The purpose of the present study was to determine the location of the mental foramen (MF) based on soft- and hard-tissue landmarks, to facilitate prediction of the location of this structure during facial and dental surgery. Forty-two hemispheres of 21 adult cadavers (16 men and 5 women; aged 30-75 years) were dissected to expose the MF. The locations of the MFs were evaluated with direct and photographic measurements. Most of the MFs presented a single foramen (95%), except for only 2 cases with double foramina (5%). The MFs localized 23.38 +/- 2.00 mm inferior and 3.55 +/- 1.70 mm medial to the cheilion in the front view while 23.59 +/- 2.11 mm inferior and 7.19 +/- 3.03 mm posterior to the cheilion in the lateral view. Based on the hard-tissue landmarks, we found that most of the MFs localized inferior the second premolar in most of the cases (73.8%), and the MFs localized 23.34 +/- 2.39 mm below the cusp tip of the second premolar, 16.56 +/- 2.53 mm below the inferior alveoli, and 15.56 +/- 1.74 mm superior the bottom of the mandible. The position of the MF varied from 8.7 degrees medial to 15.5 degrees posterior in the vertical angle with the change of surgical body position from supine to lay-side position. Our results may provide a more detailed information to predict the location of the MFs.
This study aimed to assess the short-term effects of orthodontic pain on quantitative sensory testing (QST) in subjects receiving fixed orthodontic treatment. Twenty patients and 12 healthy volunteers (as controls) participated. All 20 patients had bonded AO self-ligating brackets, with a 0.014 super elastic nickel-titanium arch wire placed in the brackets. Pain [self-reported on a visual analog scale (VAS)], and thermal and mechanical thresholds, were tested at six time points--before (baseline), and 2 h, 24 h, 7 d, 14 d, and 30 d after, force application--in the treatment group. The attached gingiva adjacent to the left upper central incisor (21 gingiva) was hypersensitive to cold stimuli (i.e. increased cold detection thresholds were detected) in the treatment group. The pressure pain thresholds of the left upper central incisor (21) and 21 gingiva were significantly reduced. Our results suggest clear signs of sensitization of the trigeminal nociceptive system up to 1 month after force application and orthodontic pain. Quantitative assessment of somatosensory function may help to provide a better understanding and profiling of the underlying neurobiological mechanisms related to orthodontic pain.
The purpose of the current study was to determine the supraorbital foramen (SOF) and infraorbital foramen (IOF) based on soft tissue landmarks, to facilitate prediction of the location of this structure during facial surgery. Forty-two hemispheres of 21 adult cadavers (16 men and 5 women; aged 30-75 years) were dissected to expose the SOF and IOF. The locations of the SOF and IOF were evaluated with direct and photographic measurements. The data gained were analyzed by statistical method. The SOF localized 23.11 ± 2.35 mm superior and 9.48 ± 3.06 mm lateral to the angulus oculi medialis (AOM). The vertical angle from AOM to SOF was 68.3 (SD, 6.44) degrees. The SOF localized 24.81 (SD, 3.39) mm inferior and 10.89 (SD, 2.78) mm lateral to the AOM on the front view. The vertical angle from AOM to IOF was 66.5 (SD, 5.18) degrees. The SOF localized 11.22 (SD, 2.01) mm inferior and 6.09 (SD, 2.32) mm lateral to the ala of the nose (AL) on the front view. The vertical angle from AL to IOF was 61.7 (SD, 7.61) degrees. These results were a little different from the results of some other populations. We found the IOFs located on the point of one-fifth proportion distant to the ALs along the vertical direction distance from AL to SOF, whereas the AOMs located on the point of three-fifths proportion distant from the AL. Our results may provide more detailed information to predict the location of the SOFs and IOFs and help to prevent nerve or vessel damage.
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