体外研究卡莫司汀（Gliadel）药膜的磁共振成像和计算机断层扫描的连续变化。

In vitro Study of Serial Changes to Carmustine Wafers (Gliadel) with MR Imaging and Computed Tomography.

机构信息

Department of Diagnostic and Interventional Radiology, Osaka City University Graduate School of Medicine.

Department of Medical Physics in Advanced Biomedical Sciences, Faculty of Life Sciences, Kumamoto University.

出版信息

Magn Reson Med Sci. 2018 Jan 10;17(1):58-66. doi: 10.2463/mrms.mp.2017-0035. Epub 2017 Sep 4.

DOI:10.2463/mrms.mp.2017-0035

PMID:28867760

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5760234/

Abstract

PURPOSE

Implantation of carmustine wafers (Gliadel) in vivo is accompanied by characteristic serial changes on MRI and CT, such as transient hyperintensity of the wafers on T-weighted images (TWIs) and considerable gas accumulation in surgical resection cavities. The purpose of this study was to evaluate intrinsic imaging changes to carmustine wafers in vitro.

METHODS

Three phantoms simulating a surgical resection cavity were constructed. Each contained either a carmustine wafer fixed with oxidized regenerated cellulose and fibrin sealant, an unfixed carmustine wafer, or a fixed polyethylene control disk, immersed in phosphate-buffered saline. Image acquisition of the phantoms was performed on MRI and CT until 182 days after construction. The radiological appearances of the object in each phantom were assessed by visual evaluation and quantification of the region of interest. The volume of gas around the objects at 24 h after constructing the phantoms was also measured.

RESULTS

The carmustine wafers showed low signal intensities on TWIs and T-weighted images (TWIs), and high densities on CT images at 24 h. The signal intensities and CT densities gradually approximated those of saline over a period of months. However, the carmustine wafers never showed hyperintensity on TWIs in vitro. The fixed carmustine wafer showed slower radiological changes, as compared to the unfixed wafer. The gas volume around the fixed carmustine wafer was greater than that around the fixed control disk.

CONCLUSION

Changes to the carmustine wafers probably reflected penetration of fluid inside and degradation of the hydrophobic matrix. Reported transient hyperintensity of wafers on TWIs in vivo is regarded as the result of biological reactions, whereas the initial production of gas is considered as an intrinsic characteristic of wafers.

摘要

目的

卡莫司汀植入物（Gliadel）在体内的植入伴随着 MRI 和 CT 上的特征性系列变化，例如 T 加权图像（TWI）上的薄片瞬时高信号强度和手术切除腔中的大量气体积聚。本研究的目的是评估体外卡莫司汀薄片的固有成像变化。

方法

构建了三个模拟手术切除腔的体模。每个体模中都含有用氧化再生纤维素和纤维蛋白密封剂固定的卡莫司汀薄片、未固定的卡莫司汀薄片或固定的聚乙烯对照盘，浸入磷酸盐缓冲盐水。在构建体模后 182 天内对体模进行 MRI 和 CT 图像采集。通过视觉评估和感兴趣区域的量化评估评估每个体模中物体的放射学外观。还测量了构建体模后 24 小时物体周围的气体体积。

结果

卡莫司汀薄片在 24 小时时在 TWI 和 T 加权图像（TWI）上显示低信号强度，在 CT 图像上显示高密度。信号强度和 CT 密度在几个月的时间内逐渐接近盐水的水平。然而，卡莫司汀薄片在体外从未显示过 TWI 上的高信号强度。与未固定的薄片相比，固定的卡莫司汀薄片显示出较慢的放射学变化。固定的卡莫司汀薄片周围的气体体积大于固定的对照盘周围的气体体积。

结论

卡莫司汀薄片的变化可能反映了内部流体的渗透和疏水性基质的降解。体内薄片 TWI 上报告的瞬时高信号强度被认为是生物反应的结果，而初始气体的产生被认为是薄片的固有特征。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3682/5760234/6f4ebcf00c97/mrms-17-058-g1.jpg

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体外研究卡莫司汀（Gliadel）药膜的磁共振成像和计算机断层扫描的连续变化。

In vitro Study of Serial Changes to Carmustine Wafers (Gliadel) with MR Imaging and Computed Tomography.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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