1.Microsurgical resection of intracranial cavernous hemangioma with the guide of electromagnetic navigation
Qimin SONG ; Yanhao CHENG ; Chao DAI ; Chang FEI ; Xingong WANG ; Jian ZHANG ; Chuanlin JI
Chinese Journal of Microsurgery 2013;36(6):524-527
Objective To investigate the value of electromagnetic navigation in microsurgical resection of intracranial cavernous hemangioma of different locations.Methods The microsurgical resection of intracranial cavernous hemangioma of different locations with the guide of electromagnetic navigation of COMPASS Cygnus system,There were 47 cavernous hemangioma of 43 patients,including of multiple cavernous hemangioma of 3 cases,one case had 3,the other 2 cases had 2 ; Including 25 deep in the cerebral cortex(including of 4 deep in the cerebellar cortex),twenty shallow in the cerebral cortex,two were in the orbital apex,including of 4 deep in the sensorimotor cortex,four deep in the language center,and 2 deep in the visual center.Results All 47 cavernous hemangioma of 43 patients,the accuracy was 100%.The resection rate was 100%,including of 16 patients were removed with a straight incision.There was no one with the neurological dysfunction worse postoperative,with no deaths,with 1 case of normal perfusion pressure breakthrough and was cured by conservative treatment.Thirty cases were discharged within 1 week.The blood loss of 30 cases was less than 50 ml.The average registration error of navigation was 1.6 ± 0.4 mm.Conclusion The surgical incision and surgical approach can been designed with the help of electromagnetic navigation system before operation,and can accurately resect the lesions simultaneously avoid brain function area,protect the normal brain tissue,reduce postoperative complications,with the help of the electromagnetic navigation system intraoperative in real time.It is suitable for minimally invasive surgery for intracranial cavernous hemangioma.
2.A coronary-sectional anatomy and three dimensional reconstruction study of the cavernous sinus
Xingong WANG ; Jun LIU ; Chang FEI ; Shuwei LIU ; Jian ZHANG ; Yanhao CHENG ; Zhonghe ZHANG
Chinese Journal of Microsurgery 2013;(2):149-153
Objective To study the regional anatomy of the cavernous sinus for skull base surgery.Methods Continuous thin sections on coronary plane were performed with freezing milling technique on an head specimen from March 2008 to November 2011.After segmenting,labeling and extracting in a seraial sections,we finished the three dimensional reconstruction of the cavernous sinus.Results Three hundred and ninety thin coronary sections were obtained.The related structures were described in six typical sections.The cavernous sinuses were located on each side of the sphenoid sella.The sinus connects to the superior orbital fissure below and lateral to the anterior clinoid process,opens into the basilar sinuses lateral to the dorsum sellae.The four main spaces within the sinus,identified by their relation to the carotid artery,were the medial,the anteroinferior,the posterosuperior compartments and the lateral space.The four spaces were located differnently and communicate with each others in three dimensional images.Conclusion Combination of coronary section anatomy and three dimensional reconstruction can display the anatomical characters of the s cavernous sinus.The 3D models are video films that continuously and dynamically display anatomic structures in 3D space at different velocities.
3.Changes of bulbocavernosus sphincter reflex in male rabbit models of sacral spinal ischemia during early stage
Qimin SONG ; Xiankuo TANG ; Jinli LUAN ; Zhuang LIU ; Jian ZHANG ; Chang FEI ; Chao DAI ; Yanhao CHENG
Chinese Journal of Neuromedicine 2017;16(3):279-284
Objective To explore the changes of bulbocavemosus sphincter reflex (BCR) in male rabbit models of spinal cord ischemia injury of different levels at acute stage and their values in predicting spinal cord functions,and provide theoretical basis for protecting the spinal cord function by neurophysiology examination in clinical microsurgical operation.Methods Thirty-six adult New Zealand rabbits were randomly divided into 6 groups:a control group (n=6) was used to eliminate the effects of anesthesia and surgery on BCR;rabbits in the experimental group (n=30) were randomly divided into 5 groups (n=6) according to different levels of lumbar arteries being ligatured between the left renal artery and arterial bifurcate (subgroups of one,two,three,4 and 5 lumbar arteries being ligatured).BCR was recorded continuously within two h of ligation;rabbits in each group were subjected to double-blind Tarlov lower limb motor function scale before and 2 d after surgery;and ischemic spinal cord specimens were performed hematoxylin and eosin (HE) staining to observe pathological changes in sacral spinal cord ischemic areas after 2 days.Results There was no significant difference in BCR amplitude and latency between different time points after anesthesia (P>0.05);there was no significant difference in BCR amplitude and latency between different time points before and after operation (P>0.05).There was no significant change in the amplitude of BCR before and after one lumbar artery ligation;however,the BCR amplitude immediately changed after ligaturing two,three,4 or 5 lumbar arteries:the latency of BCR immediately began to extend and amplitude immediately began to reduce;amplitude was stable respectively after (0.7±0.4),(0.7±0.3),(0.7±0.3) and (0.6±0.3) min of ligation.The amplitude variation of BCR was positively correlated with Tarlov lower limb motor function scale scores 2 days after ligation (r=0.791,P=0.0001).HE staining showed that the normal sacral spinal cord structure was observed in the control group,subgroups of one and two lumbar arteries being ligatured;the basically normal sacral spinal cord structure was observed in the subgroup of three lumbar arteries being ligatured;the normal sacral spinal cord structure basically disappeared in the subgroup of 5 lumbar arteries being ligatured;the spinal cord injury of subgroup of 4 lumbar arteries being ligatured was between that of subgroup of three lumbar arteries being ligatured and subgroup of 5 lumbar arteries being ligatured.Conclusion The amplitude and latency of BCR in male rabbits are sensitive to sacral cord ischemic injury,which can help find ischemic injury in the reversible phase of the sacral cord ischemia and provide theoretical basis for the prevention of occurrence of male irreversible sacral spinal cord injury during microsurgery.