mandibular造句
91. Objective This article is to find the difference between prominent mandibular angle female cohort and normal female cohort by three-dimension cephalometry.
92. Objective To analyse the relationship between pain, edema, trismus and operation difficulty after extracting mandibular third molars.
93. Conclusion:The transposition of the partial clavicular bone flap pedicled with sternocleidomastoid muscle is suitabe for repairing mandibular defect.
94. METHODS: 1 of the 6 first mandibular molars on the right side with normal morphology in vitro was selected for pulpectomy, which was the best in density and near to clinical requirement in morphology.
95. The cephalographs were traced, and 12 homologous landmarks were identified and digitized. Average mandibular geometries were generated by means of Procrustes analysis.
96. Conclusion This is a good approach to reconstruction of mandibular defects by fibula free flap.
97. Conclusion:Bar should be designed according to the alveolar ridge and maxillary or mandibular arch of the patients and the principle of Spiekermann's design.
98. In addition, the interdental space over the anterior region of the mandibular arch was closed.
99. The deformations in subjects with Class III malocclusion may represent a developmental elongation of the mandible anteroposteriorly , which leads to the appearance of a prognathic mandibular profile.
100. Comparing and analysing mandibular bone mineral density of two groups according to their age and sex so as to observe the changes in mandibular bone mineral density of two groups.
101. Objective: To observe and search for an adaptative and efficient treatment methods of mandibular fracture.
102. Unlike the mandibular advancement devices, it is not intended to bring the lower jaw forward.
103. Methods: Measuring the bone density of mandibular angle and coxofemoral region with dual energy X ray absorptiometer(DXA).
104. Objective:Statistical analysis of mandibular molar mesiodistal crown width and tooth length and development of root.
105. Objective : To evaluate the mandibular movement after vertical dimension increasing.
106. Objective: To analyze causes of displacement of the impacted mandibular third molar into the pterygomandibular space and to find out measures for preventions.
107. Objective To study the feasibility of intraoral approach arthroscope-assisted replacement and fixation of mandibular condylar process fractures.
108. Objective To assess the treatment method and outcome of mesially or horizontally impacted mandibular molars.
109. Objective:To explore effects of iodoform gelatin sponge on prevention of dry socket caused by impacted mandibular third molar extraction .
110. Objective To investigate the significance of mandibular functional shift ( MFS ) in diagnosis of anterior crossbite.
111. The titanium mandibular reconstruction system with titanium condyle is a simple and effective method for reconstruction of osteoradionecrosis.
112. Objective : To study the route and position of mandibular tube in mandibular bone.
113. Methods The ovariectomized (OVX) rats were used as a model of postmenopausal osteoporosis to induce mandibular bone loss.
114. Objective: Using the forming Cystitomy to treat the mandibular and maxillary cyst.
115. The samples are gathered for 3 times from supragingival dental plaque on all teeth except mandibular anterior teeth.
116. To evaluate the value of clinical application of CT-guided nasopharyngeal needle biopsy through mandibular notch.
117. Results: 90.9 % patients with mandibular protrusion are satisfied after the operation.
118. Method In stage I treatment, rectification using a muscle stimulator plus an outward bow gag was applied to improve the condition of mandibular retrusion.
119. Objective:To retrospectively study the incidence of dry socket after mandibular impacted wisdom tooth extraction.
120. Objective to investigate important adjacent structures of the marginal mandibular branch of facial nerve.
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