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Resource Guide

New data confirms biomechanical accuracy of J750 Digital Anatomy™ 3D printed vascular models.

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A compact platform that enables the creation of both visual and functional anatomical models with high biomechanical precision and realism.To create realistic synthetic vascular models for medical device development, physician training, surgical demonstration, and procedural planning, arteries must replicate how native tissue expands and contracts as pulsatile pressures are applied. Mimicking arterial distensibility, or an artery’s ability to expand in response to an increase in blood pressure, is a key biomechanical attribute.

The J750 Digital Anatomy™ 3D printer technology gives clinicians and engineers the power to create the most lifelike anatomical models available. More than 100 clinically validated preset anatomy options—that vary in softness, flexibility, and density—mimic human tissue like never before.

In 2020, scientists and researchers at the Jacobs Institute performed the first study of its kind to evaluate the characteristics of J750 Digital Anatomy 3D printed vascular models and how accurately they replicate vessel behavior under hemodynamic pressure.

Vessel walls were formed using varying preset ratios of flexible Agilus™ material and rigid VeroClear™ material.

Vessel walls were formed using varying preset ratios of flexible Agilus™ material and rigid VeroClear™ material.

A pulsatile pump was used to circulate water at body temperature

A pulsatile pump was used to circulate water at body temperature through the printed model. Mean arterial pressure and pulse pressure were monitored and adjusted to match physiological values.

Systolic and diastolic distensibility measurements were acquired with Intravascular Ultrasound (IVUS). Distensibility was then calculated based on these measurements and compared to clinical values.

The results.

The 3D printed arteries demonstrated accurate physiological distensibility values similar to human vessels

the result
The conclusion

The conclusion.

Arteries are dynamic structures that expand and contract as a result of internal blood pressures. Replicating the movement of arteries is an important part of realistic treatment planning, education, and product testing. The J750 Digital Anatomy printer, thereby, provides value by enabling accurate simulation.

This study suggests that the Digital Anatomy printer and its unique material combinations can create arterial models that are biomechanically similar to human vessels.

In addition, this study demonstrates that it is both feasible and appropriate to characterize distensibility in vascular models using IVUS.

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