技术说明:磁共振引导聚焦超声应用于脊髓损伤后血脊髓屏障通透性的定量评估。
Technical Note: Quantification of blood-spinal cord barrier permeability after application of magnetic resonance-guided focused ultrasound in spinal cord injury.
机构信息
School of Medicine, University of Utah, Salt Lake City, UT, USA.
Department of Radiology and Imaging Sciences, University of Utah, Salt Lake City, UT, USA.
出版信息
Med Phys. 2021 Aug;48(8):4395-4401. doi: 10.1002/mp.14947. Epub 2021 Jul 5.
PURPOSE
To demonstrate that magnetic resonance-guided focused ultrasound (MRgFUS) facilitates blood-spinal cord barrier (BSCB) permeability and develop observer-independent MRI quantification of BSCB permeability after MRgFUS for spinal cord injury (SCI).
METHODS
Noninjured Sprague-Dawley rats (n = 3) underwent MRgFUS and were administered Evans blue post-MRgFUS to confirm BSCB opening. Absorbance was measured by spectrophotometry and correlated with its corresponding image intensity. Rats (n = 21) underwent T8-T10 laminectomy and extradural compression of the spinal cord (23g weighted aneurysm-type clip, 1 min). The intervention group (n = 11) was placed on a preclinical MRgFUS system, administered microbubbles (Optison, 0.2 mL/kg), and received 3 MRgFUS sonications (25 ms bursts, 1 Hz pulses for 3 min, 3 acoustic W, approximately 1.0-2.1 MPa peak pressure as measured via hydrophone). The sham group (n = 10) received equivalent procedures with no sonications. T1w MRI was obtained both pre- and post-MRgFUS BSCB opening. Spinal cords were segmented manually or semiautomatically and a Pearson correlation with P ≤ 0.001 was used to correlate the two segmentation methods. MRgFUS sonication and control regions intensity values were evaluated with a paired t-test with a P ≤ 0.01.
RESULTS
Semiautomatic segmentation reduced computational time by 95% and was correlated with manual segmentation (Pearson = 0.92, P < 0.001, n = 71 regions). In the noninjured rat group, Evans blue absorbance correlated with image intensity in the MRgFUS and control regions (Pearson = 0.82, P = 0.02, n = 6). In rats that underwent the SCI procedure, an increase in signal intensity in the MRgFUS targeted region relative to control was seen in all SCI rats (10.65 ± 12.4%, range: 0.96-43.9%, n = 11, P = 0.002). SCI sham MRgFUS revealed no change (0.63 ± 0.52%, 95% CI 0.320.95, n = 10). This result was significant between both groups (P = 0.003).
CONCLUSION
The implemented semiautomatic segmentation procedure improved data analysis efficiency. Quantitative methods using contrast-enhanced MRI with histological validation are sensitive for detection of blood-spinal cord barrier opening induced by magnetic resonance-guided focused ultrasound.
目的
证明磁共振引导聚焦超声(MRgFUS)可增加血脊髓屏障(BSCB)通透性,并开发用于脊髓损伤(SCI)后 MRgFUS 的 BSCB 通透性的观察者独立的 MRI 定量方法。
方法
非损伤性 Sprague-Dawley 大鼠(n=3)接受 MRgFUS 并在 MRgFUS 后给予 Evans 蓝以确认 BSCB 打开。通过分光光度法测量吸光度,并将其与相应的图像强度进行相关。大鼠(n=21)接受 T8-T10 椎板切除术和脊髓外硬膜下压迫(23g 重量的动脉瘤夹,1 分钟)。干预组(n=11)置于临床前 MRgFUS 系统上,给予微泡(Optison,0.2 mL/kg),并接受 3 次 MRgFUS 声处理(25ms 爆发,1Hz 脉冲 3 分钟,3 个声学 W,大约 1.0-2.1MPa 峰值压力通过水听器测量)。假手术组(n=10)接受等效的程序,但没有声处理。在 MRgFUS BSCB 开放前后均获得 T1w MRI。通过手动或半自动分割脊髓,并使用 Pearson 相关系数(P≤0.001)来关联两种分割方法。使用配对 t 检验评估 MRgFUS 声处理和对照区域的强度值,P≤0.01。
结果
半自动分割将计算时间减少了 95%,并且与手动分割相关(Pearson=0.92,P<0.001,n=71 个区域)。在非损伤性大鼠组中,MRgFUS 和对照区域中的 Evans 蓝吸光度与图像强度相关(Pearson=0.82,P=0.02,n=6)。在接受 SCI 手术的大鼠中,与对照相比,MRgFUS 靶向区域的信号强度增加在所有 SCI 大鼠中均可见(10.65±12.4%,范围:0.96-43.9%,n=11,P=0.002)。SCI 假手术 MRgFUS 未显示变化(0.63±0.52%,95%CI 0.320.95,n=10)。这一结果在两组之间具有统计学意义(P=0.003)。
结论
实施的半自动分割程序提高了数据分析效率。使用组织学验证的对比增强 MRI 的定量方法对于检测磁共振引导聚焦超声诱导的血脊髓屏障开放是敏感的。
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