• Karl-Heinz Herrmann, Clemens Gärtner, Daniel Güllmar, Martin Krämer, and Jürgen R Reichenbach.
• Medical Physics Group, Institute for Diagnostic and Interventional Radiology I, Center of Radiology, Jena University Hospital, Friedrich-Schiller-University, Philosophenweg 3, Building 5, 07743 Jena, Germany. Electronic address: Karl-Heinz.Herrmann@med.uni-jena.de.
• Med Eng Phys. 2014 Oct 1; 36 (10): 1373-80.

PurposeTo evaluate low budget 3D printing technology to create MRI compatible components.Material And MethodsA 3D printer is used to create customized MRI compatible components, a loop-coil platform and a multipart mouse fixation. The mouse fixation is custom fit for a dedicated coil and facilitates head fixation with bite bar, anesthetic gas supply and biomonitoring sensors. The mouse fixation was tested in a clinical 3T scanner.ResultsAll parts were successfully printed and proved MR compatible. Both design and printing were accomplished within a few days and the final print results were functional with well defined details and accurate dimensions (Δ<0.4mm). MR images of the mouse head clearly showed reduced motion artifacts, ghosting and signal loss when using the fixation.ConclusionsWe have demonstrated that a low budget 3D printer can be used to quickly progress from a concept to a functional device at very low production cost. While 3D printing technology does impose some restrictions on model geometry, additive printing technology can create objects with complex internal structures that can otherwise not be created by using lathe technology. Thus, we consider a 3D printer a valuable asset for MRI research groups.Copyright © 2014 IPEM. Published by Elsevier Ltd. All rights reserved.

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