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A standardized method to create peripheral nerve injury in dogs using an automatic non-serrated forceps

A standardized method to create peripheral nerve injury in dogs using an automatic non-serrated forceps
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摘要 This study describes a method that not only generates an automatic and standardized crush injury in the skull base, but also provides investigators with the option to choose from a range of varying pressure revels. We designed an automatic, non-serrated forceps that exerts a varying force of 0 to 100 g and lasts for a defined period of 0 to 60 seconds. This device was then used to generate a crush injury to the right oculomotor nerve of dogs with a force of 10 g for 15 seconds, resulting in a deficit in the pupil-light reflex and ptosis. Further testing of our model with Toluidine-blue staining demonstrated that, at 2 weeks post-surgery disordered oculomotor nerve fibers, axonal loss, and a thinner than normal myelin sheath were visible. Electrophysiological examination showed occasional spontaneous potentials. Together, these data verified that the model for oculomotor nerve injury was successful, and that the forceps we designed can be used to establish standard mechanical injury models of peripheral nerves. This study describes a method that not only generates an automatic and standardized crush injury in the skull base, but also provides investigators with the option to choose from a range of varying pressure revels. We designed an automatic, non-serrated forceps that exerts a varying force of 0 to 100 g and lasts for a defined period of 0 to 60 seconds. This device was then used to generate a crush injury to the right oculomotor nerve of dogs with a force of 10 g for 15 seconds, resulting in a deficit in the pupil-light reflex and ptosis. Further testing of our model with Toluidine-blue staining demonstrated that, at 2 weeks post-surgery disordered oculomotor nerve fibers, axonal loss, and a thinner than normal myelin sheath were visible. Electrophysiological examination showed occasional spontaneous potentials. Together, these data verified that the model for oculomotor nerve injury was successful, and that the forceps we designed can be used to establish standard mechanical injury models of peripheral nerves.
作者 Xuhui Wang Liang Wan Xinyuan Li Youqiang MenG Ningxi Zhu Min Yang Baohui Feng Wenchuan Zhang Shugan Zhu Shiting Li
机构地区 Department of Neurosurgery The Cranial Nerve Disease Center of Shanghai
出处 《Neural Regeneration Research》 SCIE CAS CSCD 2012年第32期2516-2521,共6页 中国神经再生研究(英文版)
基金 supported by grants from the National Natural Science Foundation of China, No. 30571907 the International Science and Technology Cooperation Foundation of the Shanghai Committee of Science and Technology, China,No. 10410711400 the Shanghai Scientific and Technical Committee Project, No. 05QMH1409
关键词 oculomotor nerve FORCEPS instrument nerve injury model QUANTITATION cranial nerve peripheral nerve neural regeneration oculomotor nerve forceps instrument nerve injury model quantitation cranial nerve peripheral nerve neural regeneration
分类号 S852.3 [农业科学—基础兽医学] TG717 [金属学及工艺—刀具与模具]
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参考文献25

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Neural Regeneration Research
2012年 第32期

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