3-D Printing Research Creates Model of Equine Neck for Veterinary Training

Anatomy of a horse showing bone structure including neck.
Anatomy of a horse showing bone structure including neck. Wilfred - Wikipedia

Newsdate: August 13, 2020, 11:00 am
Location: GUELPH, Ontario

Practice makes perfect and veterinarians spend countless hours honing their skills in laboratories before graduating and applying that knowledge in the field.

Young woman riding a well-conditioned horse showing neck action in motion.

Young woman riding a well-conditioned horse showing neck action in motion

Research team tested different types of materials and printers in combination to compare which model worked best to simulate real bone in a horse's neck using ultrasound.
© 2017 by Jim Noetzel New window.

Anatomical models of the equine neck, created by 3-D printing, are revolutionizing how veterinary students and graduates will practice the precise placement required in ultrasound-guided injections.

Dr. Alex zur Linden, radiologist and Ontario Veterinary College researcher, teamed up with John Phillips, PhD Engineer and director of 3D printing in the University of Guelph’s Digital Haptic Lab to come up with some exciting models that are the first of their kind in the veterinary field.

“We hope the research to create these models will serve as a resource for the scientific community to make similar models,” says zur Linden who published a paper on the research in 2019 with his graduate student Alexandre Beaulieu, and provided Equine Guelph with a fascinating video interview.

Ultrasound guided injections are a common method of treating osteoarthritis in the equine cervical vertebrae.

Typically veterinary students, grad students, interns, faculty and graduate vets train for this procedure using cadavers which is a race against time itself. Add to that a delay in gaining feedback on the results and the advantages of a 3D printed model become very clear.

Since 2018, zur Linden and his team have been working with Dr. Phillips, testing thirteen different types of materials and printers in combination to compare which model would work best to simulate real bone using ultrasound. Six of the materials proved suitable for simulating bone or joints for use with ultrasound.

The team has succeeded in creating model vertebrae of the equine neck and embedded them in ballistics gel to simulate the soft tissues surrounding the bones. These models will give the veterinary community the opportunity to practice ultrasound guided procedures with instant feedback.

The efficiency is beyond compare and the models are completely reusable! Once the lab practice is complete, the model can be melted down to remove all needle tracks and it is ready to go for the next use. Time will tell how many procedures can be practiced with one model.

“To create one of these models, the design engineer has the most time consuming job,” explains zur Linden. “Once we have a CT scan, a few weeks will be spent using software to segment out the anatomy that is to be printed.  The printing of the model only takes 3 – 6 hours.

Post processing may involve removing supports, removing excess resin and curing to reveal a model that closely mimics bone.  Then the 3D printed models can be embedded in clear ballistics gel to mimic skin and muscle, and degassed to remove all gas bubbles.

There is great potential for this technology to enhance student learning and to improve the quality of care for the patients. CT scans from unique cases could be used to create models that would provide vet students opportunities to practice with an array of abnormalities.

“This project, funded by Equine Guelph, afforded the opportunity to work with so many different printers and materials,” zur Linden says, “I am looking forward to sharing results and collaborating with other researchers, working on more challenging and different models including constructing blood vessels and airways for interventional radiology procedures.”


Press release by Equine Guelph

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