2517: Ex-vivo subnormothermic oxygenated machine perfusion of swine forelimbs enables prolonged graft preservation prior to transplantation

Vascularized Composite Allotransplantation Pub Date : 2016-10-10 DOI:10.1080/23723505.2016.1234269

A. Lellouch, N. Karimian, Z. Ng, Safak Mert, Sharon Geerts, K. Uygun, C. Cetrulo

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Abstract

2517: Ex-vivo subnormothermic oxygenated machine perfusion of swine forelimbs enables prolonged graft preservation prior to transplantation Alexandre Gaston Lellouch, Negin Karimian, Zhi Yang Ng, Safak Mert, Sharon Geerts, Korkut Uygun, and Curtis L. Cetrulo Harvard University, Boston, MA, USA; Massachusetts General Hospital, Boston, MA, USA Background The current gold standard in tissue preservation is static cold storage (SCS) on ice-cold (0–4 C) UW solution. While SCS slows down graft deterioration, it does not have restorative capabilities. We previously developed an ex-vivo perfusion system for subnomothermic oxygenated machine perfusion (SNMP) to resuscitate cadaveric organs. Recovered livers were perfused for 3 hours and transplanted successfully into recipient rats in 5/6 cases; when scaled up to DCD human livers, SNMP demonstrated sustained and enhanced viability of liver grafts. To expand the donor pool in VCA, we investigated the utility of SNMP on preservation time and resuscitation of ischemic limbs in a swine model. Methods 2 porcine forelimbs were procured and flushed with ice-cold UW on the back table through the cannulated axillary artery and veins. Warm ischemia was 45 mins and SCS was 2 hours. Before starting SNMP, the forelimbs were flushed with 1500 mL of cold Lactated Ringers. During SNMP (3 hours), the amputated forelimbs were perfused by a pressure-controlled system through the axillary artery. The perfusion solution consisted of William’s E medium, which was enriched with dexamethasone, insulin and heparin. A venous outflow was prepared for sample collection. Hemodynamics of the limbs was monitored by evaluation of arterial flow and vascular resistance. Perfusion samples were collected at 30 min intervals for biochemical analysis. Lactate clearance was monitored as a marker of muscle injury. Muscle biopsies were collected at 60 min intervals for measurement of ATP production. Results Arterial outflow and vascular resistance remained stable throughout the perfusion, between 270 and 320 mL/min and 0.23 and 0.26 mmHg/mL/min, respectively. Despite the initial increase in lactate levels from 0.2 mmol/L to > 6 mmol/L, this value remained stable during the final hour of perfusion. The increase in ATP production reflects successful resuscitation of the forelimb, increasing from a baseline of 5500 before perfusion to 7500 nmol/g protein during SNMP. Conclusions SNMP has the potential to both actively preserve and enhance overall preservation of forelimbs in a swine model. It may provide the crucial enabling technology for tissue preservation, transport, and eventual transplantation of VCAs. CONTACT Alexandre Gaston Lellouch alellouch@mgh.harvard.edu © 2016 Alexandre Gaston Lellouch, Negin Karimian, Zhi Yang Ng, Safak Mert, Sharon Geerts, Korkut Uygun, and Curtis L. Cetrulo. Published with license by Taylor & Francis. This is an Open Access article distributed under the terms of the Creative Commons Attribution-Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0/), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited. The moral rights of the named author(s) have been asserted. VASCULARIZED COMPOSITE ALLOTRANSPLANTATION 2016, VOL. 3, NOS. 1–2, 38 http://dx.doi.org/10.1080/23723505.2016.1234269

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2517:猪前肢离体亚常温充氧机灌注使移植前的移植物保存时间延长

2517:猪前肢离体亚体温充氧机灌注使移植前移植物保存时间延长Alexandre Gaston Lellouch, Negin Karimian, Zhi Yang Ng, Safak Mert, Sharon Geerts, Korkut Uygun和Curtis L. Cetrulo哈佛大学，波士顿，马萨诸塞州，美国;背景目前组织保存的金标准是在冰冷(0-4℃)UW溶液上的静态冷库(SCS)。虽然SCS减缓移植物的恶化，但它不具有修复能力。我们之前开发了一种体外灌注系统，用于亚低温氧合机灌注(SNMP)来复苏尸体器官。恢复肝脏灌注3小时，5/6移植成功;当扩大到DCD人肝脏时，SNMP证明了肝移植的持续和增强的活力。为了扩大VCA的供体池，我们研究了SNMP对猪模型缺血肢体保存时间和复苏的作用。方法取2只猪前肢，经腋动静脉插管，在背台上用冷水冲洗。热缺血45分钟，SCS 2小时。在启动SNMP之前，用1500 mL冷乳酸林格液冲洗前肢。在SNMP(3小时)中，截肢的前肢通过腋窝动脉进行压力控制系统灌注。灌注液为William’s E培养基，加入地塞米松、胰岛素和肝素。准备静脉流出液用于样本采集。通过评估动脉流量和血管阻力来监测四肢的血流动力学。每隔30 min采集灌注标本进行生化分析。乳酸清除率作为肌肉损伤的标志进行监测。每隔60分钟收集肌肉活检以测量ATP的产生。结果动脉流出量和血管阻力在灌注过程中保持稳定，分别在270 ~ 320 mL/min和0.23 ~ 0.26 mmHg/mL/min之间。尽管乳酸水平最初从0.2 mmol/L增加到> 6 mmol/L，但该值在灌注的最后一个小时保持稳定。ATP生成的增加反映了前肢成功复苏，从灌注前的5500 nmol/g增加到SNMP期间的7500 nmol/g蛋白。结论SNMP具有积极保存和增强猪前肢整体保存的潜力。它可能为vca的组织保存、运输和最终移植提供关键的使能技术。联系Alexandre Gaston Lellouch alellouch@mgh.harvard.edu©2016 Alexandre Gaston Lellouch, Negin Karimian, Zhi Yang Ng, Safak Mert, Sharon Geerts, Korkut Uygun和Curtis L. Cetrulo。由Taylor & Francis授权出版。这是一篇在知识共享署名-非商业许可(http://creativecommons.org/licenses/by-nc/3.0/)条款下发布的开放获取文章，该许可允许在任何媒体上不受限制的非商业使用、分发和复制，前提是正确引用原始作品。指定作者的精神权利得到了维护。血管化复合异体移植，2016,VOL. 3, no . 1-2, 38 http://dx.doi.org/10.1080/23723505.2016.1234269

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Vascularized Composite Allotransplantation

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