为了支持本假设,我们还研究了与颊神经和咀嚼肌的解剖关系。
To lend support to this hypothesis, we also studied the anatomical relationship between the buccal nerve and the masticatory muscles.
目的为临床上摸索口腔外下牙槽神经、舌神经和颊神经阻滞麻醉点提供解剖基础。
Objective to supply the anatomical data for investigating an extra-oral block anesthesia point of the inferior alveolar, lingual and buccal nerves.
这些发现支持这一假设周围颊神经压迫可能是神经性疼痛阵发性在颌面部地区的单边病因。
These findings support the hypothesis that peripheral buccal nerve compression could be an etiology of paroxysmal neuropathic pain in the unilateral orofacial region.
结果:颊肌粘膜瓣的感觉神经是颊神经,运动神经为面神经的颊支,其在第2、3磨牙相对的颊区与颊神经交通。
Results: the sensory nerve is buccal nerve. The motor nerve is buccal branches of the facial nerve, which communicates with the buccal nerve in the 2nd and the 3rd mandibular molar region.
面神经由茎乳孔出颅后,经腮腺、咬肌和颊区三段分布于面肌。
Facial nerve was divided into three segments (parotid gland, masseter and cheek) after leaving skull from stylomastoid foramen.
目的 客观评价兔耳大神经植入颈部带蒂皮瓣修复颊缺损感觉恢复效果。
Objective To assess the sensory restoration after the greater auricular nerve is implanted into the flap to repair the buccal defect in rabbits.
方法15例患者进行了面神经颞颊中部分分支切断,16例患者进行了面部肌肉多点注射A型肉毒毒素治疗。
Methods In 15 HFS patients, one of their temporal and buccal branches of peripheral facial nerve was cut and in another 16 HFS patients botulin A was multifocal facial muscles.
本文采用诱发肌电测定方法,测定了80只(160侧)健康家兔面神经颊支运功传导速度。
We used a method of evoked EMG to measure normal data of the motor conduction velocity(MCV) of buccal branches of facial nerve in 80 rabbits(160 sides).
本文采用诱发肌电测定方法,测定了80只(160侧)健康家兔面神经颊支运功传导速度。
We used a method of evoked EMG to measure normal data of the motor conduction velocity(MCV) of buccal branches of facial nerve in 80 rabbits(160 sides).
应用推荐