Objective To implement a computer aided minimally invasive neurosurgery planning system.
目的介绍脑微创手术规划系统设计及实现的方法。
Objective The application of ASA-610V neuronavigation system in minimally invasive neurosurgery was studied.
目的探讨asa- 610 V导航系统在微侵袭神经外科手术中的应用效果。
Results This system could be used in minimally invasive neurosurgery planning and extended to a computer aided surgery system easily.
结果该系统可以应用于脑肿瘤、脑出血等手术的规划,并可以进一步扩展成计算机辅助手术系统。
Conclusion Minimally invasive neurosurgery is not atraumatic and may result in ischemic complications following iatrogenic vascular injury.
结论神经外科微创手术并非“无创”,术中医源性血管损伤可能引起脑缺血性并发症。
Objective To study iatrogenic vascular injuries and related ischemic complications in 86 out of 748 cases undergoing minimally invasive neurosurgery.
目的分析748例微创神经外科手术中86例发生医源性血管损伤及脑缺血性并发症的病例。
Objective Based on the rationale of "keyhole" minimally invasive neurosurgery, the normal subtemporal approach was modified to decrease the surgical trauma.
目的以“锁孔”微创的理念,改良常规颞下入路,以减少手术损伤。
In the practice and development of minimally invasive neurosurgery, we not only pay attention to using of minimally invasive techniques, but also emphasize the utilization of minimally invasive ideas.
微创神经外科狭义的理解,更多侧重于微创技术手段的应用;而广义的理解,则是指微创理念。
In this paper, the techniques and the application of "keyhole operation" -minimally invasive endoscopic neurosurgery are discussed.
介绍“锁孔技术”,即微侵袭神经内窥镜的应用方法。
In this paper, the techniques and the application of "keyhole operation" -minimally invasive endoscopic neurosurgery are discussed.
介绍“锁孔技术”,即微侵袭神经内窥镜的应用方法。
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