评估 3mm 股骨缺损的正常和骨质疏松大鼠的新骨形成：使用 2-脱氧-2-[(18)F]氟-D-葡萄糖（(18)F-FDG）和(18)F-氟化物的动态 PET-CT（dPET-CT）进行功能评估。

Evaluation of new bone formation in normal and osteoporotic rats with a 3-mm femur defect: functional assessment with dynamic PET-CT (dPET-CT) using 2-deoxy-2-[(18)F]fluoro-D-glucose ( (18)F-FDG) and (18)F-fluoride.

机构信息

Clinical Cooperation Unit Nuclear Medicine, German Cancer Research Center, Im Neuenheimer Feld 280, 69120 Heidelberg, Germany.

出版信息

Mol Imaging Biol. 2013 Jun;15(3):336-44. doi: 10.1007/s11307-012-0592-9.

DOI:10.1007/s11307-012-0592-9

PMID:22965489

Abstract

PURPOSE

The aim of the current study was to assess the formation of new bone in a 3-mm created defect in the femur and its adjacent bone tissue in osteoporotic and normal animals. The assessment is based on bone remodeling and glucose metabolism in a rat model with a 3-mm created defct in the femur using (18)F-fluoride and 2-deoxy-2-[(18)F]fluoro-D-glucose ((18)F-FDG) as tracers for dynamic PET-CT (dPET-CT). The (18)F-fluoride PET data were compared with those of (18)F-FDG.

PROCEDURES

Osteoporosis was induced by ovariectomy and a calcium restricted diet in each rat (n = 7). Alternatively, a sham operation was performed in the control group (n = 8). After 3 months, all rats were operated to create a 3-mm defect using an oscillating saw in the distal metaphyseal femur, which was internally fixed with a metal plate. Eighteen weeks after osteoporosis induction and 6 weeks following femoral surgery, dPET-CT studies scan were performed with (18)F-FDG and (18)F-fluoride. Following PET data acquisition, standardized uptake values (SUVs) were calculated from the tracer concentration values. Then, a two-tissue compartmental learning-machine model was applied to the data for the calculation of the compartment parameters (K1-k4, VB, Ki). Furthermore, a non-compartmental model based on the fractal dimension was applied for quantitative analysis of both groups and both tracers. Finally, multivariate analysis was performed for the statistical analysis of the kinetic data.

RESULTS

The values for K1 and Ki were higher in the osteoporotic rats than in the control group. Ki and K1 of (18)F-fluoride in the adjacent bone tissue differ significantly based on the Wilcoxon rank-sum test for the osteoporotic and control group (p < 0.05). The sensitivity and the negative predictive value (NPV) based on linear discriminant analysis was high with a value of 100 % for both tracers and both evaluated regions (defect and adjacent bone tissue) when comparing control and osteoporotic rats. The overall accuracy with (18)F-FDG was generally higher than that with (18)F-fluoride for both evaluated regions for the control and osteoporotic rats based on a multiparameter evaluation.

CONCLUSION

In this study, the changes in tracer kinetics accurately discriminated differences in the created defect in the femur and its adjacent bone tissue between osteoporotic and control rats.

摘要

目的

本研究旨在评估骨质疏松症和正常动物股骨及其相邻骨组织中 3mm 造骨缺陷处新骨的形成。评估方法是使用（18）F-氟化物和 2-脱氧-2-[(18)F]氟代-D-葡萄糖（（18）F-FDG）作为示踪剂，通过股骨 3mm 造骨缺陷的大鼠模型，使用动态 PET-CT（dPET-CT）进行骨重塑和葡萄糖代谢。将（18）F-氟化物 PET 数据与（18）F-FDG 数据进行比较。

方法

通过卵巢切除术和钙限制饮食在每只大鼠（n=7）中诱导骨质疏松症。或者，在对照组（n=8）中进行假手术。3 个月后，所有大鼠均使用旋转锯在股骨远端干骺端制作 3mm 缺陷，并用金属板内固定。骨质疏松症诱导后 18 周和股骨手术后 6 周，进行 dPET-CT 研究扫描，用（18）F-FDG 和（18）F-氟化物进行扫描。进行 PET 数据采集后，从示踪剂浓度值计算标准化摄取值（SUVs）。然后，应用双组织房室学习机模型对数据进行计算房室参数（K1-k4、VB、Ki）。此外，应用基于分形维数的非房室模型对两组和两种示踪剂进行定量分析。最后，对动力学数据进行多变量分析进行统计分析。

结果

骨质疏松症大鼠的 K1 和 Ki 值高于对照组。骨质疏松症组和对照组的（18）F-氟化物在相邻骨组织中的 Ki 和 K1 差异有统计学意义（Wilcoxon 秩和检验，p<0.05）。基于线性判别分析的敏感性和阴性预测值（NPV）在两组和两个评估区域（缺陷和相邻骨组织）中均为 100%，对于比较对照组和骨质疏松症大鼠的两种示踪剂均具有较高的价值。基于多参数评估，对于对照组和骨质疏松症大鼠的两个评估区域，（18）F-FDG 的整体准确性普遍高于（18）F-氟化物。

结论

在这项研究中，示踪剂动力学的变化准确地区分了骨质疏松症和对照组大鼠股骨及其相邻骨组织中造骨缺陷处的差异。

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评估 3mm 股骨缺损的正常和骨质疏松大鼠的新骨形成：使用 2-脱氧-2-[(18)F]氟-D-葡萄糖（(18)F-FDG）和(18)F-氟化物的动态 PET-CT（dPET-CT）进行功能评估。

Evaluation of new bone formation in normal and osteoporotic rats with a 3-mm femur defect: functional assessment with dynamic PET-CT (dPET-CT) using 2-deoxy-2-[(18)F]fluoro-D-glucose ( (18)F-FDG) and (18)F-fluoride.

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