The use of patient-specific 3D printed medical models for pre-surgical planning improves patient outcomes by reducing complications, decreasing operation time and length of hospital stays. Patient understanding, consent and satisfaction have also been shown to improve with the use of 3D medical models.
Print patient-specific models on demand for education programs. Scale up product demonstrations when training field staff and physicians on a new medical device.
Create consistency in testing to enhance product quality, reduce costs and accelerate time to market.
Use patient-specific 3D printed medical models for pre-surgical planning to help improve patient outcomes, patient understanding and consent.
Print exact pathology on-demand and train physicians, students and medical device field staff anywhere.
Create drilling and cutting guides* that are sterilizable and biocompatible.
*With approved 3rd party 510k cleared segmentation software.
Enable clinically relevant benchtop testing and create consistency by 3D printing exact anatomy to use when testing medical devices.
Rigid Ivory, sterilizable, biocompatible material medically approved for bodily contact.
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Gel-like support material specially designed to uphold overhangs and complicated geometries
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Opaque, white, low-cost model material, which aims to lower the cost of single material applications and bulk colour models.
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Transparent flexible material with Shore A value of 45, with a superior tear-resistant and elongation.
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Water soluble support for fast, hands-free removal with standard or countertop dishwasher or by submerging in a vessel filled with regular tap water (preferred solution for delicate and intricate parts with internal cavities). Reinforcement - no grid. Suitable for use with L2S™ powder for a simple solution to wastewater disposal.
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Biocompatible Digital ABS Plus is suitable for parts that require PolyJet™ technology’s highest possible impact resistance, shock absorption, and biocompatibility.
Learn MoreIf you’re an academic medical centre, hospital or medical device company, we’ve got a medical modelling solution for you. Check out our medical modelling options below to determine what printer will be the best fit for your medical applications.
Multi-material and multicolor capabilities allow you to create brilliantly vivid anatomical models and drilling and cutting guides* that are sterilizable and biocompatible, with a certified system — all on one platform.
*with approved 3rd party 510k cleared segmentation software.
With multiple materials and multicolor capabilities, academic medical centres, hospitals, and medical device companies can create brilliantly vivid pre-surgical planning models, education and training models, medical device development models and drilling and cutting guides* that are sterilizable and biocompatible.
• 510(k) cleared with leading segmentation software companies
• ISO 13485 Certified
Service multiple departments and create more medical models with less handling — all within a small footprint. Plus, with a lower up-front investment and smaller footprint, MediJet™ is economical and compact enough for small lab spaces.
30% lower cost per part compared to outsourcing.
30% faster print time than comparable printing solutions**.
Brilliantly vivid, multi-material and multicolor capabilities.
Find out how 3D printing is helping to revolutionise pre-surgical planning,education and training programs and medical device development.
References:
1. Yang, T., Tan, T., Yang, J., Pan, J., Hu, C., Li, J., & Zou, Y. (2018). The impact of using three-dimensional printed liver models for patient education. The Journal of international medical research, 46(4), 1570–1578. https://doi.org/10.1177/0300060518755267
2. Diment, L. E., Thompson, M. S., & Bergmann, J. (2017). Clinical efficacy and effectiveness of 3D printing: a systematic review. BMJ open, 7(12), e016891. https://doi.org/10.1136/bmjopen-2017-016891
3. Kim, P. S., Choi, C. H., Han, I. H., Lee, J. H., Choi, H. J., & Lee, J. I. (2019). Obtaining Informed Consent Using Patient Specific 3D Printing Cerebral Aneurysm Model. Journal of Korean Neurosurgical Society, 62(4), 398–404. https://doi.org/10.3340/jkns.2019.0092
**As compared to six types of anatomical models printed with Formlabs, Projet 3600, Projet 6000 and Mimaki