计算机断层扫描（CT）可见的一水草酸钙（COM）结石内部结石结构而非亨氏单位值可预测体外碎石易碎性。

CT visible internal stone structure, but not Hounsfield unit value, of calcium oxalate monohydrate (COM) calculi predicts lithotripsy fragility in vitro.

作者信息

Zarse Chad A, Hameed Tariq A, Jackson Molly E, Pishchalnikov Yuri A, Lingeman James E, McAteer James A, Williams James C

机构信息

Department of Anatomy and Cell Biology, Indiana University School of Medicine, 635 Barnhill Drive, Indianapolis, IN 46202, USA.

出版信息

Urol Res. 2007 Aug;35(4):201-6. doi: 10.1007/s00240-007-0104-6. Epub 2007 Jun 13.

DOI:10.1007/s00240-007-0104-6

PMID:17565491

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2408919/

Abstract

Calcium oxalate monohydrate (COM) stones are often resistant to breakage using shock wave (SW) lithotripsy. It would be useful to identify by computed tomography (CT) those COM stones that are susceptible to SW's. For this study, 47 COM stones (4-10 mm in diameter) were scanned with micro CT to verify composition and also for assessment of heterogeneity (presence of pronounced lobulation, voids, or apatite inclusions) by blinded observers. Stones were then placed in water and scanned using 64-channel helical CT. As with micro CT, heterogeneity was assessed by blinded observers, using high-bone viewing windows. Then stones were broken in a lithotripter (Dornier Doli-50) over 2 mm mesh, and SW's counted. Results showed that classification of stones using micro CT was highly repeatable among observers (kappa = 0.81), and also predictive of stone fragility. Stones graded as homogeneous required 1,874 +/- 821 SW/g for comminution, while stones with visible structure required half as many SW/g, 912 +/- 678. Similarly, when stones were graded by appearance on helical CT, classification was repeatable (kappa = 0.40), and homogeneous stones required more SW's for comminution than did heterogeneous stones (1,702 +/- 993 SW/g, compared to 907 +/- 773). Stone fragility normalized to stone size did not correlate with Hounsfield units (P = 0.85). In conclusion, COM stones of homogeneous structure require almost twice as many SW's to comminute than stones of similar mineral composition that exhibit internal structural features that are visible by CT. This suggests that stone fragility in patients could be predicted using pre-treatment CT imaging. The findings also show that Hounsfield unit values of COM stones did not correlate with stone fragility. Thus, it is stone morphology, rather than X-ray attenuation, which correlates with fragility to SW's in this common stone type.

摘要

一水草酸钙（COM）结石通常对冲击波碎石术具有抗破碎性。通过计算机断层扫描（CT）识别那些易受冲击波影响的COM结石将很有帮助。在本研究中，对47颗直径为4 - 10毫米的COM结石进行了微CT扫描，以验证成分，并由不知情的观察者评估其异质性（明显的分叶、空洞或磷灰石包裹体的存在）。然后将结石置于水中，使用64排螺旋CT进行扫描。与微CT一样，由不知情的观察者使用高骨窗来评估异质性。然后将结石在碎石机（多尼尔Doli - 50）中通过2毫米筛网破碎，并计数冲击波次数。结果表明，观察者之间使用微CT对结石进行分类具有高度可重复性（kappa = 0.81），并且还能预测结石的易碎性。被评为均质的结石粉碎需要1,874±821次冲击波/克，而具有可见结构的结石所需的冲击波/克数量减半，为912±678次。同样，当根据螺旋CT上的外观对结石进行分级时，分类具有可重复性（kappa = 0.40），并且均质结石粉碎所需的冲击波比异质结石更多（1,702±993次冲击波/克，相比之下为907±773次）。归一化至结石大小的结石易碎性与亨氏单位不相关（P = 0.85）。总之，结构均质的COM结石粉碎所需的冲击波几乎是具有类似矿物成分且通过CT可见内部结构特征的结石的两倍。这表明可以使用治疗前的CT成像来预测患者结石的易碎性。研究结果还表明，COM结石的亨氏单位值与结石易碎性不相关。因此，在这种常见的结石类型中，与对冲击波的易碎性相关的是结石形态，而不是X射线衰减。

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