使用 [F]NaF PET/MRI 评估人体急性骨加载。

Assessment of acute bone loading in humans using [F]NaF PET/MRI.

机构信息

Department of Clinical Physiology, Nuclear Medicine and PET, Rigshospitalet, Copenhagen University Hospital, Valdemar Hansens Vej 3-13, 2600, Glostrup, Denmark.

Department of Radiology, Stanford University, Stanford, CA, USA.

出版信息

Eur J Nucl Med Mol Imaging. 2019 Nov;46(12):2452-2463. doi: 10.1007/s00259-019-04424-2. Epub 2019 Aug 5.

DOI:10.1007/s00259-019-04424-2

PMID:31385012

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6813760/

Abstract

PURPOSE

The acute effect of loading on bone tissue and physiology can offer important information with regard to joint function in diseases such as osteoarthritis. Imaging studies using [F]-sodium fluoride ([F]NaF) have found changes in tracer kinetics in animals after subjecting bones to strain, indicating an acute physiological response. The aim of this study is to measure acute changes in NaF uptake in human bone due to exercise-induced loading.

METHODS

Twelve healthy subjects underwent two consecutive 50-min [F]NaF PET/MRI examinations of the knees, one baseline followed by one post-exercise scan. Quantification of tracer kinetics was performed using an image-derived input function from the popliteal artery. For both scans, kinetic parameters of K, K, k, k, and blood volume were mapped parametrically using nonlinear regression with the Hawkins model. The kinetic parameters along with mean SUV and SUV were compared between the pre- and post-exercise examinations. Differences in response to exercise were analysed between bone tissue types (subchondral, cortical, and trabecular bone) and between regional subsections of knee subchondral bone.

RESULTS

Exercise induced a significant (p < <0.001) increase in [F]NaF uptake in all bone tissues in both knees, with mean SUV increases ranging from 47% in trabecular bone tissue to 131% in subchondral bone tissue. Kinetic parameters involving vascularization (K and blood volume) increased, whereas the NaF extraction fraction [k/(k + k)] was reduced.

CONCLUSIONS

Bone loading induces an acute response in bone physiology as quantified by [F]NaF PET kinetics. Dynamic imaging after bone loading using [F]NaF PET is a promising diagnostic tool in bone physiology and imaging of biomechanics.

摘要

目的

负荷对骨组织和生理学的急性影响可以为骨关节炎等疾病的关节功能提供重要信息。使用[F]-氟化钠([F]NaF)进行的成像研究发现，在使骨骼承受应变后，示踪剂动力学在动物中发生了变化，表明存在急性生理反应。本研究旨在测量由于运动引起的负荷导致的人体骨中 NaF 摄取的急性变化。

方法

12 名健康受试者连续两次接受膝关节 50 分钟[F]NaF PET/MRI 检查，一次基线检查，一次运动后检查。使用来自腘动脉的图像衍生输入函数来定量示踪动力学。对于两次扫描，使用非线性回归和 Hawkins 模型对 K、K、k、k 和血容量的动力学参数进行参数映射。使用参数映射的动力学参数以及平均 SUV 和 SUV 在运动前和运动后检查之间进行比较。分析了骨组织类型（软骨下、皮质和小梁骨）和膝关节软骨下骨的区域亚区之间对运动的反应差异。

结果

运动引起了所有膝关节骨组织中[F]NaF 摄取的显著（p < <0.001）增加，平均 SUV 增加范围从小梁骨组织的 47%到软骨下骨组织的 131%。涉及血管化的动力学参数（K 和血容量）增加，而 NaF 提取分数[k/(k + k)]降低。

结论

骨负荷通过[F]NaF PET 动力学定量引起骨生理学的急性反应。使用[F]NaF PET 对骨负荷后的动态成像，是骨生理学和生物力学成像的一种有前途的诊断工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/59e1/6813760/50786c8fbeac/259_2019_4424_Fig1_HTML.jpg

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使用 [F]NaF PET/MRI 评估人体急性骨加载。

Assessment of acute bone loading in humans using [F]NaF PET/MRI.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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