[F]-氟化物PET对使用泰勒空间框架治疗的骨科疾病患者骨重塑监测的预测价值

Predictive value of [F]-fluoride PET for monitoring bone remodeling in patients with orthopedic conditions treated with a Taylor spatial frame.

作者信息

Sanchez-Crespo Alejandro, Christiansson Frederik, Thur Charlotte Karlsson, Lundblad Henrik, Sundin Anders

机构信息

Department of Hospital Physics, Nuclear medicine, Karolinska University Hospital, Stockholm, Sweden.

Karolinska University Hospital, Nuklearmedicin A3:01, S-171 76, Stockholm, Sweden.

出版信息

Eur J Nucl Med Mol Imaging. 2017 Mar;44(3):441-448. doi: 10.1007/s00259-016-3459-5. Epub 2016 Jul 23.

DOI:10.1007/s00259-016-3459-5

PMID:27448575

Abstract

PURPOSE

The Taylor Spatial Frame (TSF) is used to correct orthopedic conditions such as correction osteotomies in delayed fracture healing and pseudarthrosis. Long-term TSF-treatments are common and may lead to complications. Current conventional radiological methods are often unsatisfactory for therapy monitoring. Hence, an imaging technique capable of quantifying bone healing progression would be advantageous.

METHODS

A cohort of 24 patients with different orthopedic conditions, pseudarthrosis (n = 10), deformities subjected to correction osteotomy (n = 9), and fracture (n = 5) underwent dynamic [F]-fluoride (NaF) PET/CT at 8 weeks and 4 months, respectively, after application of a TSF. Parametric images, corresponding to the net transport rate of [F]-fluoride from plasma to bone, K were calculated. The ratio of the maximum K at PET scan 2 and 1 ([Formula: see text]) as well as the ratio of the maximum Standard Uptake Value at PET scan 2 and 1 ([Formula: see text]) were calculated for each individual. Different treatment end-points were scored, and the overall treatment outcome score was compared with the osteoblastic activity progression as scored with [Formula: see text] or [Formula: see text].

RESULTS

[Formula: see text] and [Formula: see text] were not correlated within each orthopedic group (p > 0.1 for all groups), nor for the pooled population (p = 0.12). The distribution of [Formula: see text] was found significantly different among the different orthopedic groups (p = 0.0046) -also for [Formula: see text] (p = 0.022). The positive and negative treatment predictive values for [Formula: see text] were 66.7 % and 77.8 %, respectively. Corresponding values for [Formula: see text] were 25 % and 33.3 % CONCLUSIONS: The [Formula: see text] obtained from dynamic [F]-fluoride-PET imaging is a promising predictive factor to evaluate changes in bone healing in response to TSF treatment.

摘要

目的

泰勒空间框架（TSF）用于矫正骨科病症，如延迟骨折愈合和假关节的矫正截骨术。长期使用TSF治疗很常见，且可能导致并发症。目前的传统放射学方法在治疗监测方面往往不尽人意。因此，一种能够量化骨愈合进程的成像技术将具有优势。

方法

一组24例患有不同骨科病症的患者，包括假关节（n = 10）、接受矫正截骨术的畸形（n = 9）和骨折（n = 5），在应用TSF后分别于8周和4个月接受动态[F] - 氟化物（NaF）PET/CT检查。计算对应于[F] - 氟化物从血浆到骨的净转运率K的参数图像。为每个个体计算PET扫描2和1时的最大K值之比（[公式：见正文]）以及PET扫描2和1时的最大标准摄取值之比（[公式：见正文]）。对不同的治疗终点进行评分，并将总体治疗结果评分与用[公式：见正文]或[公式：见正文]评分的成骨细胞活性进展进行比较。

结果

在每个骨科组内，[公式：见正文]和[公式：见正文]均无相关性（所有组p>0.1），在合并人群中也无相关性（p = 0.12）。发现不同骨科组之间[公式：见正文]的分布存在显著差异（p = 0.0046） - [公式：见正文]也是如此（p = 0.022）。[公式：见正文]的阳性和阴性治疗预测值分别为66.7%和77.8%。[公式：见正文]的相应值为25%和33.3%。结论：从动态[F] - 氟化物PET成像获得的[公式：见正文]是评估TSF治疗后骨愈合变化的一个有前景的预测因素。

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[F]-氟化物PET对使用泰勒空间框架治疗的骨科疾病患者骨重塑监测的预测价值

Predictive value of [F]-fluoride PET for monitoring bone remodeling in patients with orthopedic conditions treated with a Taylor spatial frame.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

目的

方法

结果

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