In conjunction with simulation, they also play an important role in the patient consultation process.” The team handling 3D printing services is led by Anthony Costa, PhD, Assistant Professor for the Department of Neurosurgery and Scientific Director of the Neurosurgery Simulation Core at the Icahn School of Medicine at Mount Sinai. Dr. Costa has developed segmentation tools and computer code to expedite the process of turning radiological data into models appropriate for 3D printing and modeling. Recent prints include skull-base tumors with surrounding vasculature and cranial nerves, spine modeling for the correction of severe scoliosis, and pelvic models for the planning of arthroplasty. More than half a dozen interdisciplinary collaborations have been established between the Medical Modeling Core and Mount Sinai clinical departments, including neurosurgery, orthopaedics, surgery, otolaryngology and cardiology. “We’re unique because we can leverage our technological tools with the expertise of radiology and the printing lab to complete projects on a rapid time scale,” said Dr. Costa. “We’re talking about days as opposed to weeks. Mount Sinai is a large institution with a high volume of cases and our patients will benefit from 3D modeling.” In-house design and production of the 3D models also leads to significant cost savings for Mount Sinai physicians. see this siteFor example, a print that would cost $500 to model at the hospital could cost ten times that through a vendor. official sourceThe Rapid Prototyping Center utilizes four 3D printers as well as a laser cutter to produce patient-specific neuroanatomy for pre-operative planning with exceptionally high resolution.
For the original version including any supplementary images or video, visit https://www.eurekalert.org/pub_releases/2016-12/tmsh-mse120616.php
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