姑息性磁共振引导高强度聚焦超声(MR-HIFU)治疗骨转移瘤期间磁共振测温的质量
Quality of MR thermometry during palliative MR-guided high-intensity focused ultrasound (MR-HIFU) treatment of bone metastases.
作者信息
Lam Mie K, Huisman Merel, Nijenhuis Robbert J, van den Bosch Maurice Aaj, Viergever Max A, Moonen Chrit Tw, Bartels Lambertus W
机构信息
Image Sciences Institute, University Medical Center Utrecht, Utrecht, The Netherlands.
Department of Radiology, University Medical Center Utrecht, Utrecht, The Netherlands.
出版信息
J Ther Ultrasound. 2015 Mar 24;3:5. doi: 10.1186/s40349-015-0026-7. eCollection 2015.
BACKGROUND
Magnetic resonance (MR)-guided high-intensity focused ultrasound has emerged as a clinical option for palliative treatment of painful bone metastases, with MR thermometry (MRT) used for treatment monitoring. In this study, the general image quality of the MRT was assessed in terms of signal-to-noise ratio (SNR) and apparent temperature variation. Also, MRT artifacts were scored for their occurrence and hampering of the treatment monitoring.
METHODS
Analyses were performed on 224 MRT datasets retrieved from 13 treatments. The SNR was measured per voxel over time in magnitude images, in the target lesion and surrounding muscle, and was averaged per treatment. The standard deviation over time of the measured temperature per voxel in MRT images, in the muscle outside the heated region, was defined as the apparent temperature variation and was averaged per treatment. The scored MRT artifacts originated from the following sources: respiratory and non-respiratory time-varying field inhomogeneities, arterial ghosting, and patient motion by muscle contraction and by gross body movement. Distinction was made between lesion type, location, and procedural sedation and analgesic (PSA).
RESULTS
The average SNR was highest in and around osteolytic lesions (21 in lesions, 27 in surrounding muscle, n = 4) and lowest in the upper body (9 in lesions, 16 in surrounding muscle, n = 4). The average apparent temperature variation was lowest in osteolytic lesions (1.2°C, n = 4) and the highest in the upper body (1.7°C, n = 4). Respiratory time-varying field inhomogeneity MRT artifacts occurred in 85% of the datasets and hampered treatment monitoring in 81%. Non-respiratory time-varying field inhomogeneities and arterial ghosting MRT artifacts were most frequent (94% and 95%) but occurred only locally. Patient motion artifacts were highly variable and occurred less in treatments of osteolytic lesions and using propofol and esketamine as PSA.
CONCLUSIONS
In this study, the general image quality of MRT was observed to be higher in osteolytic lesions and lower in the upper body. Respiratory time-varying field inhomogeneity was the most prominent MRT artifact. Patient motion occurrence varied between treatments and seemed to be related to lesion type and type of PSA. Clinicians should be aware of these observed characteristics when interpreting MRT images.
背景
磁共振(MR)引导下的高强度聚焦超声已成为疼痛性骨转移瘤姑息治疗的一种临床选择,采用磁共振温度测量(MRT)进行治疗监测。在本研究中,从信噪比(SNR)和表观温度变化方面评估了MRT的总体图像质量。此外,对MRT伪影的发生情况及其对治疗监测的妨碍进行了评分。
方法
对从13次治疗中获取的224个MRT数据集进行分析。在幅度图像中,随时间对目标病变和周围肌肉中的每个体素测量SNR,并对每次治疗求平均值。将MRT图像中加热区域外肌肉中每个体素测量温度随时间的标准差定义为表观温度变化,并对每次治疗求平均值。评分的MRT伪影源于以下来源:呼吸和非呼吸时变场不均匀性、动脉鬼影以及肌肉收缩和身体整体运动引起的患者运动。对病变类型、位置以及程序性镇静和镇痛(PSA)进行了区分。
结果
溶骨性病变及其周围区域的平均SNR最高(病变中为21,周围肌肉中为27,n = 4),上半身最低(病变中为9,周围肌肉中为16,n = 4)。溶骨性病变中的平均表观温度变化最低(1.2°C,n = 4),上半身最高(1.7°C,n = 4)。呼吸时变场不均匀性MRT伪影出现在85%的数据集里,其中81%妨碍了治疗监测。非呼吸时变场不均匀性和动脉鬼影MRT伪影最为常见(分别为94%和95%),但仅局部出现。患者运动伪影变化很大,在溶骨性病变治疗以及使用丙泊酚和艾司氯胺酮作为PSA的治疗中出现较少。
结论
在本研究中,观察到MRT的总体图像质量在溶骨性病变中较高,在上半身较低。呼吸时变场不均匀性是最突出的MRT伪影。患者运动的发生率在不同治疗之间有所不同,似乎与病变类型和PSA类型有关。临床医生在解读MRT图像时应了解这些观察到的特征。
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