@masterthesis{Kim, type = {Bachelor Thesis}, author = {Kim, Wooyong}, title = {3D bioprinting of cartilage tissue: Current advances and challenges in tissue engineering}, url = {http://nbn-resolving.de/urn:nbn:de:hbz:1383-opus4-15373}, school = {Hochschule Rhein-Waal}, pages = {92}, abstract = {As industrial technologies develop, some techniques were adopted and applied in medical fields for treatment improvement. Among them, 3D bioprinting is regarded as a rising and trending technology in the tissue engineering area. This is because not only does it offer patients customized organs or tissues, but also it can lower animal test dependency on drug testing. This paper is mainly focused on the use of 3D printing as a cartilage tissue fabrication for transplantation. In the beginning, general information and background knowledge concerning cartilage and bioprinting approaches were addressed. Subsequently, current research results from eight research teams related to cartilage tissue printing and grafting were introduced. Then the reports were classified and sorted into several groups to analyze and evaluate various methods' properties, advantages, and disadvantages. After that, some classic and traditional ways to produce artificial tissues without 3D bioprinting techniques were described to prove the strength of the novel tissue engineering technology. In the end, several side points, such as limitations, 3D bioprinting usages in fields other than tissue transplantation, market value, and outlook of bioprinting, were discussed. Information and sources were retrieved using Google and PubMed database search engines under specific inclusion and exclusion criteria through a PCC concept. Although the 3D bioprinting technique is still in development processes, it has a high potential to be a game-changing approach in the medical and pharmaceutical fields after commercialization in the future.}, language = {en} }