绵羊体外循环术后4周持续性肾缺氧及组织学变化
Persistent Renal Hypoxia and Histologic Changes at 4 Weeks after Cardiopulmonary Bypass in Sheep.
作者信息
Furukawa Taku, May Clive N, Jufar Alemayehu H, Evans Roger G, Cochrane Andrew D, Marino Bruno, McCall Peter R, Birchall Ian E, Hood Sally G, Raman Jaishankar, Ow Connie P C, Trask-Marino Anton, Bellomo Rinaldo, Miles Lachlan F, Lankadeva Yugeesh R
机构信息
Preclinical Critical Care Unit, Florey Institute of Neuroscience and Mental Health, University of Melbourne, Melbourne, Victoria, Australia.
Preclinical Critical Care Unit, Florey Institute of Neuroscience and Mental Health and Department of Critical Care, Melbourne Medical School, University of Melbourne, Melbourne, Victoria, Australia.
出版信息
Anesthesiology. 2025 Jun 1;142(6):1047-1057. doi: 10.1097/ALN.0000000000005452. Epub 2025 Mar 19.
BACKGROUND
The sustained renal effects of exposure to cardiopulmonary bypass are unknown. This study aimed to test whether cardiopulmonary bypass (CPB) is associated with sustained renal tissue hypoxia and whether such hypoxia is associated with histologic injury.
METHODS
The study included 12 adult female sheep undergoing CPB with a 2-h aortic cross-clamp. Systemic and renal hemodynamics and oxygen delivery, kidney function, and renal tissue oxygenation were measured before and during CPB, in the 48 h after CPB, and weekly for 4 weeks. The sheep were euthanized at 4 weeks and obtained renal tissue to perform histopathologic assessments for comparison with an independent cohort of five healthy animals that were euthanized without undergoing surgical or experimental interventions. These histologic assessments were performed by an independent, treatment-blinded pathologist.
RESULTS
Compared with baseline, renal blood flow and renal medullary tissue oxygenation decreased significantly during CPB. In the first 48 h after CPB, there was a continuing significant decrease in medullary tissue oxygenation (from 39.2 ± 13.8 mmHg at baseline to 21.7 ± 16.2 mmHg at 48 h; Ptime = 0.006) with stage 1 acute kidney injury in 42% of the animals. Moreover, in the following 4 weeks, medullary (16.1 ± 12.9 mmHg at 4 weeks; Ptime = 0.005) and cortical (17.2 ± 6.5 mmHg at 4 weeks; Ptime = 0.005) tissue oxygenation remained significantly lower than baseline. Finally, compared with healthy sheep, at 4 weeks after CPB, sheep kidneys had significantly more peritubular inflammation (8 of 8 vs . 1 of 5; P = 0.007), interstitial fibrosis (6 of 8 vs . 0 of 5; P = 0.021), and tubular casts (8 of 8 vs . 1 of 5; P = 0.007).
CONCLUSIONS
Exposure to CPB triggers sustained medullary and cortical tissue hypoxia and is associated with histopathologic renal injury. These findings suggest that the renal effect of exposure to CPB may be more profound and longer lasting than currently appreciated.
背景
体外循环对肾脏的持续性影响尚不清楚。本研究旨在测试体外循环(CPB)是否与持续性肾组织缺氧相关,以及这种缺氧是否与组织学损伤相关。
方法
本研究纳入12只成年雌性绵羊,进行2小时主动脉交叉钳夹的体外循环。在体外循环前、体外循环期间、体外循环后48小时以及之后4周每周测量全身和肾脏血流动力学、氧输送、肾功能和肾组织氧合。4周时对绵羊实施安乐死并获取肾组织进行组织病理学评估,与5只未经手术或实验干预即实施安乐死的健康动物独立队列进行比较。这些组织学评估由一名独立的、对治疗不知情的病理学家进行。
结果
与基线相比,体外循环期间肾血流量和肾髓质组织氧合显著降低。在体外循环后的前48小时,髓质组织氧合持续显著下降(从基线时的39.2±13.8 mmHg降至48小时时的21.7±16.2 mmHg;时间P = 0.006),42%的动物出现1期急性肾损伤。此外,在接下来的4周内,髓质(4周时为16.1±12.9 mmHg;时间P = 0.005)和皮质(4周时为17.2±6. g mmHg;时间P = 0.005)组织氧合仍显著低于基线。最后,与健康绵羊相比,体外循环后4周时,绵羊肾脏的肾小管周围炎症(8/8 vs. 1/5;P = 0.007)、间质纤维化(6/8 vs. 0/5;P = 0.021)和肾小管管型(8/8 vs. 1/5;P = 0.007)明显更多。
结论
体外循环会引发持续性髓质和皮质组织缺氧,并与肾脏组织病理学损伤相关。这些发现表明,体外循环对肾脏的影响可能比目前所认识的更为严重和持久。
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