Vestre Stationsvej 15, 1. Odense C, 5000 DenmarkParticle3D is the developer of a patented 3D printing process to produce natural, patient specific, and bioresorbable bone implants that remodel into real living bone. At present, we use our expertise in medical 3D printing to provide natural bone scaffolds made of porous, 3D printed β-tricalcium phosphate for research purposes. The P3D Scaffolds offer a realistic setting for accurate testing of therapies, 3D cell growth, and disease models, that allows you to translate directly from in vitro to in vivo. It is easy to use the P3D Scaffolds to model highly relevant and predictive human biology in vitro. The natural 3D bone environment enables effective 3D cell culturing and creation of organoids that accurately mimics in vivo conditions to get more physiologically relevant results in a shorter time frame. Various cells and pharmaceuticals can be added onto the structures to study how they interact with each other and with the bone within its pores. The 3D printed bone models are a fine combination of natural bone materials and a physical shape that accurately mimics the body’s bone environment. This allows for rapid cell migration and adhesion and secures more realistic testing when drug perfusion is uneven and where bacteria and cancer cells may hide in pores. The surface area onto which cells can attach and drug- and cell therapy candidates can access is maximized due to the scaffold’s interconnected macropores and significant microporosity. The bone-like environment thus secures the most optimal living conditions for cells and that they develop like they would inside the body. Studies and tests in which the new bone models are used are already well under way, e.g. researchers are using the models to examine the regenerative process of bones. The bone scaffolds can be used for both laboratory research (in vitro) and animal trial research (in vivo), thereby securing a consistency of the results across application methods. This secures that the conclusions derived from in vitro experiments accurately account for the events that occur in vivo. P3D Scaffolds are shipped worldwide. P3D Scaffolds are compatible with standard analytical methods. P3D Scaffolds can be customized in terms of size, design, and porosity to your specific needs.
Oslogade 1 Odense , 5000 DenmarkParticle3D is the developer of a patented 3D printing process to produce natural, patient specific, and bioresorbable bone implants that remodel into real living bone. At present, we use our expertise in medical 3D printing to provide natural bone scaffolds made of porous, 3D printed β-tricalcium phosphate for research purposes. The P3D Scaffolds offer a realistic setting for accurate testing of therapies, 3D cell growth, and disease models, that allows you to translate directly from in vitro to in vivo. It is easy to use the P3D Scaffolds to model highly relevant and predictive human biology in vitro. The natural 3D bone environment enables effective 3D cell culturing and creation of organoids that accurately mimics in vivo conditions to get more physiologically relevant results in a shorter time frame. Various cells and pharmaceuticals can be added onto the structures to study how they interact with each other and with the bone within its pores. The 3D printed bone models are a fine combination of natural bone materials and a physical shape that accurately mimics the body’s bone environment. This allows for rapid cell migration and adhesion and secures more realistic testing when drug perfusion is uneven and where bacteria and cancer cells may hide in pores. The surface area onto which cells can attach and drug- and cell therapy candidates can access is maximized due to the scaffold’s interconnected macropores and significant microporosity. The bone-like environment thus secures the most optimal living conditions for cells and that they develop like they would inside the body. Studies and tests in which the new bone models are used are already well under way, e.g. researchers are using the models to examine the regenerative process of bones. The bone scaffolds can be used for both laboratory research (in vitro) and animal trial research (in vivo), thereby securing a consistency of the results across application methods. This secures that the conclusions derived from in vitro experiments accurately account for the events that occur in vivo. P3D Scaffolds are shipped worldwide. P3D Scaffolds are compatible with standard analytical methods. P3D Scaffolds can be customized in terms of size, design, and porosity to your specific needs.
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