3D virtual orthognathic planning was done using Dolphin Imaging (Patterson Dental Supply, Winsconsin, USA) by the treating orthodontist based on CBCT, photographs and dental casts taken 1 month before OGS. The laboratory procedures were described in Liao et al. [16 (link)] and planning principles detailed in Liao et al. [24 (link)]. Surgical movements were planned to achieve hard and soft tissue symmetry based on individual diagnosis and clinical examination. The surgical splints were virtually designed and printed with 3D rapid prototyping using Objet30 OrthoDesk (Stratasys Ltd. Minnesota, USA).
Objet30 orthodesk
Manufactured by Stratasys
Sourced in United States
The Objet30 OrthoDesk is a compact 3D printer designed for dental and orthodontic applications. It offers a build volume of 300 x 200 x 150 mm and can print with a variety of photopolymer materials, including rigid and flexible options. The printer features a high-resolution print mode with layer thickness as low as 16 microns, enabling the production of detailed and accurate models.
Automatically generated - may contain errors
Lab products found in correlation
2 protocols using objet30 orthodesk
1
3D Virtual Orthognathic Planning and Surgical Splint Design
2
3D Printing of Dental Models
Check if the same lab product or an alternative is used in the 5 most similar protocols
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The digital master model was then saved in Standard Tessellation Language (STL) file format and was transferred to
each of the 3D printers. Ten models were manufactured for
each printer by using two different printing technologies;
DLP technology (Perfactory Vida, EnvisionTEC Inc., Dearborn,
Michigan, US), and PolyJet technology (Objet30 Orthodesk,
Stratasys Ltd., Eden Prairie, Minn, and Rehovot, Israel) (Figure 1 ). DLP printer used E-Model and PolyJet Printer used VeroDentPlus materials while printing. 20 models were printed in
total. Corresponding numbers were given to the 10 models
in each group. According to the manufacturer’s recommendations, printed DLP models were soaked into isopropyl alcohol for post-process and waited 3 minutes for post-cure.
The models printed with PolyJet printer were cleaned with a
waterjet for 2 minutes and no additional post-cure process
was required for PolyJet. The technical data of 3D printers
are summarized inTable 1 .
each of the 3D printers. Ten models were manufactured for
each printer by using two different printing technologies;
DLP technology (Perfactory Vida, EnvisionTEC Inc., Dearborn,
Michigan, US), and PolyJet technology (Objet30 Orthodesk,
Stratasys Ltd., Eden Prairie, Minn, and Rehovot, Israel) (
total. Corresponding numbers were given to the 10 models
in each group. According to the manufacturer’s recommendations, printed DLP models were soaked into isopropyl alcohol for post-process and waited 3 minutes for post-cure.
The models printed with PolyJet printer were cleaned with a
waterjet for 2 minutes and no additional post-cure process
was required for PolyJet. The technical data of 3D printers
are summarized in
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