机构地区:[1]Department of Neurosurgery, Xuanwu Hospital, Capital Medical University China International Neuroscience Institute, Beijing 100053, China [2]Beijing Geriatric Medical Research Center, Beijing 100053, China [3]Department of Neurosurgery, University of Arkansas for Medical Science, Little rock, Arkansas, 72205, USA [4]Department of Neurosurgery, Wayne State University School of Medicine, Detroit, Michigan, 48236, USA [5]Department of Neurosurgery, International Neuroscience Institute, Hannover, 30625, Germany
出 处:《Chinese Medical Journal》2013年第9期1707-1713,共7页中华医学杂志(英文版)
摘 要:Background Image-guided neurosurgery, endoscopic-assisted neurosurgery and the keyhole approach are three important parts of minimally invasive neurosurgery and have played a significant role in treating skull base lesions. This study aimed to investigate the potential usefulness of coupling of the endoscope with the far lateral keyhole approach and image guidance at the ventral craniocervical junction in a cadaver model. Methods We simulated far lateral keyhole approach bilaterally in five cadaveric head specimens (10 cranial hemispheres). Computed tomography-based image guidance was used for intraoperative navigation and for quantitative measurements. Skull base structures were observed using both an operating microscope and a rigid endoscope. The jugular tubercle and one-third of the occipital condyle were then drilled, and all specimens were observed under the microscope again. We measured and compared the exposure of the petroclivus area provided by the endoscope and by the operating microscope. Statistical analysis was performed by analysis of variance followed by the Student-Newman-Keuls test. Results With endoscope assistance and image guidance, it was possible to observe the deep ventral craniocervical junction structures through three nerve gaps (among facial-acoustical nerves and the lower cranial nerves) and structures normally obstructed by the jugular tubercle and occipital condyle in the far lateral keyhole approach. The surgical area exposed in the petroclival region was significantly improved using the 0° endoscope (1147.80 mm2) compared with the operating microscope ((756.28±50.73) mm2). The far lateral retrocondylar keyhole approach, using both 0° and 30° endoscopes, provided an exposure area ((1147.80±159.57) mm2 and (1409.94±155.18) mm2, respectively) greater than that of the far lateral transcondylar transtubercular keyhole approach ((1066.26±165.06) mm2) (P 〈0.05). Conclusions With the aid of the endoscope and image guidance, it is possibBackground Image-guided neurosurgery, endoscopic-assisted neurosurgery and the keyhole approach are three important parts of minimally invasive neurosurgery and have played a significant role in treating skull base lesions. This study aimed to investigate the potential usefulness of coupling of the endoscope with the far lateral keyhole approach and image guidance at the ventral craniocervical junction in a cadaver model. Methods We simulated far lateral keyhole approach bilaterally in five cadaveric head specimens (10 cranial hemispheres). Computed tomography-based image guidance was used for intraoperative navigation and for quantitative measurements. Skull base structures were observed using both an operating microscope and a rigid endoscope. The jugular tubercle and one-third of the occipital condyle were then drilled, and all specimens were observed under the microscope again. We measured and compared the exposure of the petroclivus area provided by the endoscope and by the operating microscope. Statistical analysis was performed by analysis of variance followed by the Student-Newman-Keuls test. Results With endoscope assistance and image guidance, it was possible to observe the deep ventral craniocervical junction structures through three nerve gaps (among facial-acoustical nerves and the lower cranial nerves) and structures normally obstructed by the jugular tubercle and occipital condyle in the far lateral keyhole approach. The surgical area exposed in the petroclival region was significantly improved using the 0° endoscope (1147.80 mm2) compared with the operating microscope ((756.28±50.73) mm2). The far lateral retrocondylar keyhole approach, using both 0° and 30° endoscopes, provided an exposure area ((1147.80±159.57) mm2 and (1409.94±155.18) mm2, respectively) greater than that of the far lateral transcondylar transtubercular keyhole approach ((1066.26±165.06) mm2) (P 〈0.05). Conclusions With the aid of the endoscope and image guidance, it is possib
关 键 词:far lateral approach NEUROENDOSCOPE NEURONAVIGATION keyhole approach ventral craniocervicaljunction
分 类 号:R322[医药卫生—人体解剖和组织胚胎学]
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