Add to ORKGThe suitability of a newly developed powder-binder system using a tetracalcium phosphate / beta-tricalcium phosphate powder mixture and an aqueous citric acid binder solution for three-dimensional printing was studied. Various printed devices with intersecting channels and filigree structures are available with this material combination. Two post-processing methods, a sintering and a polymer infiltration process, were established to substantially improve the mechanical properties of printed devices. Preliminary investigations on relevant application properties including sterilizability and in vitro cytocompatibility testing demonstrate the potential of the new powder-binder system to fabricate patient specific bone substitutes and implant m...
In most cases, bone injuries heal without complications, however, there is an increasing number of i...
Critical-size bone defects are a common clinical problem. The golden standard to treat these defects...
Bone tissue engineering has gained much attention in recent years. A key requirement in this field ...
Item does not contain fulltextHydroxyapatite (HAP) and tricalcium phosphate (TCP) are two very commo...
Die vorliegende Arbeit hatte die Herstellung phasenreiner ß-Tricalciumphosphat (ß-TCP) - Implantate ...
In this study, we describe the additive manufacturing of porous three-dimensionally (3D) printed cer...
Rapid Prototyping (RP) techniques facilitate the manufacturing of components with complex geometry, ...
Powder-bed 3D printing (3DP) is a versatile additive manufacturing technique that uses ink binder de...
Bone tissue engineered 3-D constructs customized to patient-specific needs are emerging as attractiv...
Recent developments in three-dimensional (3D) printing technology offer immense potential in fabrica...
A key requirement for three-dimensional printing (3-DP) at room temperature of medical implants depe...
Three-dimensional printing has opened up new perspectives in bone substitution, facilitating the pro...
In the last two decades, additive manufacturing (AM) has made significant progress towards the fabri...
Hope is that tissue engineering will provide a solution to meet the growing needs for bone substitut...
Critical-size bone defects are a common clinical problem. The golden standard to treat these defects...
In most cases, bone injuries heal without complications, however, there is an increasing number of i...
Critical-size bone defects are a common clinical problem. The golden standard to treat these defects...
Bone tissue engineering has gained much attention in recent years. A key requirement in this field ...
Item does not contain fulltextHydroxyapatite (HAP) and tricalcium phosphate (TCP) are two very commo...
Die vorliegende Arbeit hatte die Herstellung phasenreiner ß-Tricalciumphosphat (ß-TCP) - Implantate ...
In this study, we describe the additive manufacturing of porous three-dimensionally (3D) printed cer...
Rapid Prototyping (RP) techniques facilitate the manufacturing of components with complex geometry, ...
Powder-bed 3D printing (3DP) is a versatile additive manufacturing technique that uses ink binder de...
Bone tissue engineered 3-D constructs customized to patient-specific needs are emerging as attractiv...
Recent developments in three-dimensional (3D) printing technology offer immense potential in fabrica...
A key requirement for three-dimensional printing (3-DP) at room temperature of medical implants depe...
Three-dimensional printing has opened up new perspectives in bone substitution, facilitating the pro...
In the last two decades, additive manufacturing (AM) has made significant progress towards the fabri...
Hope is that tissue engineering will provide a solution to meet the growing needs for bone substitut...
Critical-size bone defects are a common clinical problem. The golden standard to treat these defects...
In most cases, bone injuries heal without complications, however, there is an increasing number of i...
Critical-size bone defects are a common clinical problem. The golden standard to treat these defects...
Bone tissue engineering has gained much attention in recent years. A key requirement in this field ...