be posted on the websites of WHO, IXA, and TTS, and published in Xenotransplantation.This report includes summaries of the various sessions, followed by the abstracts of invited speakers from the update sessions.
The aims of this study were to determine the most optimal timing to start machine perfusion during kidney preservation to improve early graft function and to evaluate the impact of temperature and oxygen supply during machine perfusion in a porcine ischemia-reperfusion autotransplant model. The left kidney of an approximately 40-kg female Belgian Landrace pig was exposed to 30 minutes of warm ischemia via vascular clamping and randomized to 1 of 6 study groups: (1) 22-hour static cold storage (SCS) (n = 6), (2) 22-hour hypothermic machine perfusion (HMP) (n = 6), (3) 22-hour oxygenated HMP (n = 7), (4) 20-hour HMP plus 2-hour normothermic perfusion (NP) (n = 6), (5) 20-hour SCS plus 2-hour oxygenated HMP (n = 7), and (6) 20-hour SCS plus 2-hour NP (n = 6). Graft recovery measured by serum creatinine level was significantly faster for continuous HMP preservation strategies compared with SCS alone and for all end-ischemic strategies. The active oxygenated 22-hour HMP group demonstrated a significantly faster recovery from early graft function compared with the 22-hour nonactive oxygenated HMP group. Active oxygenation was also found to be an important modulator of a faster increase in renal flow during HMP preservation. Continuous oxygenated HMP applied from the time of kidney procurement until transplant might be the best preservation strategy to improve early graft function.
With oxygenation proposed as a resuscitative measure during hypothermic models of preservation, the aim of this study was to evaluate the optimal start time of oxygenation during continuous hypothermic machine perfusion (HMP). In this porcine ischemia-reperfusion autotransplant model, the left kidney of a ±40 kg pig was exposed to 30 minutes of warm ischemia prior to 22 hours of HMP and autotransplantation. Kidneys were randomized to receive 2 hours of oxygenation during HMP either at the start (n = 6), or end of the perfusion (n = 5) and outcomes were compared to standard, nonoxygenated HMP (n = 6) and continuous oxygenated HMP (n = 8). The brief initial and continuous oxygenated HMP groups were associated with superior graft recovery compared to either standard, nonoxygenated HMP or kidneys oxygenated at the end of HMP. This correlated with significant metabolic differences in perfusate (eg, lactate, succinate, flavin | 2031 DARIUS et Al.
Long‐term survival of discordant xenografts will require control of both humoral and cellular aspects of the immune response. Because cellular responses to xenografts appear to be more potent than those encountered by allografts, recipients of xenogeneic tissues are likely to require more immunosuppression, with potential for unacceptably high complication rates. We have therefore directed our attention toward the induction of tolerance to some or all of the xenogeneic antigens recognized in the primate anti‐pig cellular immune response, utilizing mixed lymphohematopoietic chimerism as the means for tolerance induction. We report here our initial series of 16 animals in which the conditions for application of this treatment regimen were established. In 14 cynomolgus monkey recipients, induction therapy consisted of low dose whole body irradiation, thymic irradiation, and ATG, followed by infusion of pig bone marrow and a pig kidney transplant. Other aspects of the regimen included splenectomy and removal of monkey anti‐porcine natural antibodies by extracorporeal perfusion of the recipient's blood through a pig liver. Two control animals received either no treatment or extracorporeal perfusion but no additional induction therapy. Five of the experimental animals were treated posttransplant with an anti‐IgM monoclonal antibody, five with Cyclosporin A, and two with a combination of both immunosuppressants. Both IgM and IgG natural antibodies were removed effectively by liver perfusion in all but one monkey, as determined by flow cytometry. Antibody liters remained low for 5–7 days, but increased progressively thereafter. The longest kidney survival in this series was 13 days, in an animal which maintained excellent kidney function for the first 11 days posttransplant. Peripheral chimerism was detected only transiently on day 10 in the peripheral blood of this recipient. We conclude that extracorporeal perfusion by this technique removes natural antibodies and prevents hyperacute rejection, permitting maintenance of excellent renal xenograft function for at least 11 days. Additional manipulations appear to be required to achieve mixed chimerism and tolerance of the cellular immune system in this model.
Background.
The optimal perfusate partial pressure of oxygen (Po
2) during hypothermic machine perfusion (HMP) is unknown. The aims of the study were to determine the functional, metabolic, structural, and flow dynamic effects of low and high perfusate Po
2 during continuous HMP in a pig kidney ischemia-reperfusion autotransplant model.
Methods.
The left kidneys of a ±40 kg pigs were exposed to 30 minutes of warm ischemia and randomized to receive 22-hour HMP with either low perfusate Po
2 (30% oxygen, low oxygenated HMP [HMPO2]) (n = 8) or high perfusate Po
2 (90% oxygen, HMPO2high) (n = 8), before autotransplantation. Kidneys stored in 22-hour standard HMP (n = 6) and 22-hour static cold storage (n = 6) conditions served as controls. The follow-up after autotransplantation was 13 days.
Results.
High Po
2 resulted in a 3- and 10-fold increase in perfusate Po
2 compared with low HMPO2 and standard HMP, respectively. Both HMPO2 groups were associated with superior graft recovery compared with the control groups. Oxygenation was associated with a more rapid and sustained decrease in renal resistance. While there was no difference in functional outcomes between both HMPO2 groups, there were clear metabolic differences with an inverse correlation between oxygen provision and the concentration of major central metabolites in the perfusion fluid but no differences were observed by oxidative stress and metabolic evaluation on preimplantation biopsies.
Conclusions.
While this animal study does not demonstrate any advantages for early graft function for high perfusate Po
2, compared with low perfusate Po
2, perfusate metabolic profile analysis suggests that aerobic mechanism is better supported under high perfusate Po
2 conditions.
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