@conference{
author = "Paunić, Milovan and Filijović, Marko",
year = "2021",
abstract = "Damaged bone tissue that is not able to meet the required stress criteria and working loads of the
surrounding structures needs to be strengthened or replaced in the shortest possible time frame. Bone defect
repair can be successfully performed using replacement (autologous) bone tissue and titanium fixation plates.
Recently, significant efforts have been made towards new 3D bioprinting technologies in order to overcome the
shortcomings of the previous method. The use of tricalcium phosphate, which can be printed with the
stereolithographic method of 3D printing, makes it possible to create a replacement bone tissue similar to natural
bone. In that case, each printed component perfectly fits the patient, because the generated model was obtained
on the basis of a CT scanner. This brings multiple benefits, which is why this method arouses great interest
among scientists who are trying to optimize the way of repairing and replacing damaged bone tissue",
publisher = "Faculty of Applied Management, Economics and Finance Belgrade",
journal = "International Scientific & Professional Conference MEFkon 2021",
title = "APPLICATION OF 3D TECHNOLOGIES IN THE MANUFACTURE OF PERSONALIZED BONE TISSUES",
url = "https://hdl.handle.net/21.15107/rcub_machinery_6431"
}