The all-in-one medical 3D printer
The new standard for medical planning, education, and testing.
The Stratasys J5 MediJet™ sets a new standard for medical modeling. With multiple materials and multi-color capabilities, academic medical centers, hospitals and medical device companies can create brilliantly vivid anatomical models and drilling and cutting guides that are sterilizable and biocompatible – all in one platform.

Stratasys J5 MediJet Features
Multiple Medical Applications
- Patient-specific anatomical models for pre-surgical planning
- Precisely accurate anatomy for training and education
- Surgical guides and tooling
- Medical device product development
Small footprint, big impact
Print exact pathologies on-demand and train physicians, students and medical device field staff from anywhere. MediJet™ is economical and compact enough for small lab spaces.
Office Friendly 3D Printers
Get all the benefits of an in-house engineering-grade printer without the hassles thanks to a small footprint and silent and odor-free operation.
Easy Workflow
Access a full ecosystem of workflow tools to streamline design, including cloud-based service, print-to-click, on-demand training and an online community.
High Reliability
Get a fully functional, highly reliable printer that requires little maintenance.
Functional surgical guides and tooling
Create drilling and cutting guides* that are sterilizable and biocompatible
* with approved 3rd party 510k cleared segmentation software
Stratasys J5 MediJet Benefits

For Hospitals & Academic Medical Centers
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.

For Medical Device Companies
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, Molds 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 customized tools for research and clinical care, helping to eliminate manufacturing constraints and makes processes more agile.
Biocompatibility certification and sterilization of materials.

For certification
510k cleared for clinical diagnostic use with leading segmentation software companies
- Biocompatibility certification
- ISO 10993-1:2018 for limited contact to tissue and bone and permanent contact to intact skin
- ISO 18562-1:2017 for breathing gas pathways in healthcare applications
- Sterilization methods
- Steam, Gamma and EtO for MED610 and MED615RGD
- Steam, Gamma, and EtO for Rigid Transparent family
- ISO 13485 Certified (material and hardware manufacturing sites)
Materials available for the Stratasys J5 MediJet
Stratasys J5 MediJet Specifications
Feature | Specification |
---|---|
Model Materials | Biocompatible Opaque (MED615RGD™ IV) DraftGrey™ Elastico™ Clear Vero™ ContactClear DraftWhite (MED857) Biocompatible Digital ABS Plus |
Supported Sterilization Processes | Steam (4 minutes at 132 °C), Gamma (25 – 50 kGy), EtO (specifications available upon request) |
Digital Model Materials | Unlimited number of composite materials including over 500,000 colours |
Support Materials | SUP710™ |
Build Tray | Printing area: 1,174cm2 Max Part Size: Up to 140 x 200 x 190mm (5.51 x 7.87 x 7.48 in.) |
Network Connectivity | LAN – TCP/IP |
System Size and Weight | 651 x 661 x 1511mm (25.63 x 26.02 x 59.49 in.); 228 kg (503 lbs.) |
Operating Conditions | Temperature 18 – 25 °C (64 – 77 °F); relative humidity 30-70% (non-condensing) |
Power Requirements | 100–120 VAC, 50–60 Hz, 6A, 1 phase 220–240 VAC, 50–60 Hz, 3A, 1 phase |
Regulatory Compliance | CE, FCC, EAC |
Software | GrabCAD Print |
Layer Thickness | Horizontal build layers down to 18 microns (0.0007 in.) |
Build Modes | High Quality Speed (HQS) – 18.75μm |
Accuracy | Deviation from STL dimensions with rigid materials,based on size: under 100 mm – ±150μ; above 100 mm – ±0.15% of part length.* |
*true for 67% (1 sigma) models printed for future information can be found in the spec sheet
Industries
Stratasys 3D Printers are used in a wide variety of industry applications
Reverse Engineering
- Product design
- Customization
- 3D documentation
Industrial design and manufacturing
- Reverse engineering
- Quality control
- Rapid prototyping
- Aerospace
Medical and Life Sciences
- Orthopedics
- Prosthetics
- Plastic surgery
- Custom wheelchairs
Science and education
- Research
- Training
- Online museums
Art and design
- Heritage preservation
- Architecture
- CGI
- Fashion
Example Parts
Medical parts created with a Stratasys J5 MediJet 3D Printer. Pick on the images below to enlarge:
Advantages of PolyJet Technology
Advantages of parts built with a Stratasys PolyJet Machine
Realistic Parts
Stratasys PolyJet 3D Printers are based on proven technology, which creates precise prototypes that set the standard for finished-product realism.
Their fine resolution makes complex shapes, intricate details and smooth surfaces possible.
Precise Models
PolyJet 3D Printing works by jetting layers of liquid photopolymer onto a build tray and instantly curing them with UV light.
The fine layers build up to create a precise 3D model or prototype. Models are ready to handle right out of the 3D printer, with no post-curing needed.