Coburger Jan, König Ralph W, Scheuerle Angelika, Engelke Jens, Hlavac Michal, Thal Dietmar R, Wirtz Christian Rainer
Department of Neurosurgery, University of Ulm, Günzburg, Germany.
Department of Neurosurgery, University of Ulm, Günzburg, Germany.
World Neurosurg. 2014 Sep-Oct;82(3-4):366-75. doi: 10.1016/j.wneu.2014.05.025. Epub 2014 May 27.
Conventional curved or sector array ultrasound (cioUS) is the most commonly used intraoperative imaging modality worldwide. Although highly beneficial in various clinical applications, at present the impact of linear array intraoperative ultrasound (lioUS) has not been assessed for intracranial use. We provide a technical description to integrate an independent lioUS probe into a commercially available neuronavigation system and evaluate the use of navigated lioUS as a resection control in glioblastoma surgery.
We performed a prospective study assessing residual tumor detection after complete microsurgical resection using either cioUS or lioUS in 15 consecutive patients. We compared the imaging findings of both ultrasound modalities in 44 sites surrounding the resection cavity. The respective findings were correlated with the histopathologic findings of tissue specimen obtained from those sites.
Use of cioUS leaded to an additional resection in 9 patients, whereas lioUS detected residual tumor during all surgeries. A further resection was performed at 33 of 44 intraoperative sites (75%) based on results of lioUS alone. Resected tissue was solid tumor in 66% and infiltration zone in 34%. No false-positive or false-negative findings were seen using lioUS. There was no case of a tumor detection in cioUS combined with a negative finding in lioUS. The difference of imaging results between cioUS and lioUS was significant (sign test, P<0.001).
lioUS can be used as a safe and precise tool for intracranial image-guided resection control of glioblastomas. It can be integrated in a commercially available navigation system and shows a significant higher detection rate of residual tumor compared with conventional cioUS.
传统的弯曲或扇形阵列超声(cioUS)是全球最常用的术中成像方式。尽管在各种临床应用中非常有益,但目前线性阵列术中超声(lioUS)在颅内应用中的影响尚未得到评估。我们提供了一种技术描述,将独立的lioUS探头集成到市售的神经导航系统中,并评估导航lioUS在胶质母细胞瘤手术中作为切除控制手段的应用。
我们进行了一项前瞻性研究,评估了15例连续患者在完全显微手术切除后使用cioUS或lioUS检测残留肿瘤的情况。我们比较了两种超声方式在切除腔周围44个部位的成像结果。将各自的结果与从这些部位获取的组织标本的组织病理学结果相关联。
使用cioUS导致9例患者进行了额外切除,而lioUS在所有手术中均检测到残留肿瘤。仅根据lioUS的结果,在44个术中部位中的33个(75%)进行了进一步切除。切除的组织中66%为实体瘤,34%为浸润区。使用lioUS未发现假阳性或假阴性结果。在cioUS检测到肿瘤而lioUS检测为阴性的情况中没有病例。cioUS和lioUS之间的成像结果差异具有统计学意义(符号检验,P<0.001)。
lioUS可作为胶质母细胞瘤颅内图像引导下切除控制的安全、精确工具。它可以集成到市售的导航系统中,与传统的cioUS相比,显示出显著更高的残留肿瘤检测率。
