene (Ag/PVA/Gr) nanocomposite hydrogels] in vivo, with approval of the Ethics Committee of the Faculty of Veterinary Medicine, University of Belgrade. Macrophages and giant cells were analyzed in tissue sections stained by routine H&E and immunohistochemical methods (CD68 + ). Statistical relevance was determined in the statistical software package SPSS 20 (IBM corp). The results of the study in terms of the number of giant cells localized around the implant showed that their number was highest on the seventh postoperative day (p.o.d.) in the group implanted with Ag/PVA hydrogels, and on the 30th p.o.d. in the group implanted with Ag/PVA/Gr. Interestingly, the number of macrophages measured in the capsular and pericapsular space was highest in the group implanted with the commercial Suprasorb © material. The increased macrophage number, registered around the Ag/PVA/Gr implant on 60th p.o.d. indicates that the addition of graphene can, in a specific way, modulate different biological responses of tissues in the process of wound healing, regeneration, and integration. Biocompatibility of materials is one of the most important conditions for their successful application in tissue regeneration and repair. Cell-surface interactions stimulate adhesion and activation of macrophages whose acquaintance can assist in designing novel biomaterials that promote favorable macrophage–biomaterial surface interactions for clinical application. This study is designed to determine the distribution and number of macrophages as a means of biocompatibility evaluation of two newly synthesized materials [silver/poly(vinyl alcohol) (Ag/PVA) and silver/poly(vinyl alcohol)/graphene (Ag/PVA/Gr) nanocomposite hydrogels] in vivo, with approval of the Ethics Committee of the Faculty of Veterinary Medicine, University of Belgrade. Macrophages and giant cells were analyzed in tissue sections stained by routine H&E and immunohistochemical methods (CD68+). Statistical relevance was determined in the statistical software package SPSS 20 (IBM corp). The results of the study in terms of the number of giant cells localized around the implant showed that their number was highest on the seventh postoperative day (p.o.d.) in the group implanted with Ag/PVA hydrogels, and on the 30th p.o.d. in the group implanted with Ag/PVA/Gr. Interestingly, the number of macrophages measured in the capsular and pericapsular space was highest in the group implanted with the commercial Suprasorb© material. The increased macrophage number, registered around the Ag/PVA/Gr implant on 60th p.o.d. indicates that the addition of graphene can, in a specific way, modulate different biological responses of tissues in the process of wound healing, regeneration, and integration. |
| Author | Marković, Danica Prokić, Bogomir Bolka Nešović, Katarina Lužajić Božinovski, Tijana Gajdov, Vladimir Mišković-Stanković, Vesna Todorović, Vera Milošević, Ivan |
| Author_xml | – sequence: 1 givenname: Tijana surname: Lužajić Božinovski fullname: Lužajić Božinovski, Tijana organization: Department of Physical Chemistry and Electrochemistry, Faculty of Technology and Metallurgy – sequence: 2 givenname: Vera surname: Todorović fullname: Todorović, Vera organization: Department of Physical Chemistry and Electrochemistry, Faculty of Technology and Metallurgy – sequence: 3 givenname: Ivan surname: Milošević fullname: Milošević, Ivan organization: Department of Physical Chemistry and Electrochemistry, Faculty of Technology and Metallurgy – sequence: 4 givenname: Bogomir Bolka surname: Prokić fullname: Prokić, Bogomir Bolka organization: Department of Physical Chemistry and Electrochemistry, Faculty of Technology and Metallurgy – sequence: 5 givenname: Vladimir surname: Gajdov fullname: Gajdov, Vladimir organization: Department of Physical Chemistry and Electrochemistry, Faculty of Technology and Metallurgy – sequence: 6 givenname: Katarina surname: Nešović fullname: Nešović, Katarina organization: Department of Physical Chemistry and Electrochemistry, Faculty of Technology and Metallurgy – sequence: 7 givenname: Vesna surname: Mišković-Stanković fullname: Mišković-Stanković, Vesna organization: Department of Physical Chemistry and Electrochemistry, Faculty of Technology and Metallurgy – sequence: 8 givenname: Danica orcidid: 0000-0002-3403-0473 surname: Marković fullname: Marković, Danica organization: Department of Physical Chemistry and Electrochemistry, Faculty of Technology and Metallurgy |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/34607494$$D View this record in MEDLINE/PubMed |
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| Keywords | skin macrophages silver/poly(vinyl alcohol)graphene Histology in vivo rats |
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