High Physiological 18F-FDG Uptake in Normal Pituitary Gland on Digital PET Scanner

IF 0.6 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

World Journal of Nuclear Medicine Pub Date : 2024-05-01 DOI:10.1055/s-0044-1786733

Anjali Jain, Sharjeel Usmani, Khulood Al Riyami, Avni Mittal, Sofiullah Abubakar, Asiya Al Busaidi, S. Kheruka, Rashid Al Sukaiti

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Abstract

Purpose Recently developed digital positron emission tomography/computed tomography (PET/CT) scanners (digital PET [dPET]) have given new dimensions to molecular imaging. dPET scanner has very high sensitivity, spatial resolution, and image contrast that leads to increased uptake of signal in small-volume structures like pituitary gland (PG) making them visible on PET/CT scan even in absence of any pathology. Adequate knowledge of physiological fluoro-2 deoxy D glucose uptake in PG is required in interpretation of dPET for correct diagnosis and reducing unnecessary additional imaging. The aim of this study is to evaluate the frequency of physiological PG uptake on dPET. Material and Methods Eighty-eight subjects (mean age, 54.44 ± 14.18 years; range, 26–84 years; 63 females and 25 males) with normal PG on magnetic resonance imaging brain and imaged within 6 months on dPET were included in this research study. Out of 88 patients, 20 control subjects (mean age, 58.15 ± 11.08 years: 15 females and 5 males) underwent PET/CT on conventional PET. All images were acquired with similar and standard acquisition protocol and reconstruction done with Time of flight with Point spread function. PG uptake was compared visually and quantitatively. Results PG uptake was seen in 43 patients (48.8%). Out of 43 patients, 31 (72%) showed low uptake, 11 (26%) showed intermediate grade of uptake, and 1 patient (2%) showed intermediate-to-high uptake and was categorized as high-grade uptake. In the control group of 20 patients, 3 (15%) showed low uptake, while none of them showed intermediate or high uptake. Conclusions Physiological PG uptake is commonly seen on dPET. Low-to-intermediate grade of PG uptake on dPET in an asymptomatic patient is physiological and does not require further evaluation and should be reported with caution.

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数字 PET 扫描仪对正常垂体的高生理性 18F-FDG 摄取

最近开发的数字正电子发射断层扫描（PET）/计算机断层扫描（CT）扫描仪（数字 PET [dPET]）为分子成像赋予了新的内涵。dPET 扫描仪具有极高的灵敏度、空间分辨率和图像对比度，可增加垂体（PG）等小体积结构的信号摄取，使其在 PET/CT 扫描中可见，即使没有任何病理变化。在解读 dPET 时，需要充分了解 PG 的生理性氟-2-脱氧 D 葡萄糖摄取情况，以便做出正确诊断，减少不必要的额外成像。本研究旨在评估 dPET 对生理性 PG 摄取的频率。材料和方法本研究共纳入 88 名脑部磁共振成像 PG 正常且在 6 个月内接受过 dPET 扫描的受试者（平均年龄为 54.44±14.18 岁；年龄范围为 26-84 岁；女性 63 人，男性 25 人）。在 88 名患者中，20 名对照组受试者（平均年龄为 58.15 ± 11.08 岁，其中女性 15 人，男性 5 人）接受了传统 PET 的 PET/CT 检查。所有图像均采用类似的标准采集方案，并利用点扩散功能进行飞行时间重建。对 PG 摄取进行了直观和定量比较。结果 43 名患者（48.8%）出现了 PG 摄取。在 43 例患者中，31 例（72%）表现为低摄取，11 例（26%）表现为中度摄取，1 例（2%）表现为中度至高度摄取，被归类为高度摄取。在对照组的 20 名患者中，有 3 人（15%）表现为低摄取，没有人表现为中度或高度摄取。结论生理性 PG 摄取常见于 dPET。无症状患者在 dPET 上出现中低水平的 PG 摄取属于生理性摄取，无需进一步评估，但应谨慎报告。

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来源期刊

World Journal of Nuclear Medicine RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-

自引率

16.70%

发文量

118

审稿时长

48 weeks