From the Department of Radiology (G.M.P., P.B., M.W.) and ENT Surgery (R.K.B.), Manchester Royal Infirmary, Oxford Road, Manchester, United Kingdom M13 9WL; Department of Neuroradiology, Walton Centre NHS Foundation Trust, Liverpool, United Kingdom (R.S.); Department of Radiology, Salford Royal Hospital, Salford, United Kingdom (A.H., S.A.); Department of Neurosurgery, Salford Royal Hospital, Salford, United Kingdom (S.A.R., O.N.P.); University Hospital Lewisham, London, United Kingdom (O.I.); Department of Neurosurgery, Queen's Medical Centre, Nottinghamshire, United Kingdom and University of Nottingham, Nottingham, United Kingdom (L.J.G.); Department of Neurosurgery, Royal Sussex County Hospital Brighton, United Kingdom (C.L.H-W.); Division of Neuroscience (F.R.) and Division of Cancer Sciences (G.A.W.), University of Manchester, Manchester, United Kingdom; and Department of Clinical Oncology, Christie Hospital, Manchester, United Kingdom (R.J.C., S.P., G.A.W.).
Radiographics. 2024 Oct;44(10):e240036. doi: 10.1148/rg.240036.
Skull base chordomas and chondrosarcomas are distinct types of rare, locally aggressive mesenchymal tumors that share key principles of imaging investigation and multidisciplinary care. Maximal safe surgical resection is the treatment choice for each, often via an expanded endoscopic endonasal approach, with or without multilayer skull base repair. Postoperative adjuvant radiation therapy is frequently administered, usually with particle therapy such as proton beam therapy (PBT). Compared with photon therapy, PBT enables dose escalation while limiting damage to dose-limiting neurologic structures, particularly the brainstem and optic apparatus, due to energy deposition being delivered at a high maximum with a rapid decrease at the end of the penetration range (Bragg peak phenomenon). Essential requirements for PBT following gross total or maximal safe resection are tissue diagnosis, minimal residual tumor after resection, and adequate clearance from PBT dose-limiting structures. The radiologist should understand surgical approaches and surgical techniques, including multilayer skull base repair, and be aware of evolution of postsurgical imaging appearances over time. Accurate radiologic review of all relevant preoperative imaging examinations and of intraoperative and postoperative MRI examinations plays a key role in management. The radiology report should reflect what the skull base surgeon and radiation oncologist need to know, including distance between the tumor and PBT dose-limiting structures, tumor sites that may be difficult to access via the endoscopic endonasal route, the relationship between intradural tumor and neurovascular structures, and tumor sites with implications for postresection stability. RSNA, 2024 Supplemental material is available for this article.
颅底脊索瘤和软骨肉瘤是两种不同类型的罕见、局部侵袭性间充质肿瘤,它们在影像学检查和多学科治疗方面具有关键的原则。对于每一种肿瘤,最大限度的安全手术切除都是治疗选择,通常通过扩大的经鼻内镜入路进行,可联合或不联合多层颅底修复。术后常辅助放疗,通常采用粒子治疗,如质子束治疗(PBT)。与光子治疗相比,PBT 可以在限制对脑干和视神经等剂量限制神经结构损伤的同时提高剂量,这是由于能量沉积在穿透范围的末端以高最大值迅速下降(布拉格峰现象)。在全切除或最大限度安全切除后行 PBT 的基本要求是组织诊断、切除后肿瘤残留最小,以及与 PBT 剂量限制结构有足够的清除距离。放射科医生应了解手术入路和手术技术,包括多层颅底修复,并了解术后影像学表现随时间的演变。准确的影像学审查所有相关的术前影像学检查以及术中及术后 MRI 检查在管理中起着关键作用。放射科报告应反映颅底外科医生和放射肿瘤学家需要了解的内容,包括肿瘤与 PBT 剂量限制结构之间的距离、经鼻内镜入路难以到达的肿瘤部位、颅内肿瘤与神经血管结构的关系,以及与术后稳定性有关的肿瘤部位。RSNA,2024 补充材料可在此文章中查看。
