Background:Spinal cord ischaemia animal models were established by selective ligation of the lumbar artery in a craniocaudal direction between the renal artery and the aortic bifurcation.Transcranial electrical stimul...Background:Spinal cord ischaemia animal models were established by selective ligation of the lumbar artery in a craniocaudal direction between the renal artery and the aortic bifurcation.Transcranial electrical stimulation motor-evoked potentials were measured to enable their use in future studies on spinal cord ischaemia protection.Methods:Thirty-three New Zealand rabbits were randomly divided into 6 groups.Transcranial electrical stimulation motor-evoked potentials were recorded before vascular ligation,30 min after vascular ligation,and 2days after vascular ligation.Motor functions were assessed after surgery and 2 days after vascular ligation.The specimens were taken 2 days after ligation for histopathologic observation.Results:With increased numbers of ligations,a transient extension of the latency became clear,but there were no significant differences in the statistical analysis.Analysis of variance after ligation at the same time in each group and t tests before and after ligation(P>0.05)were not significant.One or 2 ligations did not cause spinal cord ischaemic damage.There were no significant differences before and after ligation for the amplitude(P>0.05).With increased numbers of ligations,the amplitude before and after ligation was gradually reduced in the 3-5 ligation groups(P<0.05).Conclusions:Ligation of segmental spinal cord vessels on 1 or 2 levels did not cause ischaemic damage.Spinal cord ischaemia was observed after 3,4,or 5 ligations.The amplitude was more sensitive to spinal cord ischaemia than latency.Spinal cord function can be predicted by early changes in the amplitude.展开更多
基金the fund of the health department of Shandong Province,China(2011QW008 and 2015WS0375).
文摘Background:Spinal cord ischaemia animal models were established by selective ligation of the lumbar artery in a craniocaudal direction between the renal artery and the aortic bifurcation.Transcranial electrical stimulation motor-evoked potentials were measured to enable their use in future studies on spinal cord ischaemia protection.Methods:Thirty-three New Zealand rabbits were randomly divided into 6 groups.Transcranial electrical stimulation motor-evoked potentials were recorded before vascular ligation,30 min after vascular ligation,and 2days after vascular ligation.Motor functions were assessed after surgery and 2 days after vascular ligation.The specimens were taken 2 days after ligation for histopathologic observation.Results:With increased numbers of ligations,a transient extension of the latency became clear,but there were no significant differences in the statistical analysis.Analysis of variance after ligation at the same time in each group and t tests before and after ligation(P>0.05)were not significant.One or 2 ligations did not cause spinal cord ischaemic damage.There were no significant differences before and after ligation for the amplitude(P>0.05).With increased numbers of ligations,the amplitude before and after ligation was gradually reduced in the 3-5 ligation groups(P<0.05).Conclusions:Ligation of segmental spinal cord vessels on 1 or 2 levels did not cause ischaemic damage.Spinal cord ischaemia was observed after 3,4,or 5 ligations.The amplitude was more sensitive to spinal cord ischaemia than latency.Spinal cord function can be predicted by early changes in the amplitude.
