The physiological basis of renal nuclear medicine.

IF 1.3 4区 医学 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Nuclear Medicine Communications Pub Date : 2024-09-01 Epub Date: 2024-06-21 DOI:10.1097/MNM.0000000000001872
Adrien Michael Peters
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引用次数: 0

Abstract

Renal physiology underpins renal nuclear medicine, both academic and clinical. Clearance, an important concept in renal physiology, comprises tissue uptake rate of tracer (tissue clearance), disappearance rate from plasma (plasma clearance), appearance rate in urine (urinary clearance) and disappearance rate from tissue. In clinical research, steady-state plasma clearances of para-amino-hippurate and inulin have been widely used to measure renal blood flow (RBF) and glomerular filtration rate (GFR), respectively. Routinely, GFR is measured at non-steady state as plasma clearance of a filtration agent, such as technetium-99m diethylenetriaminepentaacetic acid. Scaled to three-dimensional whole body metrics rather than body surface area, GFR in women is higher than in men but declines faster with age. Age-related decline is predominantly from nephron loss. Tubular function determines parenchymal transit time, which is important in renography, and the route of uptake of technetium-99m dimercaptosuccinic acid, which is via filtration. Resistance to flow is defined according to the pressure-flow relationship but in renography, only transit time can be measured, which, being equal to urine flow divided by collecting system volume, introduces further uncertainty because the volume is also unmeasurable. Tubuloglomerular feedback governs RBF and GFR, is regulated by the macula densa, mediated by adenosine and renin, and can be manipulated with proximal tubular sodium-glucose cotransporter-2 inhibitors. Other determinants of renal haemodynamics include prostaglandins, nitric oxide and dopamine, while protein meal and amino acid infusion are used to measure renal functional reserve. In conclusion, for measuring renal responses to exogenous agents, steady-state para-amino-hippurate and inulin clearances should be replaced with rubidium-82 and gallium-68 EDTA for measuring RBF and GFR.

肾脏核医学的生理基础。
肾脏生理学是肾脏核医学学术和临床的基础。清除率是肾脏生理学的一个重要概念,包括示踪剂的组织吸收率(组织清除率)、血浆消失率(血浆清除率)、尿液出现率(尿液清除率)和组织消失率。在临床研究中,对氨基己二酸和菊粉的稳态血浆清除率被广泛用于测量肾血流量(RBF)和肾小球滤过率(GFR)。常规情况下,肾小球滤过率是以滤过剂(如二乙烯三胺五乙酸锝-99m)的血浆清除率来测量非稳态肾小球滤过率的。按三维全身指标而非体表面积计算,女性的 GFR 比男性高,但随着年龄的增长下降得更快。与年龄有关的下降主要是肾小管功能丧失造成的。肾小管功能决定了肾实质的转运时间(这在肾造影中很重要),以及锝-99m 二巯基丁二酸的吸收途径(这是通过过滤)。血流阻力是根据压力-血流关系定义的,但在肾造影中只能测量转运时间,而转运时间等于尿流除以收集系统容积,由于容积也无法测量,因此带来了更多不确定性。肾小管反馈控制着 RBF 和 GFR,由肾小管黄斑调节,由腺苷和肾素介导,并可通过近端肾小管钠-葡萄糖共转运体-2 抑制剂进行调节。肾血流动力学的其他决定因素包括前列腺素、一氧化氮和多巴胺,而蛋白粉和氨基酸输注可用于测量肾功能储备。总之,在测量肾脏对外源性药物的反应时,应以铷-82 和镓-68 EDTA 取代稳态对氨基己酸盐和菊粉清除率来测量 RBF 和 GFR。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.20
自引率
6.70%
发文量
212
审稿时长
3-8 weeks
期刊介绍: Nuclear Medicine Communications, the official journal of the British Nuclear Medicine Society, is a rapid communications journal covering nuclear medicine and molecular imaging with radionuclides, and the basic supporting sciences. As well as clinical research and commentary, manuscripts describing research on preclinical and basic sciences (radiochemistry, radiopharmacy, radiobiology, radiopharmacology, medical physics, computing and engineering, and technical and nursing professions involved in delivering nuclear medicine services) are welcomed, as the journal is intended to be of interest internationally to all members of the many medical and non-medical disciplines involved in nuclear medicine. In addition to papers reporting original studies, frankly written editorials and topical reviews are a regular feature of the journal.
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