[F]-氟代脱氧葡萄糖正电子发射断层扫描在头颈部癌剂量适应性放疗中是否具有指导作用?文献综述。
Is there a role for [F]-FMISO PET to guide dose adaptive radiotherapy in head and neck cancer? A review of the literature.
作者信息
Sambasivan Khrishanthne, Barrington Sally F, Connor Steve Ej, Witney Timothy H, Blower Philip J, Urbano Teresa Guerrero
机构信息
Department of Clinical Oncology, Guy's and St Thomas' NHS Foundation Trust, London, UK; School of Biomedical Engineering and Imaging Sciences, King's College London, London, United Kingdom.
King's College London and Guy's and St Thomas' PET Centre; School of Biomedical Engineering and Imaging Sciences, King's College London, King's Health Partners, London, UK.
出版信息
Clin Transl Imaging. 2024 Jan 23;12(2):137-155. doi: 10.1007/s40336-023-00607-y.
PURPOSE
Hypoxia is a major cause of radioresistance in head and neck cancer (HNC), resulting in treatment failure and disease recurrence. F-fluoromisonidazole [F]FMISO PET has been proposed as a means of localising intratumoural hypoxia in HNC so that radiotherapy can be specifically escalated in hypoxic regions. This concept may not be deliverable in routine clinical practice, however, given that [F]FMISO PET is costly, time consuming and difficult to access. The aim of this review was to summarise clinical studies involving [F]FMISO PET to ascertain whether it can be used to guide radiotherapy treatment in HNC.
METHODS
A comprehensive literature search was conducted on PubMed and Web of Science databases. Studies investigating [F]FMISO PET in newly diagnosed HNC patients were considered eligible for review.
RESULTS
We found the following important results from our literature review: 1)Studies have focussed on comparing [F]FMISO PET to other hypoxia biomarkers, but currently there is no evidence of a strong correlation between [F]FMISO and these biomarkers.2)The results of [F]FMISO PET imaging are not necessarily repeatable, and the location of uptake may vary during treatment.3)Tumour recurrences do not always occur within the pretreatment hypoxic volume on [F]FMISO PET.4)Dose modification studies using [F]FMISO PET are in a pilot phase and so far, none have demonstrated the efficacy of radiotherapy dose painting according to [F]FMISO uptake on PET.
CONCLUSIONS
Our results suggest it is unlikely [F]FMISO PET will be suitable for radiotherapy dose adaptation in HNC in a routine clinical setting. Part of the problem is that hypoxia is a dynamic phenomenon, and thus difficult to delineate on a single scan. Currently, it is anticipated that [F]FMISO PET will remain useful within the research setting only.
目的
缺氧是头颈部癌(HNC)放射抵抗的主要原因,会导致治疗失败和疾病复发。F-氟米索硝唑[F]FMISO PET已被提议作为一种定位HNC肿瘤内缺氧的方法,以便在缺氧区域特异性地增加放射治疗剂量。然而,鉴于[F]FMISO PET成本高、耗时且难以获得,这一概念在常规临床实践中可能无法实现。本综述的目的是总结涉及[F]FMISO PET的临床研究,以确定它是否可用于指导HNC的放射治疗。
方法
对PubMed和科学网数据库进行了全面的文献检索。研究新诊断HNC患者中[F]FMISO PET的研究被认为符合综述条件。
结果
我们从文献综述中发现了以下重要结果:1)研究主要集中在将[F]FMISO PET与其他缺氧生物标志物进行比较,但目前没有证据表明[F]FMISO与这些生物标志物之间存在强相关性。2)[F]FMISO PET成像结果不一定具有可重复性,并且摄取位置在治疗期间可能会发生变化。3)肿瘤复发并不总是发生在[F]FMISO PET治疗前的缺氧区域内。4)使用[F]FMISO PET的剂量调整研究尚处于试验阶段,到目前为止,没有一项研究证明根据PET上[F]FMISO摄取情况进行放射治疗剂量描绘的有效性。
结论
我们的结果表明,[F]FMISO PET在常规临床环境中不太可能适用于HNC的放射治疗剂量调整。部分问题在于缺氧是一种动态现象,因此难以在单次扫描中进行描绘。目前,预计[F]FMISO PET仅在研究环境中仍有用处。
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