Abstract
BackgroundTo evaluate the distribution of lingual foramina (LF) and their correlation with demographic characteristics and mandible width, shape, and bone thickness in Caucasian Italian patients subjected to cone-beam CT (CBCT).MethodsCBCTs were reviewed to assess the number of all LF, midline and lateral LF. We also assessed the relationship of the number of lateral LF with gender and mandibular width, shape, and bone thickness using the Chi Square test. A p value < 0.05 was considered statistically significant.Results Three-hundred patients (180 males; age range: 21–87 years) were included. The highest frequency per patient was of 2 LF (97/300, 32.3%), followed by 3 (81/300, 27%) and 4 (53/300, 17.7%). No LF were observed in 2/300 patients (0.7%), while the highest number was of 8 LF in one patient. The highest frequency of midline LF per person was of 2 LF (57.3%, 172/300), while the highest number per person was 5 LF in one patient (0.3%). The highest frequency of midline LF located above and below the genial tubercle was of 1 in 197/300 patients (65.7%) and in 169/300 patients (56.3%), respectively. Concerning lateral LF, the highest frequencies were of 0 (113/300, 37.7%) and of 1 (112/300, 37.3%). We did not observe any significant difference of the number of midline and lateral LF based on gender (P = .438 and P = .195, respectively) or mandible width (P = .069 and P = .114, respectively). The mandible shape was normal in 188 cases, with facial constriction in 42, lingual constriction in 54, and hour glass constriction in 16. The mean bone thickness was 10.76 mm in the symphysis, 10.92 mm in the right hemiarches, and 10.68 in the left hemiarches. No significant differences in the distribution of LF were observed also based on mandibular shape and bone thickness (both with P > .05).ConclusionsWe have shown the high variability of number and anatomic distribution of LF in an Italian group of patients subjected to CBCT without reporting any association with gender and mandible width, shape, and bone thickness.
Highlights
To evaluate the distribution of lingual foramina (LF) and their correlation with demographic characteristics and mandible width, shape, and bone thickness in Caucasian Italian patients subjected to cone-beam computed tomography (CT) (CBCT )
The sublingual artery, which is a Taschieri et al BMC Medical Imaging (2022) 22:12 branch of the lingual artery, travels along the superior face of the mylohyoid muscle and through the LF and anastomoses with central inferior alveolar vessels, while the submental artery, which is a branch of the facial artery, travels along the inferior face of the mylohyoid muscle and penetrates the mental region to anastomose with branches of the anterior alveolar artery [2, 3]
The aim our study was to evaluate the number and position of LF and to evaluate if correlation exists with demographic characteristics and mandible width, shape, and bone thickness in a sample made of Caucasian Italian patients subjected to cone-beam CT (CBCT)
Summary
To evaluate the distribution of lingual foramina (LF) and their correlation with demographic characteristics and mandible width, shape, and bone thickness in Caucasian Italian patients subjected to cone-beam CT (CBCT ). The proof of this misconception is the non-negligible number of massive bleeding accidents having been reported after implant interventions in this region [4,5,6,7,8] Such cases, even though not so frequent as compared to the total number of implants placed, could be a significant life hazard. The aim our study was to evaluate the number and position of LF and to evaluate if correlation exists with demographic characteristics and mandible width, shape, and bone thickness in a sample made of Caucasian Italian patients subjected to cone-beam CT (CBCT)
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