Robert Karpiński , Jakub Szabelsk , Przemysław Krakowski , Józef Jonak , Katarzyna Falkowicz , Mariusz Jojczuk , Adam Nogalski , Agata Przekora
{"title":"各种外加剂对中粘度骨水泥选定机械性能的影响:第 2 部分 - 羟基磷灰石","authors":"Robert Karpiński , Jakub Szabelsk , Przemysław Krakowski , Józef Jonak , Katarzyna Falkowicz , Mariusz Jojczuk , Adam Nogalski , Agata Przekora","doi":"10.1016/j.compstruct.2024.118308","DOIUrl":null,"url":null,"abstract":"<div><p>Poly methyl-methacrylate (PMMA) is one of the most widely used polymer composite materials in orthopaedic and trauma surgery. However, this material can change its mechanical properties when exposed to the highly aggressive environment of the human body, which may result in joint implant loosening and thus in a need for revision surgery. Therefore, in recent years, numerous researchers have investigated the effect of adding various particles to PMMA in order to obtain a composite bone cement with enhanced mechanical properties. In our study, we examined the effect of adding different grain sizes of hydroxyapatite (HA) to the commercially available PMMA (Palamed, Heraeus) on the mechanical properties of the fabricated PMMA/HA bone cement composite. Samples were subjected to compressive loading, as this type of load reflects typical conditions in the human body after joint prosthesis implantation. Hydroxyapatite of two different grain sizes was used: 5 µm (HA5) and 10 µm (HA10). Being a naturally occurring bone mineral, hydroxyapatite can improve the biocompatibility of bone cements, which would prolong the total joint replacement (TJR) survival rate. However, when added to PMMA, HA can affect its mechanical properties. In this study, the effects of adding HA was added in 0, 1, 2, 3, 5, 8, 10 % of dry mass were analysed. Obtained results demonstrated that only the addition of 2 % HA had a significant impact on the mechanical properties of PMMA. The other percentage concentrations had no effect on PMMA properties.</p></div>","PeriodicalId":281,"journal":{"name":"Composite Structures","volume":null,"pages":null},"PeriodicalIF":6.3000,"publicationDate":"2024-06-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Effect of various admixtures on selected mechanical properties of medium viscosity bone cements: Part 2 – Hydroxyapatite\",\"authors\":\"Robert Karpiński , Jakub Szabelsk , Przemysław Krakowski , Józef Jonak , Katarzyna Falkowicz , Mariusz Jojczuk , Adam Nogalski , Agata Przekora\",\"doi\":\"10.1016/j.compstruct.2024.118308\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Poly methyl-methacrylate (PMMA) is one of the most widely used polymer composite materials in orthopaedic and trauma surgery. However, this material can change its mechanical properties when exposed to the highly aggressive environment of the human body, which may result in joint implant loosening and thus in a need for revision surgery. Therefore, in recent years, numerous researchers have investigated the effect of adding various particles to PMMA in order to obtain a composite bone cement with enhanced mechanical properties. In our study, we examined the effect of adding different grain sizes of hydroxyapatite (HA) to the commercially available PMMA (Palamed, Heraeus) on the mechanical properties of the fabricated PMMA/HA bone cement composite. Samples were subjected to compressive loading, as this type of load reflects typical conditions in the human body after joint prosthesis implantation. Hydroxyapatite of two different grain sizes was used: 5 µm (HA5) and 10 µm (HA10). Being a naturally occurring bone mineral, hydroxyapatite can improve the biocompatibility of bone cements, which would prolong the total joint replacement (TJR) survival rate. However, when added to PMMA, HA can affect its mechanical properties. In this study, the effects of adding HA was added in 0, 1, 2, 3, 5, 8, 10 % of dry mass were analysed. Obtained results demonstrated that only the addition of 2 % HA had a significant impact on the mechanical properties of PMMA. 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Effect of various admixtures on selected mechanical properties of medium viscosity bone cements: Part 2 – Hydroxyapatite
Poly methyl-methacrylate (PMMA) is one of the most widely used polymer composite materials in orthopaedic and trauma surgery. However, this material can change its mechanical properties when exposed to the highly aggressive environment of the human body, which may result in joint implant loosening and thus in a need for revision surgery. Therefore, in recent years, numerous researchers have investigated the effect of adding various particles to PMMA in order to obtain a composite bone cement with enhanced mechanical properties. In our study, we examined the effect of adding different grain sizes of hydroxyapatite (HA) to the commercially available PMMA (Palamed, Heraeus) on the mechanical properties of the fabricated PMMA/HA bone cement composite. Samples were subjected to compressive loading, as this type of load reflects typical conditions in the human body after joint prosthesis implantation. Hydroxyapatite of two different grain sizes was used: 5 µm (HA5) and 10 µm (HA10). Being a naturally occurring bone mineral, hydroxyapatite can improve the biocompatibility of bone cements, which would prolong the total joint replacement (TJR) survival rate. However, when added to PMMA, HA can affect its mechanical properties. In this study, the effects of adding HA was added in 0, 1, 2, 3, 5, 8, 10 % of dry mass were analysed. Obtained results demonstrated that only the addition of 2 % HA had a significant impact on the mechanical properties of PMMA. The other percentage concentrations had no effect on PMMA properties.
期刊介绍:
The past few decades have seen outstanding advances in the use of composite materials in structural applications. There can be little doubt that, within engineering circles, composites have revolutionised traditional design concepts and made possible an unparalleled range of new and exciting possibilities as viable materials for construction. Composite Structures, an International Journal, disseminates knowledge between users, manufacturers, designers and researchers involved in structures or structural components manufactured using composite materials.
The journal publishes papers which contribute to knowledge in the use of composite materials in engineering structures. Papers deal with design, research and development studies, experimental investigations, theoretical analysis and fabrication techniques relevant to the application of composites in load-bearing components for assemblies, ranging from individual components such as plates and shells to complete composite structures.
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