2015
DOI: 10.1016/j.jcms.2015.10.020
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Custom-made titanium devices as membranes for bone augmentation in implant treatment: Clinical application and the comparison with conventional titanium mesh

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Cited by 109 publications
(124 citation statements)
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“…For example, Sagheb et al reported that CAD/CAM Ti‐mesh exposure occurred in 33% of the augmented sites during the healing period. Sumida et al compared the exposure rate of CAD designed custom‐made Ti‐meshes and commercial Ti‐meshes, mucosal rupture occurs for 7.7% in the custom‐made group and 23.1% in the conventional group, which demonstrated better results for custom‐made group but there was not significant difference between the two group. However, in a most recent research, Ciocca et al also evaluated the outcomes of CAD‐CAM customized titanium mesh used for prosthetically guided bone augmentation and CAD‐CAM technology used for prosthetically guided bone augmentation showed important postoperative morbidity of 66% Ti‐mesh exposure rate.…”
Section: Discussionmentioning
confidence: 99%
“…For example, Sagheb et al reported that CAD/CAM Ti‐mesh exposure occurred in 33% of the augmented sites during the healing period. Sumida et al compared the exposure rate of CAD designed custom‐made Ti‐meshes and commercial Ti‐meshes, mucosal rupture occurs for 7.7% in the custom‐made group and 23.1% in the conventional group, which demonstrated better results for custom‐made group but there was not significant difference between the two group. However, in a most recent research, Ciocca et al also evaluated the outcomes of CAD‐CAM customized titanium mesh used for prosthetically guided bone augmentation and CAD‐CAM technology used for prosthetically guided bone augmentation showed important postoperative morbidity of 66% Ti‐mesh exposure rate.…”
Section: Discussionmentioning
confidence: 99%
“…The titanium mesh exposure is a common complication, with reported exposure rates between 0 and 80% in the international literature [11, 17]. Sumida et al investigated custom-made titanium devices for bone augmentation compared to conventional titanium meshes in 26 patients [15]. Mucosal rupture occurred in a patient in the custom-made group (7.7%) and 3 in the conventional group (23.1%), indicating better results for the individualized mesh, however, neither statistically nor clinically significant.…”
Section: Discussionmentioning
confidence: 99%
“…These conventional TM are designed as planar plates. Therefore, intraoperative manual shaping and bending of the premade TM according to the individual defect is necessary, which is manually challenging and time-consuming [14, 15]. Furthermore, the corners and edges of these cut and bended meshes possibly provoke damages to the gingiva and mesh exposure.…”
Section: Introductionmentioning
confidence: 99%
“…Selective laser melting creates strong parts of fused metal or ceramic powder using a high-power laser beam and is also preferred for building functional prototypes or medical implants such as facial bone or sternal bone replacements. (2, 3) PolyJet technology creates 3D prints through a process of jetting thin layers of liquid photopolymers that are instantly hardened using UV light and can incorporate multiple-materials and colors simultaneously. PolyJet is capable of producing highly complex models with smooth surfaces and thin walls (down to a resolution of 0.016 mm)(4) and is a commonly used technique for the fabrication of flexible, patient-specific anatomical models that combine several different materials.…”
Section: Printing Technologymentioning
confidence: 99%