腭骨

è ɡǔ
  • palatine bone;jawbone
腭骨腭骨
  1. 阻生智齿也可以根据他们是否完全被腭骨包裹分类。

    Impacted wisdom teeth may also be categorized on whether they are still completely encased in the jawbone .

  2. 螺旋CT用于测量腭骨及上下颌牙槽骨不同部位骨密度的比较研究

    Study on Bone Density in Different Parts of the Palate and Alveolar Using Spiral Computed Tomography

  3. 结论借助螺旋CT扫描技术和ANSYS有限元分析软件,建立上颌腭骨的有限元模型是切实可行的。

    Conclusion It is feasible to construct the three dimensional finite element model of palatal implants in palate by using Spiral CT scan technique and ANSYS software .

  4. 千真万确,我是把腭骨受伤的问题当作个人问题的;

    Damn right , I take that broken jaw personal ;

  5. “那个上尉真的打伤了他的腭骨吗?”

    " Did that Captain really break his jaw ?"

  6. 年龄、腭骨厚度及腭骨密度间无显著相关性。

    Age , palatal bone thickness and palatal bone mineral density had no significant correlation .

  7. 他感到他那上了钢丝的腭骨阵阵作痛,他欢迎这种疼痛,因为这种疼痛可以促使他保持警惕。

    He felt the ache in his wired jaw and welcomed the pain , it would keep him alert .

  8. 他接着说,并把指甲掐进他的手心,磨着牙齿,为的是制止腭骨的颤动。

    He continued , crushing his nails into his palms , and grinding his teeth to subdue the maxillary convulsions .

  9. 腭骨外侧缝牵张成骨关闭硬腭裂的长期效果和对颌面发育影响的实验研究

    Suture distraction osteogenesis for closure of cleft palate in the dog : long term effect and its influence on facial growth

  10. 腭骨面积有减小趋势,可能导致面中部发育不足。

    The tendency of decrease of the area of the palatal bone may lead to the underdevelopment of the mid-part of the face .

  11. 由于患侧鼻翼软骨、鼻部肌肉、患侧上颌骨及腭骨发育不足及结构异常,导致鼻翼及鼻孔畸形。

    The hypoplasia and abnormal structure of large alar cartilage , maxillary bone , nasal muscle and palate bone on the affected side led to the nasal deformity .

  12. 晚期放射并发症,鼻腔死骨形成1例,软硬腭骨穿孔4例。

    The late radiation sequelae occured in 4 cases , 1 radiation necrosis of the bone in nasal cavity and 3 radiation perforations in hard and soft palate .

  13. 筛骨嵴为腭骨垂直板上一骨嵴,筛骨嵴正好位于蝶腭孔的前下方,鼻后外侧动脉出蝶腭孔正好位于其后方。

    The crista ethmoidalis of the perpendicular plate of the palatine bone was located just antero - inferior to the sphenopalatine foramen , and anterior to the lateral posterior nasal arteries .

  14. 目的建立腭骨三维有限元模型,为进一步研究腭部种植支抗进行上颌扩大的可行性及其与牙支抗的对比研究建立数学模型基础。

    Objectives To construct a three-dimensional finite element model of palate for the further investigation of palatal implant anchorage for RME in adults and the comparison between the tooth-borne RME and the bone-borne one .

  15. 4.2中鼻甲切除入路:此入路手术通道更宽广,蝶窦前壁可向侧方打开至腭骨及翼突内侧。

    Middle nasal concha resection approach : This approach has a much broader surgical path , the anterior wall of sphenoid sinus can be opened laterally to the palatine bone and inside of pterygoid process .

  16. 口咽腔较大,上下颌,犁骨及腭骨均有细齿带,粘膜由复层鳞状上皮组成,并含有大量黏液细胞和少量杯状细胞;

    The buccal-pharynx cavity was large and there were serration cingula on the upper jaw and mandible , vomer and palatine bone ; The mucosa was composed of stratified squamous epithelium with many mucous secretory cells and a few goblet cells in buccal-pharynx cavity ;

  17. 螺旋CT测量腭中缝骨厚度及骨密度的可行性

    Feasibility of measuring palate bone thickness and bone mineral density using spiral computed tomography

  18. 结果:1)借助复合人重组骨形成蛋白(Hr-BMP)胶原膜GBR,腭部骨缺损可以完全修复;

    Results : 1 . The palate bone defects can be repaired completely by GBR with collagen composite of human recombinant morphogenetic protein ( Hr-BMP ) .

  19. 可降解Hr-BMP复合胶原膜修复腭部骨缺损的实验研究

    Studies on repairing of the palate bone defects of experimental animal with collagen membrane composite of human recombinant bone morphogenetic protein

  20. 目的探讨腭板骨缺损修复对腭咽闭合的影响。

    Objective To observe whether repairing the hard palate can improve velopharyngeal function .

  21. 初步研究认为腭板骨缺损修复能改善腭咽闭合。

    A primary clinical study proves that repairing of the hard palate cleft can improve the velopharyngeal function .

  22. 方法:建立幼犬腭部骨缺损实验动物模型,应用常规组织学检查术、免疫荧光显微法、X线及扫描电子显微术在实验过程的不同阶段进行观察研究。

    Methods : Puppies were used to build the model of palate bone defects . The experimental process was checked by general histological examination , fluorescence microscopy , X-ray and scanning electron microscopy at different time .

  23. 目的:观察腭部扁平骨引导性骨再生现象(GBR),探讨利用GBR修复腭裂骨缺损的可能性。

    Aim : To observe the guided bone regeneration ( GBR ) in the tabular bone of palate and explore the possibility of repairing of bone defects in cleft palate by GBR .

  24. 腭板植骨术的临床初步研究

    A primary clinical analysis of artificial bone implantation of cleft palate

  25. 机械扩张力作用下小鼠腭中缝成骨与破骨的研究

    Osteoblast and osteoclast in palatal suture of mice during mechanical force-expansion

  26. 首先,于腭部切骨后形成骨运送盘。

    Second , transporting disk of the palatal bone was formed by bone dissection in the experimental group .

  27. 胃是可以扩张的器官。机械扩张力作用下小鼠腭中缝成骨与破骨的研究

    The stomach is a distensible organ . Osteoblast and osteoclast in palatal suture of mice during mechanical force-expansion

  28. 腭板植骨术后5年腭咽闭合功能分析

    An Analysis of Velopharyngeal Function about Repairing the Hard Palate Cleft with the Composited Artificial Bone after Five Years

  29. 结论腭板植骨术对上颌骨宽度的发育存在明显的促进作用,在提倡序列治疗的过程中应该考虑对硬腭骨缺损进行植骨修复。

    Conclusions It could promote the growth of maxilla width in use of bone implantation , that advocated the bone repair in the sequence treatment process in cases of the hard palate bone damage .

  30. 腭部肿瘤腭骨切除的临床意义

    Clinical Significance of Palatal Bone Resection in the Management of Palatal Tumors