Flow-controlled fluoroscopic angiography for the assessment of vascular integrity in bioengineered kidneys

Cohen Shahar; Soffer-Hirschberg Sarit; Partouche Shirly; Hovav Benny; Gurevich Michael; Mezhybovsky Vadym; Tennak Vladimir; Eisner Sigal; Nesher Eviatar; Mor Eytan; Atar Eli

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Flow-controlled fluoroscopic angiography for the assessment of vascular integrity in bioengineered kidneys

机译：流动控制的荧光透视血管造影，用于评估生物工程肾脏血管完整性

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Perfusion decellularization has been proposed as a promising method for generating nonimmunogenic organs from allogeneic or xenogeneic donors. Several imaging modalities have been used to assess vascular integrity in bioengineered organs with no consistency in the methodology used. Here, we studied the use of fluoroscopic angiography performed under controlled flow conditions for vascular integrity assessment in bioengineered kidneys. Porcine kidneys underwent ex vivo angiography before and after perfusion decellularization. Arterial and venous patencies were defined as visualization of contrast medium (CM) in distal capillaries and renal vein, respectively. Changes in vascular permeability were visualized and quantified. No differences in patency were detected in decellularized kidneys compared with native kidneys. However, focal parenchymal opacities and significant delay in CM clearance were detected in decellularized kidneys, indicating increased permeability. Biopsy-induced leakage was visualized in both groups, with digital subtraction angiography revealing minimal CM leakage earlier than nonsubtracted fluoroscopy. In summary, quantitative assessment of vascular permeability should be coupled with patency when studying the effect of perfusion decellularization on kidney vasculature. Flow-controlled angiography should be considered as the method of choice for vascular assessment in bioengineered kidneys. Adopting this methodology for organs premodified ex vivo under normothermic machine perfusion settings is also suggested.

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来源
《Artificial Organs》 |2020年第10期|共8页
作者
Cohen Shahar; Soffer-Hirschberg Sarit; Partouche Shirly; Hovav Benny; Gurevich Michael; Mezhybovsky Vadym; Tennak Vladimir; Eisner Sigal; Nesher Eviatar; Mor Eytan; Atar Eli;
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作者单位

Rabin Med Ctr Lab Organ Bioengn Petah Tiqwa Israel;

Rabin Med Ctr Dept Radiol Petah Tiqwa Israel;

Rabin Med Ctr Lab Organ Bioengn Petah Tiqwa Israel;

Rabin Med Ctr Dept Radiol Petah Tiqwa Israel;

Rabin Med Ctr Dept Organ Transplantat Petah Tiqwa Israel;

Rabin Med Ctr Dept Organ Transplantat Petah Tiqwa Israel;

Rabin Med Ctr Dept Organ Transplantat Petah Tiqwa Israel;

Rabin Med Ctr Dept Organ Transplantat Petah Tiqwa Israel;

Rabin Med Ctr Dept Organ Transplantat Petah Tiqwa Israel;

Sheba Med Ctr Dept Surg B Transplantat Unit Ramat Gan Israel;

Rabin Med Ctr Dept Radiol Petah Tiqwa Israel;

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原文格式 PDF
正文语种 eng
中图分类器官移植术;
关键词
fluoroscopic angiography; kidney; organ transplantation; perfusion decellularization; vascular integrity;

机译：荧光血管造影;肾脏;器官移植;灌注脱细胞化;血管完整性;

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Flow-controlled fluoroscopic angiography for the assessment of vascular integrity in bioengineered kidneys

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