2020
DOI: 10.1097/scs.0000000000006699
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Does an In-House Computer-Aided Design/Computer-Aided Manufacturing Approach Contribute to Accuracy and Time Shortening in Mandibular Reconstruction?

Abstract: Mandibular reconstruction using computer-aided design and computer-assisted manufacturing (CAD/CAM) techniques has received recent attention. This technique has theoretical advantages, although this approach can be commercially used in the limited area of the world. The aim is to describe our experience using in-house CAD/CAM guides and the situations in which CAD/CAM may present benefit in the region where commercial guides are unavailable. The authors developed our In-house CAD/CAM ap… Show more

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Cited by 12 publications
(10 citation statements)
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“…Our slightly higher costs can be explained by two factors: we created and printed repositioning aids for each osteotomy site, and the neomandibula segment was also printed in order to bend the miniplates preoperatively. The total lead time (planning, designing, printing, postprocessing, final preparation with drill sleeves, and sterilization) is two to three days, which agrees very well with the times reported in the literature (13,14) and can be expedited further with growing experience and optimization of the processes. Another essential aspect raised by Numajiri et al is that this form of costeffective planning is done in the surgeon's time and is not outsourced to the osteosynthesis manufacturers and their clinical engineers as is usually the case (28).…”
Section: Discussionsupporting
confidence: 86%
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“…Our slightly higher costs can be explained by two factors: we created and printed repositioning aids for each osteotomy site, and the neomandibula segment was also printed in order to bend the miniplates preoperatively. The total lead time (planning, designing, printing, postprocessing, final preparation with drill sleeves, and sterilization) is two to three days, which agrees very well with the times reported in the literature (13,14) and can be expedited further with growing experience and optimization of the processes. Another essential aspect raised by Numajiri et al is that this form of costeffective planning is done in the surgeon's time and is not outsourced to the osteosynthesis manufacturers and their clinical engineers as is usually the case (28).…”
Section: Discussionsupporting
confidence: 86%
“…The reason is again the heterogeneity of parameters. The majority of studies compared the preoperative virtual plan to the postoperative situation by measuring the fibula segment lengths (21,(29)(30)(31), point-to-point distances and angles (3,13,14), intercondylar distance (32), or intercoronoid distance (21) or by comparing interfragmentary gap distances (33). Numajiri et al analyzed an algorithm for the production of low-cost cutting guides designed and printed inhouse (28).…”
Section: Discussionmentioning
confidence: 99%
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“…For example, CAD/CAM surgery usually requires a starting investment of thousands of dollars for the initial purchase cost of 3D printers. 6,7 Operators who are not familiar with computer use and who lack experienced engineer support may require time to learn virtual planning and design, hampering accurate virtual planning or reproduction on a 3D printer. In addition, image storage and processing formats for CT data differ among hospitals and CT data formats do not always meet the requirements of the free planning software.…”
Section: Discussionmentioning
confidence: 99%