使用超声和磁共振成像检测与评估冲击波碎石术中的肾损伤
Detection and Evaluation of Renal Injury in Burst Wave Lithotripsy Using Ultrasound and Magnetic Resonance Imaging.
作者信息
May Philip C, Kreider Wayne, Maxwell Adam D, Wang Yak-Nam, Cunitz Bryan W, Blomgren Philip M, Johnson Cynthia D, Park Joshua S H, Bailey Michael R, Lee Donghoon, Harper Jonathan D, Sorensen Mathew D
机构信息
1 University of Washington Applied Physics Lab , Center for Industrial and Medical Ultrasound, Seattle, Washington.
2 Department of Urology, University of Washington School of Medicine , Seattle, Washington.
出版信息
J Endourol. 2017 Aug;31(8):786-792. doi: 10.1089/end.2017.0202. Epub 2017 Jun 16.
PURPOSE
Burst wave lithotripsy (BWL) is a transcutaneous technique with potential to safely and effectively fragment renal stones. Preclinical investigations of BWL require the assessment of potential renal injury. This study evaluates the capabilities of real-time ultrasound and MRI to detect and evaluate BWL injury that was induced in porcine kidneys.
MATERIALS AND METHODS
Ten kidneys from five female farm pigs were treated with either a 170 or 335 kHz BWL transducer using variable treatment parameters and monitored in real-time with ultrasound. Eight kidneys were perfusion fixed and scanned with a 3-Tesla MRI scanner (T1-weighted, T2-weighted, and susceptibility-weighted imaging), followed by processing via an established histomorphometric technique for injury quantification. In addition, two kidneys were separately evaluated for histologic characterization of injury quality.
RESULTS
Observed B-mode hyperechoes on ultrasound consistent with cavitation predicted the presence of BWL-induced renal injury with a sensitivity and specificity of 100% in comparison to the histomorphometric technique. Similarly, MRI detected renal injury with a sensitivity of 90% and specificity of 100% and was able to identify the scale of lesion volumes. The injuries purposefully generated with BWL were histologically similar to those formed by shock wave lithotripsy.
CONCLUSIONS
BWL-induced renal injury can be detected with a high degree of sensitivity and specificity by real-time ultrasound and post-treatment ex vivo MRI. No injury occurred in this study without cavitation detected on ultrasound. Such capabilities for injury detection and lesion volume quantification on MRI can be used for preclinical testing of BWL.
目的
脉冲波碎石术(BWL)是一种经皮技术,有潜力安全有效地破碎肾结石。BWL的临床前研究需要评估潜在的肾损伤。本研究评估实时超声和MRI检测和评估猪肾中诱导的BWL损伤的能力。
材料与方法
使用可变治疗参数,用170或335kHz的BWL换能器对来自五只雌性农场猪的十个肾脏进行治疗,并用超声进行实时监测。八个肾脏进行灌注固定,并用3特斯拉MRI扫描仪进行扫描(T1加权、T2加权和磁敏感加权成像),然后通过既定的组织形态计量学技术进行处理以进行损伤定量。此外,对两个肾脏分别进行损伤质量的组织学特征评估。
结果
超声观察到的与空化一致的B模式高回声预测了BWL诱导的肾损伤的存在,与组织形态计量学技术相比,灵敏度和特异性均为100%。同样,MRI检测肾损伤的灵敏度为90%,特异性为100%,并且能够识别病变体积的大小。BWL有意产生的损伤在组织学上与冲击波碎石术形成的损伤相似。
结论
实时超声和治疗后离体MRI能够高度灵敏且特异地检测出BWL诱导的肾损伤。在本研究中,超声未检测到空化则未发生损伤。MRI的这种损伤检测和病变体积定量能力可用于BWL的临床前测试。
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