J Neurosurg. 2023 May 19;139(6):1681-1696. doi: 10.3171/2023.3.JNS23234. Print 2023 Dec 1.
Anatomical taxonomy is a practical tool to successfully guide clinical decision-making for patients with brain arteriovenous malformations and brainstem cavernous malformations (CMs). Deep cerebral CMs are complex, difficult to access, and highly variable in size, shape, and position. The authors propose a novel taxonomic system for deep CMs in the thalamus based on clinical presentation (syndromes) and anatomical location (identified on MRI).
The taxonomic system was developed and applied to an extensive 2-surgeon experience from 2001 through 2019. Deep CMs involving the thalamus were identified. These CMs were subtyped on the basis of the predominant surface presentation identified on preoperative MRI. Six subtypes among 75 thalamic CMs were defined: anterior (7/75, 9%), medial (22/75, 29%), lateral (10/75, 13%), choroidal (9/75, 12%), pulvinar (19/75, 25%), and geniculate (8/75, 11%). Neurological outcomes were assessed using modified Rankin Scale (mRS) scores. A postoperative score ≤ 2 was defined as a favorable outcome and > 2 as a poor outcome. Clinical and surgical characteristics and neurological outcomes were compared among subtypes.
Seventy-five patients underwent resection of thalamic CMs and had clinical and radiological data available. Their mean age was 40.9 (SD 15.2) years. Each thalamic CM subtype was associated with a recognizable constellation of neurological symptoms. The common symptoms were severe or worsening headaches (30/75, 40%), hemiparesis (27/75, 36%), hemianesthesia (21/75, 28%), blurred vision (14/75, 19%), and hydrocephalus (9/75, 12%). The thalamic CM subtype determined the selection of surgical approach. A single approach was associated with each subtype for most patients. The main exception to this paradigm was that in the surgeons' early experience, pulvinar CMs were resected through a superior parietal lobule-transatrial approach (4/19, 21%), which later evolved to the paramedian supracerebellar-infratentorial approach (12/19, 63%). Relative outcomes implied by mRS scores were unchanged or improved in most patients (61/66, 92%) postoperatively.
This study confirms the authors' hypothesis that this taxonomy for thalamic CMs can meaningfully guide the selection of surgical approach and resection strategy. The proposed taxonomy can increase diagnostic acumen at the patient bedside, help identify optimal surgical approaches, enhance the clarity of clinical communications and publications, and improve patient outcomes.
解剖分类是指导脑动静脉畸形和脑干海绵状畸形(CMs)患者临床决策的实用工具。深部脑 CMs 复杂、难以触及,且大小、形状和位置变化多样。作者提出了一种基于临床表现(综合征)和解剖部位(MRI 识别)的丘脑深部 CMs 的新分类系统。
该分类系统是在 2001 年至 2019 年期间由 2 位经验丰富的外科医生开发和应用的。确定了涉及丘脑的深部 CMs。这些 CMs 根据术前 MRI 上识别的主要表面表现进行亚型分类。在 75 例丘脑 CMs 中定义了 6 种亚型:前(7/75,9%)、内侧(22/75,29%)、外侧(10/75,13%)、脉络膜(9/75,12%)、丘脑(19/75,25%)和神经节(8/75,11%)。使用改良 Rankin 量表(mRS)评分评估神经功能结局。术后评分≤2 定义为良好结局,>2 定义为不良结局。比较了各亚型之间的临床和手术特征以及神经功能结局。
75 例患者行丘脑 CMs 切除术,具有临床和影像学资料。他们的平均年龄为 40.9(SD 15.2)岁。每种丘脑 CM 亚型都与一组可识别的神经症状相关。常见症状为严重或加重的头痛(30/75,40%)、偏瘫(27/75,36%)、偏身感觉障碍(21/75,28%)、视力模糊(14/75,19%)和脑积水(9/75,12%)。丘脑 CM 亚型决定了手术入路的选择。对于大多数患者,每种亚型都有单一的入路选择。这种模式的一个主要例外是,在外科医生的早期经验中,丘脑 CM 通过顶叶上小叶-经心房入路切除(4/19,21%),后来演变为顶旁正中小脑上蚓部-小脑幕下入路(12/19,63%)。术后大多数患者(61/66,92%)的 mRS 评分提示相对结局无变化或改善。
本研究证实了作者的假设,即这种丘脑 CMs 分类系统可以有意义地指导手术入路和切除策略的选择。所提出的分类系统可以提高床边诊断敏锐度,有助于确定最佳手术入路,增强临床沟通和文献的清晰度,并改善患者结局。
