Journal
JOURNAL OF FUNCTIONAL BIOMATERIALS
Volume 13, Issue 4, Pages -Publisher
MDPI
DOI: 10.3390/jfb13040292
Keywords
bone harvesting; computer assisted surgery; accuracy; predictability; cone beam computed tomography
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This study evaluates the accuracy and technical predictability of using a computer-guided procedure and a patient-specific cutting guide to harvest bone from the external oblique ridge. It shows that fitting the guide on the closest tooth based on both radiological and intra-oral scan data can improve accuracy and reduce variability.
This study assesses the accuracy and technical predictability of a computer-guided procedure for harvesting bone from the external oblique ridge using a patient-specific cutting guide. Twenty-two patients needing bone augmentation for implant placement were subjected to mandibular osteotomy employing a case-specific stereolithographic surgical guide generated through computer aided design. Differences between planned and real cut planes were measured comparing pre- and post-operative Cone Beam Computed Tomography images of the donor site according to six validated angular and displacement indexes. Accuracy and technical predictability were assessed for 119 osteotomy planes over the study population. Three different guide fitting approaches were compared. An average root-mean-square discrepancy of 0.52 (0.30-0.97) mm was detected. The accuracy of apical and medial planes was higher than the mesial and distal planes due to occasional antero-posterior guide shift. Fitting the guide with an extra reference point on the closest tooth performed better than using only the bone surface, with two indexes significantly lower and less disperse. The study showed that the surgical plan was actualized with a 1 mm safety margin, allowing effective nerve preservation and reducing technical variability. When possible, surgical guide design should allow fitting on the closest tooth based on both radiological and/or intra-oral scan data.
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