血管化复合异体移植物的体外机器灌注和移植的优化。
Optimization of Ex Vivo Machine Perfusion and Transplantation of Vascularized Composite Allografts.
机构信息
Center for Engineering in Medicine and Surgery, Department of Surgery, Massachusetts General Hospital/ Harvard Medical School, Boston, Massachusetts; Department of Surgery, University Medical Center Groningen, Groningen, Netherlands; Vascularized Composite Allotransplantation Laboratory, Center for Transplantation Sciences, Massachusetts General Hospital, Boston, Massachusetts; Division of Plastic and Reconstructive Surgery within the Department of Surgery, Massachusetts General Hospital/ Harvard Medical School, Boston, Massachusetts; Shriners Hospitals for Children, Boston, Massachusetts.
Vascularized Composite Allotransplantation Laboratory, Center for Transplantation Sciences, Massachusetts General Hospital, Boston, Massachusetts; Division of Plastic and Reconstructive Surgery within the Department of Surgery, Massachusetts General Hospital/ Harvard Medical School, Boston, Massachusetts; Shriners Hospitals for Children, Boston, Massachusetts; Division of Plastic and Reconstructive Surgery within the Department of Surgery, European George Pompidou Hospital, University of Paris, Paris, France.
出版信息
J Surg Res. 2022 Feb;270:151-161. doi: 10.1016/j.jss.2021.09.005. Epub 2021 Oct 17.
BACKGROUND
Machine perfusion is gaining interest as an efficient method of tissue preservation of Vascularized Composite Allografts (VCA). The aim of this study was to develop a protocol for ex vivo subnormothermic oxygenated machine perfusion (SNMP) on rodent hindlimbs and to validate our protocol in a heterotopic hindlimb transplant model.
METHODS
In this optimization study we compared three different solutions during 6 h of SNMP (n = 4 per group). Ten control limbs were stored in a preservation solution on Static Cold Storage [SCS]). During SNMP we monitored arterial flowrate, lactate levels, and edema. After SNMP, muscle biopsies were taken for histology examination, and energy charge analysis. We validated the best perfusion protocol in a heterotopic limb transplantation model with 30-d follow up (n = 13). As controls, we transplanted untreated limbs (n = 5) and hindlimbs preserved with either 6 or 24 h of SCS (n = 4 and n = 5).
RESULTS
During SNMP, arterial outflow increased, and lactate clearance decreased in all groups. Total edema was significantly lower in the HBOC-201 group compared to the BSA group (P = 0.005), 4.9 (4.3-6.1) versus 48.8 (39.1-53.2) percentage, but not to the BSA + PEG group (P = 0.19). Energy charge levels of SCS controls decreased 4-fold compared to limbs perfused with acellular oxygen carrier HBOC-201, 0.10 (0.07-0.17) versus 0.46 (0.42-0.49) respectively (P = 0.002).
CONCLUSIONS
Six hours ex vivo SNMP of rodent hindlimbs using an acellular oxygen carrier HBOC-201 results in superior tissue preservation compared to conventional SCS.
背景
机器灌注作为血管化复合异体移植物(VCA)的有效组织保存方法,正受到越来越多的关注。本研究旨在开发一种用于啮齿动物后肢的亚常温充氧机器灌注(SNMP)的方案,并在同种异体后肢移植模型中验证我们的方案。
方法
在这项优化研究中,我们在 6 小时的 SNMP 期间比较了三种不同的溶液(每组 4 个)。10 个对照肢体在静态冷藏液(SCS)中保存。在 SNMP 期间,我们监测动脉血流、乳酸水平和水肿。SNMP 后,取肌肉活检进行组织学检查和能量电荷分析。我们在 30 天的随访中验证了最佳灌注方案的异体肢体移植模型(n=13)。作为对照,我们移植了未经处理的肢体(n=5)和用 SCS 保存 6 小时或 24 小时的后肢(n=4 和 n=5)。
结果
在 SNMP 期间,所有组的动脉流出增加,乳酸清除减少。与 BSA 组相比,HBOC-201 组的总水肿显著降低(P=0.005),分别为 4.9(4.3-6.1)%和 48.8(39.1-53.2)%,但与 BSA+PEG 组相比无显著差异(P=0.19)。与用无细胞氧载体 HBOC-201 灌注的肢体相比,SCS 对照的能量电荷水平降低了 4 倍,分别为 0.10(0.07-0.17)和 0.46(0.42-0.49)(P=0.002)。
结论
使用无细胞氧载体 HBOC-201 对啮齿动物后肢进行 6 小时的离体 SNMP,可获得比传统 SCS 更好的组织保存效果。
Zotero 插件