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本文引用的文献

1
Glioblastoma and Other Primary Brain Malignancies in Adults: A Review.成人脑胶质瘤和其他原发性脑恶性肿瘤:综述。
JAMA. 2023 Feb 21;329(7):574-587. doi: 10.1001/jama.2023.0023.
2
Burden and trends of brain and central nervous system cancer from 1990 to 2019 at the global, regional, and country levels.1990年至2019年全球、区域和国家层面脑及中枢神经系统癌症的负担与趋势。
Arch Public Health. 2022 Sep 17;80(1):209. doi: 10.1186/s13690-022-00965-5.
3
Treatment of Radiation-Induced Brain Necrosis.放射性脑坏死的治疗。
Oxid Med Cell Longev. 2021 Dec 24;2021:4793517. doi: 10.1155/2021/4793517. eCollection 2021.
4
The centrally restricted diffusion sign on MRI for assessment of radiation necrosis in metastases treated with stereotactic radiosurgery.MRI 上的中央受限弥散征象用于评估立体定向放射外科治疗后的转移瘤放射性坏死。
J Neurooncol. 2021 Dec;155(3):325-333. doi: 10.1007/s11060-021-03879-4. Epub 2021 Oct 24.
5
Typical Pediatric Brain Tumors Occurring in Adults-Differences in Management and Outcome.成人中出现的典型儿科脑肿瘤——治疗与预后的差异
Biomedicines. 2021 Mar 30;9(4):356. doi: 10.3390/biomedicines9040356.
6
Recognizing Radiation-induced Changes in the Central Nervous System: Where to Look and What to Look For.识别中枢神经系统的放射性改变:观察什么及如何观察。
Radiographics. 2021 Jan-Feb;41(1):224-248. doi: 10.1148/rg.2021200064. Epub 2020 Nov 20.
7
Brain Metastasis Recurrence Versus Radiation Necrosis: Evaluation and Treatment.脑转移瘤复发与放射性坏死:评估与治疗。
Neurosurg Clin N Am. 2020 Oct;31(4):575-587. doi: 10.1016/j.nec.2020.06.007. Epub 2020 Aug 14.
8
Clinical Experience of Bevacizumab for Radiation Necrosis in Patients with Brain Metastasis.贝伐单抗治疗脑转移患者放射性坏死的临床经验
Brain Tumor Res Treat. 2020 Oct;8(2):93-102. doi: 10.14791/btrt.2020.8.e11. Epub 2020 Jul 9.
9
Radiation Necrosis in Intracranial Lesions.颅内病变中的放射性坏死
Cureus. 2020 Apr 9;12(4):e7603. doi: 10.7759/cureus.7603.
10
MR perfusion imaging, techniques and role in differentiating radiation necrosis and tumor recurrence.磁共振灌注成像、技术及其在鉴别放射性坏死和肿瘤复发中的作用。
J Pak Med Assoc. 2019 Dec;69(12):1924-1926.

鉴别脑肿瘤性病变与放射性坏死的成像模态比较

Comparison of Imaging Modalities in Differentiating Cerebral Neoplastic Lesions and Post-radiation Necrosis.

作者信息

Arif Sehrish, Varma Rajesh C, Thaiparambil Sneha, Ahuja Akanksha, Nair Arun

机构信息

Surgery, New York City (NYC) Health Hospitals, New York City, USA.

Pediatrics, Saint Peter's University Hospital, New Brunswick, USA.

出版信息

Cureus. 2025 Feb 6;17(2):e78653. doi: 10.7759/cureus.78653. eCollection 2025 Feb.

DOI:10.7759/cureus.78653
PMID:40062068
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11890348/
Abstract

Neuroimaging of cerebral neoplastic lesions and post-radiation necrosis (PRN) presents significant challenges due to their overlapping features, making differentiation difficult. The use of various imaging modalities in association with radiation therapy introduces potential risks and prognostic variations that can affect lesion physiology. Patients who undergo radiation treatment inevitably experience changes influenced by factors such as radiation dose, brain volume, and tumor fraction size. Additionally, vascular injury and the inflammatory response associated with radiation contribute to alterations observed in neuroimaging. This literature review aims to provide a comparative overview of imaging studies to highlight the optimal modality to distinguish between PRN and tumor recurrence. The imaging modalities assessed included dynamic contrast-enhanced (DCE) and dynamic susceptibility contrast (DSC) MR-perfusion, MR-spectroscopy, intravoxel incoherent motion (IVIM) perfusion, and nuclear medicine studies, including 18F-fluoro-ethyl-1-tyrosine positron emission tomography (18F-FET PET) and 11C-methionine PET (11C MET-PET). The improvement of diagnostic accuracy in multimodal imaging must be further investigated to improve clinical patient management and outcomes of tumor reoccurrence.

摘要

脑肿瘤性病变和放射性坏死(PRN)的神经影像学检查面临重大挑战,因为它们具有重叠的特征,难以鉴别。将各种成像方式与放射治疗联合使用会带来潜在风险和预后差异,进而可能影响病变生理学。接受放射治疗的患者不可避免地会经历受放射剂量、脑容量和肿瘤部分大小等因素影响的变化。此外,与放射相关的血管损伤和炎症反应也会导致神经影像学检查中观察到的改变。这篇文献综述旨在对成像研究进行比较概述,以突出区分PRN和肿瘤复发的最佳方式。评估的成像方式包括动态对比增强(DCE)和动态磁敏感对比(DSC)磁共振灌注、磁共振波谱、体素内不相干运动(IVIM)灌注以及核医学研究,包括18F-氟乙基-1-酪氨酸正电子发射断层扫描(18F-FET PET)和11C-蛋氨酸PET(11C MET-PET)。必须进一步研究提高多模态成像诊断准确性,以改善临床患者管理和肿瘤复发的预后。