CONCLUSION: The cervical segments of spinocerebellar tract project to the cerebellar nuclei in rats and locate somatotopically as compared with the lumbar spinal cord.
结论:大鼠脊髓颈段有向小脑中央核的投射,与腰髓的投射相比较,存在一定的定位关系。
There was no significant influence for the ROM of the upper and lower cervical segments. To some extent, the DCI diminished the axial stress and maintained the ROM of the cervical spine effectively.
表明颈椎动态稳定器置入后对邻近节段椎体活动度无明显影响或影响甚小,在一定程度上减小假体与其邻近椎体轴向应力,有效地维持颈椎活动。
Objective. To evaluate how cervical fusion alters the peak strain of the ALL in the adjacent motion segments.
目的:评估颈椎融合是如何改变相邻运动节段的前纵韧带应力峰值。
Objective. To investigate the effects of cervical disc herniation on kinematics at adjacent vertebral motion segments.
目的:调查相邻椎体节段的运动对颈椎间盘突出症的影响。
Asymptomatic cervical cord compression is more likely to be developed in lumbar stenosis patients who are aged, male, and involving multiple segments.
无症状性颈脊髓压迫更倾向于发生在年老、男性、多节段腰椎管狭窄症患者中。
To discuss the surgery of the adjacent segments degenerative disease after anterior cervical decompression and fusion.
探讨颈椎前路椎体次全切减压融合内固定术后相邻节段退行性病变的最佳手术治疗方法。
Methods 24 patients of multilevel cervical myelopathy with 3 or 4 consecutive segments were treated with segmental anterior cervical decompression with fusion.
方法对24例连续3或4个节段病变的颈椎病患者采用分节段减压融合术治疗。
ConclusionsThe implanted artificial cervical disc can appropriately reduce the stress in adjacent vertebral segments, which is beneficial to improve the movement of the cervical spine.
结论植入的颈椎人工间盘在一定范围内缓解了相邻节段的应力,且能够恢复颈椎的活动度。
Combined injuries to both the occipital-cervical and atlantoaxial segments are less common and, to date, have only been described with severe neurologic injury.
枕颈关节合并寰枢关节脱位较为少见,截止目前,文献报道多集中于描述其所引起的严重神经功能损伤。
MRI classification of degenerative cervical stenosis was established according to the segments involved, compression direction, compression degree and the abnormal changes within spinal cord.
MRI可以就狭窄范围、狭窄方向、狭窄程度和髓内信号改变行详尽分型。
Serial sections of the cervical spinal ganglia, cervical and thoracic spinal cord segments and brain were cut on a cryotome.
于不同时间点,对脑、脊髓及神经节行连续冰冻切片。
Serial sections of the cervical spinal ganglia, cervical and thoracic spinal cord segments and brain were cut on a cryotome.
于不同时间点,对脑、脊髓及神经节行连续冰冻切片。
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