J5 Digital Anatomy™ 3D Printer

J5 Digital Anatomy™ Printer

Benefits

Point-of-Care: Reduce risks with realistic pre-surgical practice models.
Patient-Specific: Reduces complications, OR time and shorten hospital stays.
Lab Resource Optimization: Minimize the need for cadavers and animal testing.
Better Communication: Use anatomical models for more informed consent discussions.
Full Color Capabilities: Allows the creation of models with colors, transparencies, textures,, and finishes for a realistic look.

Download the brochure

Features

Biomechanically accurate: Replicate the look, feel and responsiveness of human anatomy.
Intuitive: Remote management software streamlines workflow, and adjusts pathologies.
Compact yet powerful: Facility-friendly and safe to operate, with advanced functions that surpass its footprint.
Reliable: Economical and sophisticated printer, producing realistic anatomical models on demand.

PolyJet Technology

Materials

View All Materials

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.

BoneMatrix™

Create complex material depositing patterns that mimic porous bone structures, fibrotic tissues, and ligaments, providing the most realistic feedback when cutting and drilling.

Learn More

GelMatrix™

With unique GelMatrix material and GelSupportTM depositing patterns, users can design and print extremely complex vascular structures and easily remove internal support material.

Learn More

TissueMatrix™

The softest commercially available 3D printing material creates models that respond like native organ tissue when force is applied.

Learn More

RadioMatrix™

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.

Learn More

Create complex material depositing patterns that mimic porous bone structures, fibrotic tissues, and ligaments, providing the most realistic feedback when cutting and drilling.

Learn More

With unique GelMatrix material and GelSupportTM depositing patterns, users can design and print extremely complex vascular structures and easily remove internal support material.

Learn More

The softest commercially available 3D printing material creates models that respond like native organ tissue when force is applied.

Learn More

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.

Learn More

View All Materials

Typical Applications

Point of Care

Enhance surgical planning and training with patient-specific anatomical models. Create ultra-realistic anatomies that behave and respond like the real thing. Utilize anatomical models to help reduce OR time, costs, and minimize risks.

Medical Device Manufacturing

Save time and money by accelerating your product's journey from inception to market. Design repeatable, predictable test conditions for device development. Have the confidence of reliable part availability when you need it.

Medical Education and Research

A cost-effective platform enables students to engage with interactive teaching aids, master surgical skills. Design repeatable, predictable test conditions and access biomechanical specimens, even for rare pathologies.

Enhance surgical planning and training with patient-specific anatomical models. Create ultra-realistic anatomies that behave and respond like the real thing. Utilize anatomical models to help reduce OR time, costs, and minimize risks.

Save time and money by accelerating your product's journey from inception to market. Design repeatable, predictable test conditions for device development. Have the confidence of reliable part availability when you need it.

A cost-effective platform enables students to engage with interactive teaching aids, master surgical skills. Design repeatable, predictable test conditions and access biomechanical specimens, even for rare pathologies.

Printer Comparison

Description
Tray area
Max materials (printed simultaneously)
Brochure

J5 Digital Anatomy™ Printer

Description A compact platform enables the creation of both visual and functional anatomical models with high biomechanical precision and realism - is now within reach.
Tray area Up to 1,174 cm²
Max materials (printed simultaneously) 5
Brochure Download brochure

J5 MediJet®

Description The cost effective, compact, medical modeling printer. Multi-material and multicolor capabilities allow you to create brilliantly vivid anatomical models that are sterilizable and biocompatible.
Tray area Up to 1,174 cm2
Max materials (printed simultaneously) 5
Brochure Download brochure

J850™ Digital Anatomy™

Description The most advanced medical modeling printer gives you the power to create biomechanically accurate anatomical models, as well as radio-realistic phantoms and models.
Tray area 1,911cm2
Max materials (printed simultaneously) 7
Brochure Download brochure

Speak with an Expert to Discover the Full Potential of the J5 Digital Anatomy Printer

Talk to an Expert

Customer Case Studies

All Customer Success Stories

Explore Stratasys case studies showcasing advanced technology and capabilities that ensure you achieve lifelike anatomical models in your practice.

Exploring the protentional of 3D printing in the medical

Italy’s 3D4Med Lab Investigates Benefits for Medical Education and Pre-Surgical.

The potential for 3D printing synthetic myocardium

Biomedical tests confirm the potential for 3D printing synthetic myocardium.

Jacobs Institute pioneers 3D printing solutions

Jacobs Institute shapes the future of vascular health with the help of Stratasys medical modeling.

Planning tumor surgery with 3D printing

Nicklaus Children's Hospital utilizes 3D printing and other technologies to save a young patient’s life.

Italy’s 3D4Med Lab Investigates Benefits for Medical Education and Pre-Surgical.

Biomedical tests confirm the potential for 3D printing synthetic myocardium.

Jacobs Institute shapes the future of vascular health with the help of Stratasys medical modeling.

Nicklaus Children's Hospital utilizes 3D printing and other technologies to save a young patient’s life.

All Customer Success Stories

GrabCAD™ Digital Anatomy Software

Create Anatomical Models with Ease

Digital Anatomy Printer software lets you create realistic 3D-printed anatomical models with a few clicks. With over 300 validated anatomy presets and a variety of materials, colors, and textures, you can mimic disease states and physiological factors with unmatched accuracy. Experience the future of medical with GrabCAD™ Digital Anatomy Software.

Learn More