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This 10 speed time-lapse video shows benchtop testing of endovascular wires and catheters in a 3D printed model prior to a complex treatment for multiple splenic artery aneurysms. The full case report was published in the journal Diagnostic and Interventional Radiology here: http://www.dirjournal.org/eng/ozet/12... The 3D printed models used in this study can be DOWNLOADED FOR FREE here. Hollow model: goo.gl/QQ6wEX Lumen model: http://goo.gl/TMMMMX An article describing the background of this remarkable procedure is available here: goo.gl/rzQ4Jy Music Credit: "Improvisation on Sunday" by Alex Beroza This fascinating video presented by embodi3D.com shows viewers the groundbreaking use of a 3D printed vascular medical model for pre-surgical planning. This is a pioneering use of medical 3D printing. At 10x speed, this video demonstrates Dr. Mike’s pioneering use of a 3D printed model of a splenic artery containing three aneurysms, two of which required medical intervention. This video shows a procedure that was used in real life to save a woman and her spleen! The procedure using a translucent splenic artery produced by 3D printing, makes clear why this type of high-risk procedure is not common. As can be seen, each aneurysm in this video was threatened by rupturing at some point due to the guidewire or catheter not navigating through the artery properly. By using this technique, Dr. Mike made the necessary preparations for successfully repairing the splenic artery aneurysms in this case by experimenting with different brands and calibers for guidewires and catheters on each aneurysm without the risk of harming the patient. Since this type of intervention isn’t typically attempted, the endovascular materials used in the demonstration and surgery were originally manufactured for intracranial vascular interventions! The video shows how critical events were averted from nearly the beginning as complications arose starting with the first aneurysm, which was the simplest of the three. By using a 3D printed medical model of the patient’s splenic artery, Dr. Mike conducted multiple trials to find the guide catheter by Navien was the best for passing the first aneurysm. Dr. Mike made it to the second aneurysm with the Marksman microcatheter, but difficulty came at this point, too. Again, this obstacle was overcome with careful testing of different options. Using a 16-gauge microwire by Fathom, the second aneurysm was handled successfully allowing access to the third. At the third aneurysm, a Neuroform stent was used to aid in the successful deployment of an aneurysm-repairing coil! This incredible undertaking shattered the paradox of only being able to save the person’s life OR the spleen as Dr. Mike used a 3D printable model created with free software to save both for this patient. This video recreates the innovative use of a 3D printable model of the splenic artery to plan a successful outcome for an aneurysm repair procedure deemed impossible. Highly detailed 3D medical models like the one used in this video can be obtained from real CT scans or anonymized scans available to the public using free software and tutorial videos offered by Dr. Mike on embodi3D.com.