一种用于超声引导下高强度聚焦超声治疗的离体人肺模型，采用肺灌注法。

An ex vivo human lung model for ultrasound-guided high-intensity focused ultrasound therapy using lung flooding.

作者信息

Wolfram Frank, Reichenbach Jürgen R, Lesser Thomas G

机构信息

Department of Thoracic and Vascular Surgery, SRH Wald-Klinikum Gera, Teaching Hospital of Friedrich-Schiller-University of Jena, Gera, Germany.

Medical Physics Group, Institute of Diagnostic and Interventional Radiology, Center of Radiology, Jena University Hospital- Friedrich Schiller University of Jena, Jena, Germany.

出版信息

Ultrasound Med Biol. 2014 Mar;40(3):496-503. doi: 10.1016/j.ultrasmedbio.2013.11.007. Epub 2014 Jan 10.

DOI:10.1016/j.ultrasmedbio.2013.11.007

PMID:24412177

Abstract

The usability of an ex vivo human lung model for ablation of lung cancer tissue with high-intensity focused ultrasound (HIFU) is described. Lung lobes were flooded with saline, with no gas remaining after complete atelectasis. The tumor was delineated sono-morphologically. Speed of sound, tissue density and ultrasound attenuation were measured for flooded lung and different pulmonary cancer tissues. The acoustic impedance of lung cancer tissue (1.6-1.9 mega-Rayleighs) was higher than that of water, as was its attenuation coefficient (0.31-0.44 dB/cm/MHz) compared with that of the flooded lung (0.12 dB/cm/MHz). After application of HIFU, the temperature in centrally located lung cancer surrounded by the flooded lung increased as high as 80°C, which is sufficient for treatment. On the basis of these preliminary results, ultrasound-guided HIFU ablation of lung cancer, by lung flooding with saline, appears feasible and should be explored in future clinical studies.

摘要

本文描述了一种用于高强度聚焦超声（HIFU）消融肺癌组织的离体人肺模型的可用性。肺叶用盐水灌注，完全肺不张后无气体残留。通过超声形态学描绘肿瘤。测量了灌注肺和不同肺癌组织的声速、组织密度和超声衰减。肺癌组织的声阻抗（1.6 - 1.9兆瑞利）高于水，其衰减系数（0.31 - 0.44 dB/cm/MHz）也高于灌注肺（0.12 dB/cm/MHz）。应用HIFU后，被灌注肺包围的中央型肺癌组织温度升高至80°C，足以进行治疗。基于这些初步结果，通过盐水灌注肺进行超声引导下的HIFU肺癌消融似乎可行，应在未来的临床研究中进行探索。

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一种用于超声引导下高强度聚焦超声治疗的离体人肺模型，采用肺灌注法。

An ex vivo human lung model for ultrasound-guided high-intensity focused ultrasound therapy using lung flooding.

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