通过超极化碳磁共振对嗜铬细胞瘤代谢进行的人体首次体内描绘。
First-in-human in-vivo depiction of paraganglioma metabolism by hyperpolarised C-magnetic resonance.
作者信息
Chowdhury Rafat, Moorthy Myuri, Smith Lorna, Mueller Christoph A, Gong Fiona, Rogers Harriet J, Papoutsaki Marianthi-Vasiliki, Syer Tom, Brembilla Giorgio, Singh Saurabh, Retter Adam, Parry Thomas, Clemente Joey, Caselton Lucy, Jeraj Hassan, Bullock Max, Mathew Manju, Chung Teng Teng, Akker Scott, Chapple Paul, Salsbury Grace A, Bainbridge Alan, Atkinson David, Gadian David G, Srirangalingam Umasuthan, Punwani Shonit
机构信息
Centre for Medical Imaging, Division of Medicine, University College London, London, UK.
Department of Endocrinology, University College London Hospital, London, UK.
出版信息
BJR Case Rep. 2023 Sep 28;9(6):20220089. doi: 10.1259/bjrcr.20220089. eCollection 2023 Nov.
Phaeochromocytomas (PCC) and paragangliomas (PGL), cumulatively referred to as PPGLs, are neuroendocrine tumours arising from neural crest-derived cells in the sympathetic and parasympathetic nervous systems. Predicting future tumour behaviour and the likelihood of metastatic disease remains problematic as genotype-phenotype correlations are limited, the disease has variable penetrance and, to date, no reliable molecular, cellular or histological markers have emerged. Tumour metabolism quantification can be considered as a method to delineating tumour aggressiveness by utilising hyperpolarised C-MR (HP-MR). The technique may provide an opportunity to non-invasively characterise disease behaviour. Here, we present the first instance of the analysis of PPGL metabolism via HP-MR in a single case.
嗜铬细胞瘤(PCC)和副神经节瘤(PGL),统称为PPGLs,是起源于交感神经系统和副交感神经系统中神经嵴衍生细胞的神经内分泌肿瘤。由于基因型与表型的相关性有限、疾病具有可变的外显率,且迄今为止尚未出现可靠的分子、细胞或组织学标志物,预测未来肿瘤行为和转移性疾病的可能性仍然存在问题。肿瘤代谢定量可被视为一种利用超极化碳磁共振(HP-MR)来描述肿瘤侵袭性的方法。该技术可能提供一个非侵入性地描述疾病行为的机会。在此,我们展示了通过HP-MR对单个病例的PPGL代谢进行分析的首个实例。
Zotero 插件