猪的淋巴结内动态对比增强 CT 淋巴管造影和动态对比增强 MR 淋巴管造影。
Intranodal dynamic contrast-enhanced CT lymphangiography and dynamic contrast-enhanced MR lymphangiography in microminipig.
机构信息
Department of Radiology, Gifu University, 1-1 Yanagido, Gifu, 501-1194, Japan.
Department of Radiology, Hamamatsu University School of Medicine, 1-20-1 Handayama, Higashi-Ku, Hamamatsu, Shizuoka, 431-3192, Japan.
出版信息
Eur Radiol. 2023 May;33(5):3165-3171. doi: 10.1007/s00330-023-09463-w. Epub 2023 Feb 23.
OBJECTIVES
To evaluate the feasibility and image quality of intranodal dynamic contrast-enhanced CT lymphangiography (DCCTL) and dynamic contrast-enhanced MR lymphangiography (DCMRL) in microminipigs.
METHODS
Our institution's committee for animal research and welfare provided approval. Three microminipigs underwent DCCTL and DCMRL after inguinal lymph node injection of 0.1 mL/kg contrast media. Mean CT values on DCCTL and signal intensity (SI) on DCMRL were measured at the venous angle and thoracic duct (TD). The contrast enhancement index (CEI; increase in CT values pre- to post-contrast) and signal intensity ratio (SIR; SI of lymph divided by SI of muscle) were evaluated. The morphologic legibility, visibility, and continuity of lymphatics were qualitatively evaluated using a 4-point scale. Two microminipigs underwent DCCTL and DCMRL after lymphatic disruption and the detectability of lymphatic leakage was evaluated.
RESULTS
The CEI peaked at 5-10 min in all microminipigs. The SIR peaked at 2-4 min in two microminipigs and at 4-10 min in one microminipig. The peak CEI and SIR values were 235.6 HU and 4.8 for venous angle, 239.4 HU and 2.1 for upper TD, and 387.3 HU and 2.1 for middle TD. The visibility and continuity of upper-middle TD scores were 4.0 and 3.3-3.7 for DCCTL, and 4.0 and 4.0 for DCMRL. In the injured lymphatic model, both DCCTL and DCMRL demonstrated lymphatic leakage.
CONCLUSIONS
DCCTL and DCMRL in a microminipig model enabled excellent visualization of central lymphatic ducts and lymphatic leakage, indicating the research and clinical potential of both modalities.
KEY POINTS
• Intranodal dynamic contrast-enhanced computed tomography lymphangiography showed a contrast enhancement peak at 5-10 min in all microminipigs. • Intranodal dynamic contrast-enhanced magnetic resonance lymphangiography showed a contrast enhancement peak at 2-4 min in two microminipigs and at 4-10 min in one microminipig. • Both intranodal dynamic contrast-enhanced computed tomography lymphangiography and dynamic contrast-enhanced magnetic resonance lymphangiography demonstrated the central lymphatic ducts and lymphatic leakage.
目的
评估经皮腹股沟淋巴结注射 0.1ml/kg 造影剂后,微小型猪淋巴结内动态对比增强 CT 淋巴管造影(DCCTL)和动态对比增强磁共振淋巴管造影(DCMRL)的可行性和图像质量。
方法
本机构动物研究和福利委员会提供了批准。3 只微小型猪在腹股沟淋巴结注射 0.1ml/kg 造影剂后进行 DCCTL 和 DCMRL。在静脉角和胸导管(TD)处测量 DCCTL 的平均 CT 值和 DCMRL 的信号强度(SI)。评估对比增强指数(CEI;造影前后 CT 值的增加)和信号强度比(SI 淋巴管除以 SI 肌肉)。使用 4 分制对淋巴管的形态清晰度、可见度和连续性进行定性评估。2 只微小型猪在淋巴管破坏后进行 DCCTL 和 DCMRL,并评估淋巴管漏的检测能力。
结果
所有微小型猪的 CEI 在 5-10 分钟时达到峰值。2 只微小型猪的 SIR 在 2-4 分钟时达到峰值,1 只微小型猪在 4-10 分钟时达到峰值。静脉角的峰值 CEI 和 SIR 值分别为 235.6 HU 和 4.8,上胸导管的峰值 CEI 和 SIR 值分别为 239.4 HU 和 2.1,中胸导管的峰值 CEI 和 SIR 值分别为 387.3 HU 和 2.1。DCCTL 上、中胸导管的可见度和连续性评分为 4.0,3.3-3.7;DCMRL 的评分为 4.0。在损伤的淋巴管模型中,DCCTL 和 DCMRL 均显示淋巴管漏。
结论
微小型猪模型中的 DCCTL 和 DCMRL 能够极好地显示中央淋巴管和淋巴管漏,表明这两种方法具有研究和临床潜力。
关键点
所有微小型猪的经皮淋巴结内动态对比增强 CT 淋巴管造影(DCCTL)显示出 5-10 分钟的对比增强峰值。
经皮淋巴结内动态对比增强磁共振淋巴管造影(DCMRL)显示出 2 只微小型猪的 2-4 分钟和 1 只微小型猪的 4-10 分钟的对比增强峰值。
经皮淋巴结内动态对比增强 CT 淋巴管造影(DCCTL)和动态对比增强磁共振淋巴管造影(DCMRL)均显示出中央淋巴管和淋巴管漏。
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