Department of Diagnostic Imaging, Interventional Radiology, Moffitt Cancer Center, Tampa, FL 33612, USA.
Cancer Control. 2012 Apr;19(2):102-12. doi: 10.1177/107327481201900204.
The high incidence of skeletal metastases in cancer patients warrants careful detection with imaging and follow-up. Efforts are needed to manage pain associated with skeletal metastases as part of overall patient management.
This article reviews the current methods of diagnostic imaging in the evaluation of skeletal metastases and image-guided treatment of bone metastases for the palliation of pain based primarily on the assessment of imaging and interventional radiologic literature.
Approaches to diagnostic imaging of skeletal metastases are summarized. Skeletal scintigraphy provides high sensitivity for detecting skeletal metastases, but targeted computed tomography (CT) or magnetic resonance imaging (MRI) may be needed to increase specificity. Newer imaging modalities, such as positron emission tomography (PET)/CT, improve detection of both lytic and blastic metastases. Minimally invasive percutaneous ablative treatment techniques, including radiofrequency ablation, microwave ablation, and cryoablation, are examined. They provide alternative approaches to radiation therapy to effectively palliate pain of bone metastases. Preliminary results of MR-guided focused ultrasound surgery (MRgFUS) demonstrate its effectiveness in palliating pain from skeletal metastases.
Skeletal scintigraphy is the most common imaging modality for detecting skeletal metastases. Additional imaging may be required based on the type of tumor, the disease state, or treatment options. External-beam radiation therapy remains the mainstay for palliation of pain from bone metastases. Alternative minimally invasive and noninvasive image-guided treatment options can provide effective pain palliation.
癌症患者骨骼转移的高发率需要通过影像学检查和随访进行仔细检测。需要努力管理与骨骼转移相关的疼痛,这是整体患者管理的一部分。
本文主要基于影像学和介入放射学文献评估,回顾了骨骼转移诊断成像的当前方法以及基于影像引导的骨转移治疗方法,以缓解疼痛。
总结了骨骼转移的诊断成像方法。骨骼闪烁扫描对检测骨骼转移具有高灵敏度,但可能需要靶向计算机断层扫描(CT)或磁共振成像(MRI)以提高特异性。较新的成像方式,如正电子发射断层扫描(PET)/CT,可提高溶骨性和成骨性转移的检测率。探讨了微创经皮消融治疗技术,包括射频消融、微波消融和冷冻消融。它们为放射治疗提供了有效的替代方法,可有效缓解骨转移的疼痛。MR 引导聚焦超声手术(MRgFUS)的初步结果表明,其在缓解骨骼转移引起的疼痛方面具有有效性。
骨骼闪烁扫描是检测骨骼转移的最常见影像学方法。可能需要根据肿瘤类型、疾病状态或治疗选择进行额外的影像学检查。外照射治疗仍然是缓解骨转移疼痛的主要方法。替代的微创和无创影像引导治疗选择可以提供有效的疼痛缓解。
