Our Products

We use our unique technology and expertise within medical 3D printing
to provide porous ceramic 3D structures for bone research and reconstruction.

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Tissue scaffolds are cell growth support structures composed of biocompatible materials for cell attachment which are widely used in research areas such as tissue engineering, guided tissue generation, regenerative medicine, and stem- and cancer cell research.

Our uniquely lifelike bone environments present an ideal solution for studying bone disease mechanisms or test new treatments by applying new drug or cell therapy candidates to the cellularized structures.

Bring natural bone environments to the lab

Enhance your research with:

  • Porous β-TCP bone-like 3D structure
  • Directly translate your research from in-vitro to in-vivo
  • Realistic setting for testing of therapies and disease models

Contact us if you want to know more about our specially designed solid support matrices.

 

P3D Research Line ― P3D Scaffolds

P3D Scaffolds are lifelike bone environments that yield accurate and reliable research models and cell growth support structures. The models provide an optimal, realistic setting for studying disease mechanisms and testing new treatments when applying new drug or cell therapy candidates to the 3D structures.

P3D Scaffolds have a unique bone-like porous structure made of 3D printed beta-tricalcium phosphate. This bone-like environment secures the most optimal living conditions for the cells and that they develop like they would inside the body.

The bone models thus offer an opportunity to better understand complex biology in a physiologically relevant context. Moreover, the models 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.

The P3D Scaffolds have applications in research areas such as tissue engineering, disease modeling, regenerative medicine, drug screening, and stem- and cancer cell research.

Contact us if you want to know more about our specially designed solid support matrices.

 

P3D Licenses

Particle3D is founded upon a widely applicable and IP protected technology that has the potential to be applied to many areas and industries beyond medicine — including the automotive, chemical, agricultural and aerospace industries.

As the powder particles can be derived from any material, the technology has many potential usages, including for the creation of:

  • Metal powders for circuitry, electronics and metallic spare parts.
  • Proteins, carbohydrates and pharmaceutics for agricultural and medical use.
  • Graphite and other powders containing inorganic solid carbon for highly customized aerospace use.

Contact us for more information on how to optimize your business by making use of our IP licenses and expertise, or learn more more here.

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P3D Bone

P3D Bone PSI is a 3D printed patient specific bone implant based on the patient’s own CT/MR scan.
The fully customized implant enables simple and short procedure times, low risk of post-surgical complications and secures optimal aesthetic and functional outcomes.

Our implants are made from a degradable bio-ink of tricalcium phosphate and fatty acids which are natural bodily components. This allows implants to remodel over time and become natural living bone.

The implants’  bone-like internal porosities and cavities allow for the creation of channels for blood vessels and nerves within the implants. These channels are critical for bone regeneration and result in a strong ingrowth of bone and fast recovery.

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P3D Bone

P3D Bone PSI is a natural, 3D printed, and patient specific bone implant based on the patient’s own CT/MRI scan.
The fully customized implant enables simple and short procedure times, low risk of post-surgical complications and secures optimal aesthetic and functional outcomes.

Our implants are made from a resorbable bio-ink of pure beta-tricalcium phosphate. This allows for the implants to reabsorb, and remodel over time to become real living bone.

P3D Bone implants have a uniquely bone-like internal architecture that contains interconnected micro- and macro porosities. This structure offers channels that bone cells can to grow into and maximizes cell growth sites. Furthermore, it allows blood vessels and nerves to access the entire implant. This ensures effective bone regeneration with a strong ingrowth of bone and results in fast recovery.

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P3D Bone with Additives

P3D Bone implant with internal porosities on black background

Our P3D Bone can be designed to deliver a range of additives such as growth factors, antibiotics, and chemotherapy with wide ranging benefits for patients.

The 3D printed bone implant can release one or more additives over a prolonged period of time as the resorption speed and drug release rate can be controlled by varying the fatty acid tail length.

This allows for a local long-term controlled drug release and thereby a more effective way of dosing medication which reduces the amount of the drug needed. This helps contain costs, reduces the development of resistant bacteria and benefits patients, as lower doses are less harmful to the liver
and kidneys that metabolize the drug.

Please contact us for collaboration or read more about the results in the peer-reviewed paper: Jensen, M. B. et al. (2018). “Composites of fatty acids and ceramic powders are versatile biomaterials for personalized implants and controlled release of pharmaceuticals.” Bioprinting 10.