Biocompatibility and Immune Response of a Newly Developed Volume-Stable Magnesium-Based Barrier Membrane in Combination with a PVD Coating for Guided Bone Regeneration (GBR)
To date, there are no bioresorbable alternatives to non-resorbable and volume-stable membranes in the field of dentistry for guided bone or tissue regeneration (GBR/GTR). Even magnesium (Mg) has been shown to constitute a favorable biomaterial for the development of stabilizing structures. However,...
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MDPI AG
2020-12-01
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doaj-4919cba90063463390ed8c3c2d42faf62020-12-21T00:01:30ZengMDPI AGBiomedicines2227-90592020-12-01863663610.3390/biomedicines8120636Biocompatibility and Immune Response of a Newly Developed Volume-Stable Magnesium-Based Barrier Membrane in Combination with a PVD Coating for Guided Bone Regeneration (GBR)Larissa Steigmann0Ole Jung1Wolfgang Kieferle2Sanja Stojanovic3Annica Proehl4Oliver Görke5Steffen Emmert6Stevo Najman7Mike Barbeck8Daniel Rothamel9Department of Periodontics and Oral Medicine, School of Dentistry, University of Michigan, Ann Arbor, MI 48109, USAClinic and Policlinic for Dermatology and Venereology, University Medical Center Rostock, D-18057 Rostock, GermanyTS TriboSystems GmbH, D-88250 Weingarten, GermanyDepartment of Biology and Human Genetics, Faculty of Medicine, University of Niš, 18000 Niš, SerbiaResearch Department, BerlinAnalytix GmbH, D-12109 Berlin, GermanyDepartment of Ceramic Materials, Chair of Advanced Ceramic Materials, Institute for Materials Science and Technologies, Technical University Berlin, D-10623 Berlin, GermanyClinic and Policlinic for Dermatology and Venereology, University Medical Center Rostock, D-18057 Rostock, GermanyDepartment of Biology and Human Genetics, Faculty of Medicine, University of Niš, 18000 Niš, SerbiaResearch Department, BerlinAnalytix GmbH, D-12109 Berlin, GermanyDepartment of Oral and Maxillofacial Plastic Surgery, Evangelic Johanniter Hospital Bethesda Mönchengladbach, D-41061 Mönchengladbach, GermanyTo date, there are no bioresorbable alternatives to non-resorbable and volume-stable membranes in the field of dentistry for guided bone or tissue regeneration (GBR/GTR). Even magnesium (Mg) has been shown to constitute a favorable biomaterial for the development of stabilizing structures. However, it has been described that it is necessary to prevent premature degradation to ensure both the functionality and the biocompatibility of such Mg implants. Different coating strategies have already been developed, but most of them did not provide the desired functionality. The present study analyses a new approach based on ion implantation (II) with PVD coating for the passivation of a newly developed Mg membrane for GBR/GTR procedures. To demonstrate comprehensive biocompatibility and successful passivation of the Mg membranes, untreated Mg (MG) and coated Mg (MG-Co) were investigated in vitro and in vivo. Thereby a collagen membrane with an already shown biocompatibility was used as control material. All investigations were performed according to EN ISO 10993 regulations. The in vitro results showed that both the untreated and PVD-coated membranes were not cytocompatible. However, both membrane types fulfilled the requirements for in vivo biocompatibility. Interestingly, the PVD coating did not have an influence on the gas cavity formation compared to the uncoated membrane, but it induced lower numbers of anti-inflammatory macrophages in comparison to the pure Mg membrane and the collagen membrane. In contrast, the pure Mg membrane provoked an immune response that was fully comparable to the collagen membrane. Altogether, this study shows that pure magnesium membranes represent a promising alternative compared to the nonresorbable volume-stable materials for GBR/GTR therapy.https://www.mdpi.com/2227-9059/8/12/636magnesium implantcytocompatibilitybiocompatibilitybarrier membranedentistryguided bone regeneration |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Larissa Steigmann Ole Jung Wolfgang Kieferle Sanja Stojanovic Annica Proehl Oliver Görke Steffen Emmert Stevo Najman Mike Barbeck Daniel Rothamel |
| spellingShingle |
Larissa Steigmann Ole Jung Wolfgang Kieferle Sanja Stojanovic Annica Proehl Oliver Görke Steffen Emmert Stevo Najman Mike Barbeck Daniel Rothamel Biocompatibility and Immune Response of a Newly Developed Volume-Stable Magnesium-Based Barrier Membrane in Combination with a PVD Coating for Guided Bone Regeneration (GBR) Biomedicines magnesium implant cytocompatibility biocompatibility barrier membrane dentistry guided bone regeneration |
| author_facet |
Larissa Steigmann Ole Jung Wolfgang Kieferle Sanja Stojanovic Annica Proehl Oliver Görke Steffen Emmert Stevo Najman Mike Barbeck Daniel Rothamel |
| author_sort |
Larissa Steigmann |
| title |
Biocompatibility and Immune Response of a Newly Developed Volume-Stable Magnesium-Based Barrier Membrane in Combination with a PVD Coating for Guided Bone Regeneration (GBR) |
| title_short |
Biocompatibility and Immune Response of a Newly Developed Volume-Stable Magnesium-Based Barrier Membrane in Combination with a PVD Coating for Guided Bone Regeneration (GBR) |
| title_full |
Biocompatibility and Immune Response of a Newly Developed Volume-Stable Magnesium-Based Barrier Membrane in Combination with a PVD Coating for Guided Bone Regeneration (GBR) |
| title_fullStr |
Biocompatibility and Immune Response of a Newly Developed Volume-Stable Magnesium-Based Barrier Membrane in Combination with a PVD Coating for Guided Bone Regeneration (GBR) |
| title_full_unstemmed |
Biocompatibility and Immune Response of a Newly Developed Volume-Stable Magnesium-Based Barrier Membrane in Combination with a PVD Coating for Guided Bone Regeneration (GBR) |
| title_sort |
biocompatibility and immune response of a newly developed volume-stable magnesium-based barrier membrane in combination with a pvd coating for guided bone regeneration (gbr) |
| publisher |
MDPI AG |
| series |
Biomedicines |
| issn |
2227-9059 |
| publishDate |
2020-12-01 |
| description |
To date, there are no bioresorbable alternatives to non-resorbable and volume-stable membranes in the field of dentistry for guided bone or tissue regeneration (GBR/GTR). Even magnesium (Mg) has been shown to constitute a favorable biomaterial for the development of stabilizing structures. However, it has been described that it is necessary to prevent premature degradation to ensure both the functionality and the biocompatibility of such Mg implants. Different coating strategies have already been developed, but most of them did not provide the desired functionality. The present study analyses a new approach based on ion implantation (II) with PVD coating for the passivation of a newly developed Mg membrane for GBR/GTR procedures. To demonstrate comprehensive biocompatibility and successful passivation of the Mg membranes, untreated Mg (MG) and coated Mg (MG-Co) were investigated in vitro and in vivo. Thereby a collagen membrane with an already shown biocompatibility was used as control material. All investigations were performed according to EN ISO 10993 regulations. The in vitro results showed that both the untreated and PVD-coated membranes were not cytocompatible. However, both membrane types fulfilled the requirements for in vivo biocompatibility. Interestingly, the PVD coating did not have an influence on the gas cavity formation compared to the uncoated membrane, but it induced lower numbers of anti-inflammatory macrophages in comparison to the pure Mg membrane and the collagen membrane. In contrast, the pure Mg membrane provoked an immune response that was fully comparable to the collagen membrane. Altogether, this study shows that pure magnesium membranes represent a promising alternative compared to the nonresorbable volume-stable materials for GBR/GTR therapy. |
| topic |
magnesium implant cytocompatibility biocompatibility barrier membrane dentistry guided bone regeneration |
| url |
https://www.mdpi.com/2227-9059/8/12/636 |
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