肺区域血流：猪模型低剂量双容积动态CT灌注成像的验证。

IF 3.6 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

European Radiology Experimental Pub Date : 2025-02-18 DOI:10.1186/s41747-025-00556-3

Yixiao Zhao, Nile Luu, Logan Hubbard, Shant Malkasian, Sabee Molloi

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引用次数: 0

摘要

背景：我们旨在验证一种低剂量双容积肺计算机断层扫描（CT）灌注技术。方法：5头约克郡猪（体重53.6±2.6 kg）进行21次独立CT灌注成像。静脉注射造影剂（碘370mg /mL， 0.5 mL/kg）和生理盐水（0.5 mL/kg），每次采集速度为5ml /s。采用320层CT获取两容积和多容积动态CT灌注数据，以多容积测量作为参考标准。两容积CT灌注包括在造影剂注射前进行低剂量（50 mA）容积扫描，在造影剂增强峰值时对肺动脉主动脉进行容积扫描（300 mA）。多容积CT灌注包括15-20容积扫描测量血流。配对样本t检验、线性回归和Bland-Altman分析将全球和区域两容积灌注测量值与参考标准进行了比较。在相同的灌注条件下，通过两次独立的测量来评估两容积CT灌注的再现性。结果：两容积全灌注测量值（P2V）与参考多容积（PMV）测量值相关，P2V = 0.96 × PMV + 0.45 (r = 0.92)，均方根误差为1.29 mL/min/g，均方根偏差为1.29 mL/min/g。两容积和多容积CT灌注测量的CT剂量指数分别为9.3 mGy和184.8 mGy。结论：我们成功地在猪模型中验证了一种前瞻性的两容积CT灌注技术。研究结果证实了准确和可重复性肺血流量测量的可行性。相关声明：这种两容积CT肺灌注技术在猪模型中得到验证，证明了血流量测量的可行性，大大减少了辐射暴露。它可以在评估人类肺动脉疾病时进行低剂量区域血流量测量。重点：肺灌注可以使用前瞻性双容积CT技术以mL/min/g测量。在猪模型中，流量测量是可以实现的，辐射剂量低至9.3毫戈瑞。单次注射造影剂后可获得CT血管造影和灌注。

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Pulmonary regional blood flow: validation of low-dose two-volume dynamic CT perfusion imaging in a swine model.

Background: We aimed to validate a low-dose two-volume pulmonary computed tomography (CT) perfusion technique.

Methods: Five Yorkshire swine (weight 53.6 ± 2.6 kg) underwent 21 independent CT perfusion acquisitions. Intravenous contrast material (370 mg/mL iodine, 0.5 mL/kg) and saline chaser (0.5 mL/kg) were injected at 5 mL/s for each acquisition. Two-volume and multivolume dynamic CT perfusion data were acquired using a 320-slice CT, with multivolume measurements serving as the reference standard. The two-volume CT perfusion involved a low-dose (50 mA) volume scan before contrast injection and a diagnostic (300 mA) volume scan after bolus-tracking in the main pulmonary artery at the peak contrast enhancement. Multivolume CT perfusion included 15-20 volume scans for blood flow measurement. Paired sample t-test, linear regression, and Bland-Altman analysis compared both global and regional two-volume perfusion measurements to the reference standard. The reproducibility of the two-volume CT perfusion was assessed from two independent measurements under the same perfusion condition.

Results: Two-volume global perfusion measurements (P_2V) were related to reference multivolume (P_MV) measurements by P_2V = 0.96 × P_MV + 0.45 (r = 0.92), with a root-mean-square error of 1.29 mL/min/g and a root-mean-square deviation of 1.29 mL/min/g. The CT dose index for the two-volume and multivolume CT perfusion measurements were 9.3 mGy and 184.8 mGy, respectively.

Conclusion: We successfully validated a prospective, two-volume CT perfusion technique in a swine model. The findings affirm the feasibility of accurate and reproducible pulmonary blood flow measurement.

Relevance statement: This two-volume CT pulmonary perfusion technique, validated in a swine model, demonstrates the feasibility of blood flow measurement with a substantial reduction in radiation exposure. It could allow low-dose regional blood flow measurement in the assessment of pulmonary artery disease in humans.

Key points: Lung perfusion can be measured in mL/min/g using a prospective, two-volume CT technique. Flow measurement is achievable in a swine model with a radiation dose as low as 9.3 mGy. CT angiography and perfusion can be acquired following a single contrast injection.

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来源期刊

European Radiology Experimental Medicine-Radiology, Nuclear Medicine and Imaging

CiteScore

6.70

自引率

2.60%

发文量

审稿时长

18 weeks