混杂因素对比格犬二维剪切波弹性成像中肝脏硬度的影响
Effects of Confounding Factors on Liver Stiffness in Two-Dimensional Shear Wave Elastography in Beagle Dogs.
作者信息
Cha Jinwoo, Kim Jayon, Ko Jaeeun, Kim Jaehwan, Eom Kidong
机构信息
Department of Veterinary Medical Imaging, College of Veterinary Medicine, Konkuk University, Seoul, South Korea.
出版信息
Front Vet Sci. 2022 Jan 27;9:827599. doi: 10.3389/fvets.2022.827599. eCollection 2022.
BACKGROUND
Two-dimensional shear wave elastography (2D-SWE) is a powerful technique that can non-invasively measure liver stiffness to assess hepatic fibrosis.
PURPOSE
This study aimed to identify the effects of confounding factors, including anesthesia, breathing, and scanning approach, on liver stiffness when performing 2D-SWE in dogs.
MATERIALS AND METHODS
Nine healthy Beagle dogs were included in this study. Hepatic 2D-SWE was performed, and liver stiffness was compared between conscious and anesthetized states, free-breathing and breath-holding conditions, and intercostal and subcostal approaches. For the anesthetized state, the breath-holding condition was subdivided into seven phases, which included forced-expiration (5 and 10 mL/kg), end-expiration (0 cm HO), and forced-inspiration (5, 10, 15, and 20 cm HO), and liver stiffness was compared among these phases. Changes in liver stiffness were compared between intercostal and subcostal approaches according to breathing phases.
RESULTS
No significant difference was observed in liver stiffness between the conscious and anesthetized states or between the free-breathing and breath-holding conditions. No significant difference was noted in liver stiffness among the breathing phases, except for forced-inspiration with high airway pressure (15 and 20 cm HO in the intercostal approach and 10, 15, and 20 cm HO in the subcostal approach), which was associated with significantly higher liver stiffness ( < 0.05). Liver stiffness was significantly higher in the subcostal approach than in the intercostal approach ( < 0.05). Changes in liver stiffness were significantly higher in the subcostal approach than in the intercostal approach in all forced-inspiratory phases ( < 0.05).
CONCLUSION
In conclusion, when performing 2D-SWE in dogs, liver stiffness is unaffected by anesthesia and free-breathing. To avoid inadvertent increases in liver stiffness, the deep inspiratory phase and subcostal approach are not recommended. Thus, liver stiffness should be interpreted considering these confounding factors.
背景
二维剪切波弹性成像(2D-SWE)是一种强大的技术,可无创测量肝脏硬度以评估肝纤维化。
目的
本研究旨在确定在犬类中进行2D-SWE时,包括麻醉、呼吸和扫描方法在内的混杂因素对肝脏硬度的影响。
材料与方法
本研究纳入9只健康的比格犬。进行肝脏2D-SWE检查,并比较清醒和麻醉状态、自由呼吸和屏气条件以及肋间和肋下扫描方法下的肝脏硬度。对于麻醉状态,屏气条件细分为七个阶段,包括用力呼气(5和10 mL/kg)、呼气末(0 cm H₂O)和用力吸气(5、10、15和20 cm H₂O),并比较这些阶段之间的肝脏硬度。根据呼吸阶段比较肋间和肋下扫描方法之间肝脏硬度的变化。
结果
清醒和麻醉状态之间或自由呼吸和屏气条件之间的肝脏硬度未观察到显著差异。除了高气道压力下的用力吸气(肋间扫描方法为15和20 cm H₂O,肋下扫描方法为10、15和20 cm H₂O)与显著更高的肝脏硬度相关(P<0.05)外,各呼吸阶段之间的肝脏硬度无显著差异。肋下扫描方法的肝脏硬度显著高于肋间扫描方法(P<0.05)。在所有用力吸气阶段,肋下扫描方法的肝脏硬度变化显著高于肋间扫描方法(P<0.05)。
结论
总之,在犬类中进行2D-SWE时,肝脏硬度不受麻醉和自由呼吸的影响。为避免肝脏硬度意外增加,不建议采用深吸气阶段和肋下扫描方法。因此,在解释肝脏硬度时应考虑这些混杂因素。
Zotero 插件