生酮饮食诱导大脑FDG摄取减少的区域差异。

IF 1.7 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
O A Bennett, S C Ramsay, E Malacova, P Bourgeat, S J Goodman, C J Dunn, B M Robinson, K Lee, D A Pattison
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引用次数: 1

摘要

背景:生酮饮食在治疗多种疾病方面的益处已经使更多的治疗性酮症患者接受了18F-FDG PET扫描。本研究旨在探讨在临床PET扫描环境下,使用18F-FDG摄取作为替代标记物,酮症对脑糖代谢的影响。方法:回顾性分析了52例患者的脑18F-FDG摄取情况,这些患者在生酮饮食和长时间禁食后接受了可能的心脏结节病或疑似心内感染的PET扫描。比较全脑和脑分离区血清葡萄糖和血清酮体(β -羟基丁酸)水平。结果:证实了预期的血清葡萄糖水平与全脑18F-FDG摄取呈负相关。由于血清酮水平的增加,SUVbw的减少也被观察到,这是独立于葡萄糖的影响之外的。与血清葡萄糖水平和血清酮水平相关的SUVbw减少幅度在楔前叶中比在小脑或全脑中更大。结论:在真实世界的临床PET环境中,大脑18F-FDG摄取似乎受到血糖和酮血症的影响。这意味着在评估大脑时,当suv用于区分病理和生理状态时,需要考虑血清葡萄糖和酮水平。这种影响的程度似乎在不同的大脑区域之间有所不同。在选择合适的大脑区域进行SUV归一化时,特别是在评估痴呆时进行数据库比较时,应考虑到这种区域差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Regional differences in the reduction in cerebral FDG uptake induced by the ketogenic diet.

Regional differences in the reduction in cerebral FDG uptake induced by the ketogenic diet.

Regional differences in the reduction in cerebral FDG uptake induced by the ketogenic diet.

Regional differences in the reduction in cerebral FDG uptake induced by the ketogenic diet.

Background: The postulated benefits of the ketogenic diet in the management of multiple medical conditions have seen more patients who are in therapeutic ketosis attending 18F-FDG PET scans. This study aimed to investigate the effect of ketosis on cerebral glucose metabolism in a clinical PET scanning environment using 18F-FDG uptake as a surrogate marker.

Methods: A retrospective audit was conducted of the brain 18F-FDG uptake in 52 patients who underwent PET scans for possible cardiac sarcoidosis or suspected intracardiac infection, following a ketogenic diet and prolonged fasting. SUVbw for whole brain and separate brain regions was compared with serum glucose and serum ketone body (beta-hydroxybutyrate) levels.

Results: The expected negative association between serum glucose levels and whole brain 18F-FDG uptake was confirmed. A reduction in SUVbw due to increasing serum ketones levels was also observed that was independent of and in addition to the effects of glucose. The magnitude of the reduction in SUVbw related to serum glucose level and serum ketone level was found to be greater in the precuneus than in the cerebellum or whole brain.

Conclusion: In a real-world clinical PET setting, cerebral 18F-FDG uptake appears to be affected by glycaemia and ketonaemia. This means when assessing the brain, both serum glucose and ketone levels need to be considered when SUVs are used to distinguish between pathologic and physiologic states. The magnitude of this effect appears to vary between different brain regions. This regional difference should be taken into consideration when selecting the appropriate brain region for SUV normalisation, particularly when undertaking database comparison in the assessment of dementia.

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来源期刊
European Journal of Hybrid Imaging
European Journal of Hybrid Imaging Computer Science-Computer Science (miscellaneous)
CiteScore
3.40
自引率
0.00%
发文量
29
审稿时长
17 weeks
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