Magnetic resonance imaging assessed cortical porosity is highly correlated with muCT porosity

Won C Bae; Shantanu Patil; Reni Biswas; Shihong Li; Eric Y. Chang

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Magnetic resonance imaging assessed cortical porosity is highly correlated with muCT porosity

机译：磁共振成像评估皮质孔隙度与muCT孔隙度高度相关

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Cortical bone is typically regarded as "MR invisible" with conventional clinical magnetic resonance imaging (MRI) pulse sequences. However, recent studies have demonstrated that free water in the microscopic pores of cortical bone has a short T2* but a relatively long T2, and may be detectable with conventional clinical spin echo (SE) or fast spin echo (FSE) sequences. In this study we describe the use of a conventional two-dimensional (2D) FSE sequence to assess cortical bone microstructure and measure cortical porosity using a clinical 3 T scanner. Twelve cadaveric human cortical bone samples were studied with MRI and microcomputed tomography (uCT) (downsampled to the same spatial resolution). Preliminary results show that FSE-determined porosity is highly correlated (R2 = 0.83; P < 0.0001) with uCT porosity. Bland-Altman analysis suggested a good agreement between FSE and uCT with tight limit of agreement at around 3%. There is also a small bias of — 2% for the FSE data, which suggested that the FSE approach slightly underestimated uCT porosity. The results demonstrate that cortical porosity can be directly assessed using conventional clinical FSE sequences. The clinical feasibility of this approach was also demonstrated on six healthy volunteers using 2D FSE sequences as well as 2D ultrashort echo time (UTE) sequences with a minimal echo time (TE) of 8 us, which provide high contrast imaging of cortical bone in vivo.

机译：常规临床磁共振成像（MRI）脉冲序列通常将皮质骨视为“ MR不可见”。但是，最近的研究表明，皮质骨微观孔中的游离水具有较短的T2 *但相对较长的T2，并且可以通过常规的临床自旋回波（SE）或快速自旋回波（FSE）序列进行检测。在这项研究中，我们描述了使用常规的二维（2D）FSE序列使用临床3 T扫描仪评估皮质骨微结构和测量皮质孔隙率。使用MRI和微型计算机断层扫描（uCT）（降采样至相同的空间分辨率）研究了十二具尸体人皮质骨样品。初步结果表明，FSE确定的孔隙度与uCT孔隙度高度相关（R2 = 0.83; P <0.0001）。 Bland-Altman分析表明，FSE和uCT之间达成了良好的协议，协议严格限制在3％左右。 FSE数据也有2％的小偏差，这表明FSE方法稍微低估了uCT孔隙度。结果表明，可以使用常规临床FSE序列直接评估皮质孔隙率。该方法的临床可行性还通过使用2D FSE序列以及具有8 us最小回波时间（TE）的2D超短回波时间（UTE）序列在六名健康志愿者身上得到了证明，它们可在体内对皮质骨进行高对比度成像。

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《Bone》 |2014年第null期|共6页
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Won C Bae; Shantanu Patil; Reni Biswas; Shihong Li; Eric Y. Chang;
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中图分类骨科学（运动系疾病、矫形外科学）;
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1. Magnetic resonance imaging assessed cortical porosity is highly correlated with muCT porosity [J] . Won C Bae, Shantanu Patil, Reni Biswas, Bone . 2014,第Null期

机译：磁共振成像评估皮质孔隙度与muCT孔隙度高度相关
2. Cortical Perfusion and Tubular Function as Evaluated by Magnetic Resonance Imaging Correlates with Annual Loss in Renal Function in Moderate Chronic Kidney Disease [J] . Prasad Pottumarthi V., Li Lu-Ping, Thacker Jon M., American Journal of Nephrology . 2019,第2期

机译：通过磁共振成像评估的皮质灌注和管状函数与中度慢性肾病中的肾功能的年损失相关
3. Ultrashort echo time magnetic resonance imaging (UTE-MRI) of cortical bone correlates well with histomorphometric assessment of bone microstructure [J] . Jerban Saeed, Ma Yajun, Wong Jonathan H., Bone . 2019,第期

机译：皮质骨的超短回波时间磁共振成像（UTE-MRI）与骨微观结构的组织形态性评估良好相关
4. THE CHARACTERIZATION OF AGE-RELATED HUMAN CORTICAL BONE POROSITY, WATER DISTRIBUTION CHANGES BY NUCLEAR MAGNETIC RESONANCE [C] . Qingwen Ni, Juffry S. Nyman, Xiaodu Wang, ASME Bioengineering Conference . 2007

机译：年龄相关人体皮质骨孔隙率的表征，核磁共振的水分布变化
5. Behavioral and neural correlates of human visual processing as assessed by psychophysics and functional magnetic resonance imaging. [D] . Kozak, Lajos R. 2009

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6. Magnetic resonance imaging assessed cortical porosity is highly correlated with μCT porosity [O] . Won C Bae, Shantanu Patil, Reni Biswas, -1

机译：磁共振成像评估皮质孔隙度与μCT孔隙度高度相关
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机译：通过核磁共振成像表征绿态和部分致密al / sub 2 / O / sub 3 /的孔隙率

Magnetic resonance imaging assessed cortical porosity is highly correlated with muCT porosity

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