Processing and coating of open-pored absorbable magnesium-based bone implants

Large bone defects or fractures must be treated with an implant or transplant. Resorbable implants are attractive as these require only one surgery, whereas bone autografts, which can be cut off from the same person's hip, require more than one procedure. Moreover, porous structures promote the...

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Veröffentlicht in:	Materials Science & Engineering C 2019-05, Vol.98, p.1073-1086
Hauptverfasser:	Julmi, Stefan, Krüger, Ann-Kathrin, Waselau, Anja-Christina, Meyer-Lindenberg, Andrea, Wriggers, Peter, Klose, Christian, Maier, Hans Jürgen
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Sprache:	eng
Schlagworte:	Adhesion tests Alloys Autografts Biocompatibility Biocompatible magnesium alloys Biodegradability Biodegradation Bone implants Bone surgery Calcium Calcium phosphates Castability Coating Coatings Degradation Fractures Hip Investment casting Magnesium Magnesium base alloys Magnesium sponges Materials science Mechanical properties Polylactic acid Pore size Porosity Resorbable implants Sponges Surgical implants Transplants & implants
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creator	Julmi, Stefan Krüger, Ann-Kathrin Waselau, Anja-Christina Meyer-Lindenberg, Andrea Wriggers, Peter Klose, Christian Maier, Hans Jürgen
description	Large bone defects or fractures must be treated with an implant or transplant. Resorbable implants are attractive as these require only one surgery, whereas bone autografts, which can be cut off from the same person's hip, require more than one procedure. Moreover, porous structures promote the ingrowth of the patient's bone. Thus, the objective of the present study was to develop open-pored biodegradable implant structures with different pore sizes that provide for both adequate degradation behaviour and mechanical properties that match with those of bone. The magnesium alloys LAE442 and La2 were employed in this study, as these materials are known to feature good biocompatibility and mechanical properties close to bone. It was possible to cast magnesium sponges with different pore sizes using the alloy LAE442. However, with the MgLa2 alloy, only sponges with a minimum pore size of 0.5 mm could be produced. Overall, the sponges cast with the LAE442 alloy showed higher strength, even though the strengths of the dense parts were similar in both alloys tested. In terms of castability and mechanical behaviour, the LAE442 alloy turned out to be more favourable. In order to adapt the implant degradation behaviour to the bone ingrowth behaviour, coating of the magnesium sponges with calcium phosphate and polylactic acid was also investigated. Additionally, the different coatings were tested on their adhesive forces and influences to the in-vitro degradation behaviour.
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Resorbable implants are attractive as these require only one surgery, whereas bone autografts, which can be cut off from the same person's hip, require more than one procedure. Moreover, porous structures promote the ingrowth of the patient's bone. Thus, the objective of the present study was to develop open-pored biodegradable implant structures with different pore sizes that provide for both adequate degradation behaviour and mechanical properties that match with those of bone. The magnesium alloys LAE442 and La2 were employed in this study, as these materials are known to feature good biocompatibility and mechanical properties close to bone. It was possible to cast magnesium sponges with different pore sizes using the alloy LAE442. However, with the MgLa2 alloy, only sponges with a minimum pore size of 0.5 mm could be produced. Overall, the sponges cast with the LAE442 alloy showed higher strength, even though the strengths of the dense parts were similar in both alloys tested. In terms of castability and mechanical behaviour, the LAE442 alloy turned out to be more favourable. In order to adapt the implant degradation behaviour to the bone ingrowth behaviour, coating of the magnesium sponges with calcium phosphate and polylactic acid was also investigated. 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Resorbable implants are attractive as these require only one surgery, whereas bone autografts, which can be cut off from the same person's hip, require more than one procedure. Moreover, porous structures promote the ingrowth of the patient's bone. Thus, the objective of the present study was to develop open-pored biodegradable implant structures with different pore sizes that provide for both adequate degradation behaviour and mechanical properties that match with those of bone. The magnesium alloys LAE442 and La2 were employed in this study, as these materials are known to feature good biocompatibility and mechanical properties close to bone. It was possible to cast magnesium sponges with different pore sizes using the alloy LAE442. However, with the MgLa2 alloy, only sponges with a minimum pore size of 0.5 mm could be produced. Overall, the sponges cast with the LAE442 alloy showed higher strength, even though the strengths of the dense parts were similar in both alloys tested. In terms of castability and mechanical behaviour, the LAE442 alloy turned out to be more favourable. In order to adapt the implant degradation behaviour to the bone ingrowth behaviour, coating of the magnesium sponges with calcium phosphate and polylactic acid was also investigated. 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In terms of castability and mechanical behaviour, the LAE442 alloy turned out to be more favourable. In order to adapt the implant degradation behaviour to the bone ingrowth behaviour, coating of the magnesium sponges with calcium phosphate and polylactic acid was also investigated. Additionally, the different coatings were tested on their adhesive forces and influences to the in-vitro degradation behaviour.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>30812991</pmid><doi>10.1016/j.msec.2018.12.125</doi><tpages>14</tpages></addata></record>
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subjects	Adhesion tests Alloys Autografts Biocompatibility Biocompatible magnesium alloys Biodegradability Biodegradation Bone implants Bone surgery Calcium Calcium phosphates Castability Coating Coatings Degradation Fractures Hip Investment casting Magnesium Magnesium base alloys Magnesium sponges Materials science Mechanical properties Polylactic acid Pore size Porosity Resorbable implants Sponges Surgical implants Transplants & implants
title	Processing and coating of open-pored absorbable magnesium-based bone implants
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