一种用于脊柱三维定量计算机断层扫描的低辐射暴露方案。

A low-radiation exposure protocol for 3D QCT of the spine.

作者信息

Museyko O, Heinemann A, Krause M, Wulff B, Amling M, Püschel K, Glüer C C, Kalender W, Engelke K

机构信息

Institute of Medical Physics (IMP), University of Erlangen-Nuremberg, Henkestr. 91, 91052, Erlangen, Germany,

出版信息

Osteoporos Int. 2014 Mar;25(3):983-92. doi: 10.1007/s00198-013-2544-x. Epub 2013 Oct 19.

DOI:10.1007/s00198-013-2544-x

PMID:24142100

Abstract

SUMMARY

Cadaver and phantom measurements and simulations confirmed that radiation exposure in 3D QCT of the spine can be reduced if 80 kV instead of 120 kV protocols are used; 120 mAs and slice thicknesses of 1-1.3 mm should be usable but obese patient will require higher milliampere-second settings.

PURPOSE

To develop a low-radiation exposure CT acquisition protocol for 3D QCT of the thoracolumbar spine.

METHODS

Twenty-six cadavers were scanned with a standard protocol of 120 kV, 100 mAs and with a low-dose protocol using 90 kV, 150 mAs. The scan range included the vertebrae T6 to L4. Each vertebra was segmented and the integral volume and BMD of the total vertebral body were determined. Effective dose values were estimated. The impact of milliampere-second reduction on image quality was simulated by adding noise.

RESULTS

One hundred ninety-six vertebrae were analyzed. Integral volume as well as integral BMD correlated significantly (p < 0.001) between standard and low-dose protocols (volume, r (2) = 0.991, residual root mean square (RMS) error, 0.77 cm(3); BMD, r (2) = 0.985, RMS error, 4.21 mg/cm(3)). The slope significantly differed from 1 for integral BMD but not for volume hinting at residual field inhomogeneity differences between the two voltage settings that could be corrected by cross-calibration. Compared to the standard protocol, effective dose was reduced by over 50 % in the low-dose protocol. Adding noise in the 90 kV images to simulate a reduction from 150 to 100 mAs did not affect the results for integral volume or BMD.

CONCLUSIONS

For 3D QCT of the spine, depending on scanner type, 80 or 90 kV instead of 120 kV protocols may be considered as an important option to reduce radiation exposure; 120 mAs and slice thicknesses of 1-1.5 mm are usable if segmentation is robust to noise. In obese patients, higher milliampere-second settings will be required.

摘要

尸体和体模测量及模拟证实，如果使用80 kV而非120 kV的扫描方案，脊柱三维定量CT（3D QCT）的辐射暴露可降低；120 mAs及1 - 1.3 mm的层厚应该可行，但肥胖患者需要更高的毫安秒设置。

目的

为胸腰椎的3D QCT制定一种低辐射暴露的CT采集方案。

方法

对26具尸体分别采用120 kV、100 mAs的标准方案以及90 kV、150 mAs的低剂量方案进行扫描。扫描范围包括T6至L4椎体。对每个椎体进行分割，并确定整个椎体的总体积和骨密度（BMD）。估算有效剂量值。通过添加噪声模拟毫安秒减少对图像质量的影响。

结果

共分析了196个椎体。标准方案和低剂量方案之间的总体积以及总骨密度显著相关（p < 0.001）（体积，r² = 0.991，残余均方根（RMS）误差，0.77 cm³；骨密度，r² = 0.985，RMS误差，4.21 mg/cm³）。总骨密度的斜率显著不同于1，但总体积的斜率并非如此，这表明两种电压设置之间存在残余场不均匀性差异，可通过交叉校准进行校正。与标准方案相比，低剂量方案的有效剂量降低了50%以上。在90 kV图像中添加噪声以模拟从150 mAs降至100 mAs，并未影响总体积或骨密度的结果。

结论

对于脊柱的3D QCT，根据扫描仪类型，可考虑使用80或90 kV而非120 kV的方案作为减少辐射暴露的重要选择；如果分割对噪声具有鲁棒性，120 mAs及1 - 1.5 mm的层厚是可行的。对于肥胖患者，将需要更高的毫安秒设置。

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AJNR Am J Neuroradiol. 2010 Apr;31(4):620-5. doi: 10.3174/ajnr.A1871. Epub 2009 Nov 26.

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一种用于脊柱三维定量计算机断层扫描的低辐射暴露方案。

A low-radiation exposure protocol for 3D QCT of the spine.

作者信息

机构信息

出版信息

SUMMARY

PURPOSE

METHODS

RESULTS

CONCLUSIONS

摘要

目的

方法

结果

结论

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