Anna-Lena Semmler , Jan-Philipp Köhler , Lara Regolien , Franziska Bayer , Nikolay Polyansky , Elise Gradhand , Andreas von Knethen , Kai Zacharowski , Fabian Nocke , Katja B. Ferenz , Joachim Schwäble , Halvard Bonig , Eva Herrmann , Isabelle Hornung , Andrea U. Steinbicker
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We therefore aimed to establish a model of selective red blood cell (RBC) depletion to the main endpoint of hemoglobin (Hgb) levels of 4–6 g dL<sup>−1</sup> using apheresis in sheep.</p></div><div><h3>Methods</h3><p>: <em>In vitro</em> experiments were performed first to establish the apheresis protocol. <em>In vivo</em>, anesthetized ewes underwent a sham protocol without apheresis (<em>n</em> = 5) or apheresis (<em>n</em> = 4). Both groups were observed for the following six hours at a defined starting point (BE0) to compare Hgb, hematocrit (Hct), coagulation and clinical parameters. For statistical analysis, unpaired <em>t</em>-test with Welch`s correction was used.</p></div><div><h3>Results</h3><p>: Hgb levels were effectively decreased by 51 % to mean Hgb of 4.4 g dL<sup>−1</sup> in the apheresis group compared to 9.1 g dL<sup>−1</sup> in sham (*<em>p</em> < 0.0001). Hct (11.2% vs 25.1 %, *<em>p</em> = 0.01) and RBCs (3.7 vs 8.2 × 10<sup>6</sup>/µl, *<em>p</em> = 0.003) also decreased. The relative number of platelets compared to baseline was different (55.6 ± 10.6% vs. 100 ± 0 %, *<em>p</em> = 0.004), but no hemorrhage was observed. White blood cells (WBCs), lactate, prothrombin ratio and activated partial thromboplastin time (aPTT) remained within similar ranges.</p></div><div><h3>Conclusions</h3><p>: Critical normovolemic anemia without bleeding complications was successfully reached by selective RBC depletion in sheep. Investigations of physiological adaptations to severe anemia and pharmaceutical testing can be performed in large animals with depleted RBCs.</p></div>","PeriodicalId":54260,"journal":{"name":"Current Research in Translational Medicine","volume":"72 4","pages":"Article 103463"},"PeriodicalIF":3.2000,"publicationDate":"2024-08-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Selective red blood cell depletion by apheresis in sheep causes severe normovolemic anemia\",\"authors\":\"Anna-Lena Semmler , Jan-Philipp Köhler , Lara Regolien , Franziska Bayer , Nikolay Polyansky , Elise Gradhand , Andreas von Knethen , Kai Zacharowski , Fabian Nocke , Katja B. Ferenz , Joachim Schwäble , Halvard Bonig , Eva Herrmann , Isabelle Hornung , Andrea U. 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Both groups were observed for the following six hours at a defined starting point (BE0) to compare Hgb, hematocrit (Hct), coagulation and clinical parameters. For statistical analysis, unpaired <em>t</em>-test with Welch`s correction was used.</p></div><div><h3>Results</h3><p>: Hgb levels were effectively decreased by 51 % to mean Hgb of 4.4 g dL<sup>−1</sup> in the apheresis group compared to 9.1 g dL<sup>−1</sup> in sham (*<em>p</em> < 0.0001). Hct (11.2% vs 25.1 %, *<em>p</em> = 0.01) and RBCs (3.7 vs 8.2 × 10<sup>6</sup>/µl, *<em>p</em> = 0.003) also decreased. The relative number of platelets compared to baseline was different (55.6 ± 10.6% vs. 100 ± 0 %, *<em>p</em> = 0.004), but no hemorrhage was observed. 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引用次数: 0
摘要
背景:各种研究应用(如测试治疗贫血的新型药物)都需要正常血容量贫血的环境。遗憾的是,使用全血抽取和平衡电解质溶液(BES)补充的大型动物模型会导致出血并发症,因为还需要抽取凝血因子和血小板。因此,我们的目标是建立一种选择性红细胞(RBC)耗竭模型,利用羊无细胞抽血法将血红蛋白(Hgb)水平控制在 4-6 g dL-1 的主要终点:方法:首先进行体外实验,以确定无细胞抽吸方案。在体内,麻醉后的母羊接受不进行无细胞抽吸的假方案(n = 5)或无细胞抽吸方案(n = 4)。两组母羊在确定的起始点(BE0)观察六小时,比较血红蛋白、血细胞比容(Hct)、凝血和临床参数。统计分析采用韦尔奇校正的非配对 t 检验:结果:血红蛋白水平有效降低了51%,无细胞治疗组的平均血红蛋白为4.4 g dL-1,而假性治疗组为9.1 g dL-1(*p < 0.0001)。Hct(11.2% vs 25.1%,*p = 0.01)和RBC(3.7 vs 8.2 × 106/µl,*p = 0.003)也有所下降。血小板的相对数量与基线相比有差异(55.6 ± 10.6% vs. 100 ± 0%,*p = 0.004),但未观察到出血。白细胞、乳酸、凝血酶原比率和活化部分凝血活酶时间(aPTT)保持在相似的范围内:结论:通过选择性消耗绵羊红细胞,成功地达到了无出血并发症的临界正常血容量性贫血。结论:通过选择性消耗红细胞,绵羊成功地达到了无出血并发症的临界正常血容量性贫血,可以在消耗红细胞的大动物体内进行严重贫血的生理适应性研究和药物测试。
Selective red blood cell depletion by apheresis in sheep causes severe normovolemic anemia
Background
: The setting of normovolemic anemia is required for a variety of research applications, such as testing of novel medication for anemia treatment. Unfortunately, large animal models using full blood draw and replenishment with balanced electrolyte solution (BES) lead to bleeding complications, as coagulation factors and platelets are also drawn. We therefore aimed to establish a model of selective red blood cell (RBC) depletion to the main endpoint of hemoglobin (Hgb) levels of 4–6 g dL−1 using apheresis in sheep.
Methods
: In vitro experiments were performed first to establish the apheresis protocol. In vivo, anesthetized ewes underwent a sham protocol without apheresis (n = 5) or apheresis (n = 4). Both groups were observed for the following six hours at a defined starting point (BE0) to compare Hgb, hematocrit (Hct), coagulation and clinical parameters. For statistical analysis, unpaired t-test with Welch`s correction was used.
Results
: Hgb levels were effectively decreased by 51 % to mean Hgb of 4.4 g dL−1 in the apheresis group compared to 9.1 g dL−1 in sham (*p < 0.0001). Hct (11.2% vs 25.1 %, *p = 0.01) and RBCs (3.7 vs 8.2 × 106/µl, *p = 0.003) also decreased. The relative number of platelets compared to baseline was different (55.6 ± 10.6% vs. 100 ± 0 %, *p = 0.004), but no hemorrhage was observed. White blood cells (WBCs), lactate, prothrombin ratio and activated partial thromboplastin time (aPTT) remained within similar ranges.
Conclusions
: Critical normovolemic anemia without bleeding complications was successfully reached by selective RBC depletion in sheep. Investigations of physiological adaptations to severe anemia and pharmaceutical testing can be performed in large animals with depleted RBCs.
期刊介绍:
Current Research in Translational Medicine is a peer-reviewed journal, publishing worldwide clinical and basic research in the field of hematology, immunology, infectiology, hematopoietic cell transplantation, and cellular and gene therapy. The journal considers for publication English-language editorials, original articles, reviews, and short reports including case-reports. Contributions are intended to draw attention to experimental medicine and translational research. Current Research in Translational Medicine periodically publishes thematic issues and is indexed in all major international databases (2017 Impact Factor is 1.9).
Core areas covered in Current Research in Translational Medicine are:
Hematology,
Immunology,
Infectiology,
Hematopoietic,
Cell Transplantation,
Cellular and Gene Therapy.
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