The J5 Digital Anatomy 3D Printer creates biomechanically accurate, highly realistic anatomical models. Bring detailed, patient-specific models to life, enhancing surgical preparation, improving patient outcomes, and accelerating innovation in product design.
Reduce risks with realistic pre-surgical practice models.
Patient-SpecificReduce complications, OR time and shorten hospital stays.
Lab Resources OptimizationMinimise the need for cadavers and animal testing.
Better CommunicationUse anatomical models for more informed consent discussions.
Full Colour CapabilitiesAllows the creation of models with colours, transparencies, textures, and finishes for a realistic look.
Replicate the look, feel and responsiveness of human anatomy.
IntuitiveRemote management software streamlines workflow, and adjusts pathologies.
Compact yet powerfulFacility-friendly and safe to operate, with advanced functions that surpass its footprint.
ReliableEconomical and sophisticated printer, producing realistic anatomical models on demand.
Create ultra-realistic anatomical models with accurate biomechanical performance. The Digital Anatomy advanced materials coupled with sophisticated software simulate the biomechanical properties of tissue and bone, reflecting the reactive qualities of human anatomy during surgery.
BoneMatrixâ„¢ – Create complex material depositing patterns that mimic porous bone structures, fibrotic tissues, and ligaments, providing the most realistic feedback when cutting and drilling.
GelMatrixâ„¢ – With unique GelMatrix material and GelSupportTM depositing patterns, users can design and print extremely complex vascular structures and easily remove internal support material.
TissueMatrixâ„¢ – The softest commercially available 3D printing material creates models that respond like native organ tissue when force is applied.
RadioMatrixâ„¢ – Print radiopaque medical models that exhibit radio-realistic properties under X-Ray and CT. Control the HU values to achieve specific contrast levels to mimic different anatomies.
Biocompatible Materials – Biocompatible Rigid, Transparent (MED610), Biocompatible Opaque (MED615RGDâ„¢ IV), Biocompatible Digital ABS Plusâ„¢ (MED531 and MED515+ ) including Rubber like: Elastico®Clear (FLX934) & Elastico®Black (FLX984)
Rigid Transparent Colours – VeroCyanâ„¢V (RGD845), VeroMagentaâ„¢V (RGD852), VeroYellowâ„¢V (RGD838), VeroUltraâ„¢ClearS (RGD821), VeroUltraâ„¢Black (RGD864), VeroUltraâ„¢White (RGD824), VeroBlackPlusâ„¢ (RGD875), DraftWhite (MED858)
Biocompatible materials:
Biocompatible rigid transparent (MED610)Â
Biocompatible Opaque (MED615RGDâ„¢ IV)
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Rubber like:
Elastico Clear (FLX934)
Flexible clear biocompatible material MED625FLXâ„¢
Improve point-of-care planning, patient satisfaction, and training and education.
Using patient-specific 3D printed medical models for on-demand training and pre-surgical planning can improve patient outcomes by reducing complications and decreasing OR time and length of hospital stay.
Data demonstrates that patient satisfaction improves when 3D medical models are used as part of education for informed consent.
Enhance training and education programs and improve product quality.
Create consistency in new medical device development and testing to enhance product quality, reduce costs and accelerate time to market.
Scale up product demonstrations when training field staff and physicians on a new medical device by providing models that replicate the disease state your device is intended to treat—no storage requirements or ethical concerns associated with animal and cadaver models.
For Doctors & Surgeons Patient-Specific Pre-Planning Models, Moulds and Cutting Guides
Improve clinical outcomes, increase efficiency and reduce waste using models based on real patient anatomy.
Create fit-for-purpose tools, jigs and fixtures to optimize workflows in research labs and the operating theaters. Physicians can produce customised tools for research and clinical care, helping to eliminate manufacturing constraints and makes processes more agile.
Biocompatibility certification and sterilization of materials.
Improve point-of-care planning, patient satisfaction, and training and education.
Using patient-specific 3D printed medical models for on-demand training and pre-surgical planning can improve patient outcomes by reducing complications and decreasing OR time and length of hospital stay.
Data demonstrates that patient satisfaction improves when 3D medical models are used as part of education for informed consent.
Enhance training and education programs and improve product quality.
Create consistency in new medical device development and testing to enhance product quality, reduce costs and accelerate time to market.
Scale up product demonstrations when training field staff and physicians on a new medical device by providing models that replicate the disease state your device is intended to treat—no storage requirements or ethical concerns associated with animal and cadaver models.
For Doctors & Surgeons Patient-Specific Pre-Planning Models, Moulds and Cutting Guides
Improve clinical outcomes, increase efficiency and reduce waste using models based on real patient anatomy.
Create fit-for-purpose tools, jigs and fixtures to optimize workflows in research labs and the operating theaters. Physicians can produce customised tools for research and clinical care, helping to eliminate manufacturing constraints and makes processes more agile.
Biocompatibility certification and sterilization of materials.
GrabCAD Printâ„¢ software simplifies the entire 3D printing process with an intuitive CAD-like application anyone on your team can use. And with features like detailed reporting and remote monitoring, you can easily manage your print jobs from outside the office. Combined with the ability to seamlessly share projects between users, it all adds up to a more streamlined, efficient workflow. Learn More
Find out why hospitals are looking to new planning technologies.
J5 Medijet gives University Hospital of Southern Denmark, Esbjerg new pathway to improve presurgical planning and research.
Our team of application and industry engineers are here to help. We can answer any questions you about range of materials, printing applications, or features of the printer. If we feel there is a more optimal solution that suits your requirements, we will recommend it.
What sets Objective 3D apart from other companies is our daily use of the technology we promote. Our state-of-the-art service bureau houses 12+ different 3D printing technologies, and we print thousands of parts every year, from small tooling aids, patient specific models, and large industrial parts. This gives us a deep understanding of the capabilities and limitations of each solution, so we can provide you with the best possible option.
Objective3D is a leading provider of Additive Manufacturing (AM) solutions in Australia and New Zealand. They offer a range technology solution for thermoplastic and photopolymer from Stratasys, ceramics from Lithoz, as well as Artec 3D Scanners and Materialise AM Software. Supported by the Stratasys Direct Manufacturing Global Network, Objective3D also offers manufacturing on-demand services and is ISO 9001 certified.
AU Phone: +613 9785 2333
NZ Phone: +649 801 0380