Prostaglandin E(2) (PGE(2)) enhances osteoclast formation in mouse macrophage cultures treated with receptor activator of nuclear factor-kappaB ligand (RANKL). The effects of PGE(2) on human osteoclast formation were examined in cultures of CD14(+) cells prepared from human peripheral blood mononuclear cells. CD14(+) cells differentiated into osteoclasts in the presence of RANKL and macrophage colony-stimulating factor. CD14(+) cells expressed EP2 and EP4, but not EP1 or EP3, whereas CD14(+) cell-derived osteoclasts expressed none of the PGE(2) receptors. PGE(2) and PGE(1) alcohol (an EP2/4 agonist) stimulated cAMP production in CD14(+) cells. In contrast to mouse macrophage cultures, PGE(2) and PGE(1) alcohol inhibited RANKL-induced human osteoclast formation in CD14(+) cell cultures. H-89 blocked the inhibitory effect of PGE(2) on human osteoclast formation. These results suggest that the inhibitory effect of PGE(2) on human osteoclast formation is mediated by EP2/EP4 signals. SaOS4/3 cells have been shown to support human osteoclast formation in cocultures with human peripheral blood mononuclear cells in response to PTH. PGE(2) inhibited PTH-induced osteoclast formation in cocultures of SaOS4/3 cells and CD14(+) cells. Conversely, NS398 (a cyclooxygenase 2 inhibitor) enhanced osteoclast formation induced by PTH in the cocultures. The conditioned medium of CD14(+) cells pretreated with PGE(2) inhibited RANKL-induced osteoclast formation not only in human CD14(+) cell cultures, but also in mouse macrophage cultures. These results suggest that PGE(2) inhibits human osteoclast formation through the production of an inhibitory factor(s) for osteoclastogenesis of osteoclast precursors.
The aim of this study was to clarify the effect of attachment on tooth movement produced by a plastic aligner. Closing of a diastema, in which the maxillary right and left central incisors moved bodily, was simulated using a finite element method. Long-term orthodontic movements of the maxillary dentition were simulated by accumulating the initial displacement of teeth produced by elastic deformation of the periodontal ligament. The incisor tipped and rotated just after placement of the aligner irrespective of the attachment. After a sufficiently long time, the incisor was upright and moved bodily in the aligner with attachment, but the incisor remained tipped in the aligner without attachment. It was demonstrated that the attachment was effective for achieving bodily movement.
The purpose of this study was to evaluate the validity and reliability of orthodontic measurements made on digital models created with Hirox digital microscope (HDM). The data sources were plaster dental models from the archives of School of Dental Sciences, Universiti Sains Malaysia. A total of 11 dental models with 396 variables were measured using the plaster dental casts, and Hirox digital models were created. The study inclusion and exclusion criteria were followed. Two investigators (A and B) carried out the measurements of the selected dental casts using a digital caliper (DC) and the HDM. Dental plaster models were scanned using the HDM for the fabrication of the Hirox digital models. The tooth size and arch width were measured by DC and HDM. The validity of the digital measurements for examiners A and B the ICC coefficients were statistically significant (p<0.001), and the values of coefficient were in the range of strong correlation. The ICC coefficient values for inter-examiner A and B were all in the range of strong correlation for both tooth size and arch width variables in which the reliability coefficient values were comparable between digital measurements using HDM and measurements using DC. All ICC coefficient values were statistically significant (p<0.001). The results show that linear measurements of dental casts using a digital microscope are valid and reliable.
In order to study relationship of the hyoid bone and posterior surface of the tongue in prognathism and micrognathia, we focused on the effect of the tongue on the upper airway lumen in 16 patients with Angle's Class II and 51 patients with Angle's Class III, and assessed the position of the hyoid, the depth from the posterior surface of the tongue, from the bottom of the vallecula and from hyoid bone to the posterior pharyngeal wall using lateral cephalograms. We were able to assess significant correlations between the posterior surface of the tongue and hyoid position in Angle's Class III. However, we found no association between them in Angle's Class II. This could be an adaptive feature of the genioglossus in response to hyoid localization to serve a compensatory role to prevent respiratory impairment in micrognathia at risk of apnoea.
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