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用[F]FDG-PET评估肾脏葡萄糖摄取:方法学进展与代谢结果

Evaluation of renal glucose uptake with [F]FDG-PET: Methodological advancements and metabolic outcomes.

作者信息

Rebelos Eleni, Mari Andrea, Oikonen Vesa, Iida Hidehiro, Nuutila Pirjo, Ferrannini Ele

机构信息

Turku PET Centre, University of Turku, Turku, Finland; CNR Institute of Clinical Physiology, Pisa, Italy.

CNR Institute of Neuroscience, Padova, Italy.

出版信息

Metabolism. 2023 Apr;141:155382. doi: 10.1016/j.metabol.2022.155382. Epub 2022 Dec 21.

DOI:10.1016/j.metabol.2022.155382
PMID:36565992
Abstract

BACKGROUND/PURPOSE: Studying renal glucose metabolism non-invasively in humans is an unmet need. Positron emission tomography (PET) is the current gold standard for measuring regional tissue glucose uptake rates, but the most widely used glucose analog ([F]FDG) is not a good substrate for sodium-glucose cotransporters (SGLTs). As a consequence, [F]FDG spills over into the urine and [F]FDG-PET considerably underestimates published rates of whole renal glucose uptake obtained using the arterial-venous difference technique. Our aim was to assess whether [F]FDG-PET can be used in the study of renal glucose metabolism in humans.

METHODS

We measured individual [F]FDG radioactivity in the urine and estimated intraluminal [F]FDG radioactivity concentration; these values were used to correct renal [F]FDG-PET data acquired ∼90 min from tracer injection under fasting conditions and during an insulin clamp in 9 lean and 16 obese subjects.

RESULTS

We found that the corrected glucose uptake is consistently higher in the medulla than cortex and that both cortical and medullary glucose uptake are higher in lean than obese participants under both fasting and insulinized conditions. Moreover, cortical but not medullary glucose uptake is increased from the fasting to the insulinized condition.

CONCLUSION

The data show for the first time that [F]FDG-PET can still provide relevant physiological information on regional renal glucose uptake on the condition that [F]FDG uptake is corrected for tubular radioactivity.

摘要

背景/目的:在人体中对肾脏葡萄糖代谢进行无创研究是一项尚未满足的需求。正电子发射断层扫描(PET)是测量局部组织葡萄糖摄取率的当前金标准,但最广泛使用的葡萄糖类似物([F]FDG)并非钠-葡萄糖协同转运蛋白(SGLT)的良好底物。因此,[F]FDG会溢出到尿液中,并且[F]FDG-PET大大低估了使用动静脉差技术获得的已发表的全肾葡萄糖摄取率。我们的目的是评估[F]FDG-PET是否可用于人体肾脏葡萄糖代谢的研究。

方法

我们测量了尿液中个体[F]FDG的放射性,并估计了管腔内[F]FDG的放射性浓度;这些值用于校正9名瘦人和16名肥胖受试者在空腹条件下以及胰岛素钳夹期间从示踪剂注射开始约90分钟时获取的肾脏[F]FDG-PET数据。

结果

我们发现,校正后的葡萄糖摄取在髓质中始终高于皮质,并且在空腹和胰岛素化条件下,瘦人皮质和髓质的葡萄糖摄取均高于肥胖参与者。此外,从空腹到胰岛素化状态,皮质而非髓质的葡萄糖摄取增加。

结论

数据首次表明,在对[F]FDG摄取进行肾小管放射性校正的情况下,[F]FDG-PET仍可提供有关局部肾脏葡萄糖摄取的相关生理信息。

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