Cell and Tissue Systems, N. Charleston, SC, USA.
Cell Transplant. 2010;19(5):613-28. doi: 10.3727/096368910X486316. Epub 2010 Jan 20.
Pancreas procurement for islet isolation and transplantation is limited by concerns for the detrimental effects of postmortem ischemia. Hypothermic machine perfusion (HMP) preservation technology has had a major impact in circumventing ischemic injury in clinical kidney transplantation and is applied here to the preservation and procurement of viable islets after hypothermic perfusion preservation of porcine pancreata because pigs are now considered the donor species of choice for xenogeneic islet transplantation. Pancreases were surgically removed from young (<6 months) domestic Yorkshire pigs (25-32 kg), either before or after 30 min of warm ischemia time (WIT), and cannulated for perfusion. Each pancreas was assigned to one of six preservation treatment groups: fresh controls-processed immediately (cold ischemia <1 h) (G1, n = 7); static cold storage-flushed with cold UW-Viaspan and stored in UW-Viaspan at 2-4 degrees C for 24 h with no prior WIT (G2, n = 9); HMP perfused on a LifePort(R) machine at 4-6 degrees C and low pressure (10 mmHg) for 24 h with either KPS1 solution (G3, n = 7) or Unisol-UHK (G4, n = 7). Additional treatment groups to evaluate the effects of prior warm ischemia examined islet isolation after 30 min WIT in situ without (G5, n = 6) or with subsequent 24-h HMP with KPS1 (G6, n = 7). The pancreas was intraductally distended with Liberase PI enzyme and normothermically digested. The isolated islets were purified by a continuous density-gradient centrifugation. Perfusion-induced glandular edema was G3 = 138 +/- 19%, G4 = 160 +/- 16%, and G6 = 127 +/- 22%. Islet yield (IEQ/g of pancreas) varied between the groups: G1 = 1,425 +/- 610, G2 = 1,002 +/- 262, G3 = 2,242 +/- 449 (p < 0.05 vs. G2), G4 = 1,901 +/- 420 (p < 0.05 vs. G2), G5 = 1,756 +/- 329, and G6 = 1,396 +/- 243. Islet stimulation indices were equivalent between the groups and similar to controls (G1). Insulin content (ng/IE) was different between the treatment groups with the highest insulin content in islets harvested from HMP pancreata. Dithizone staining for islets consistently showed more uniform digestion of the perfused organs, with greater separation of the tissue, less entrapped islets, and higher islet yield and purity. The salutary effects of HMP for 24 h were also manifest after 30-min prior warm ischemia. We conclude that 24 h of HMP is well tolerated, leading to moderate edema but no loss of function of the harvested islets. The edema appears to aid in enzymatic digestion, producing a greater yield and purity of islets compared with pancreas subjected to 24 h of static cold storage.
胰腺获取用于胰岛分离和移植受到对死后缺血不利影响的担忧的限制。低温机器灌注 (HMP) 保存技术在规避临床肾移植中的缺血性损伤方面具有重大影响,并且在这里应用于在猪胰腺的低温灌注保存后获取和保存有活力的胰岛,因为猪现在被认为是异种胰岛移植的首选供体物种。从年轻 (<6 个月) 的国内约克夏猪 (25-32 公斤) 中通过手术获取胰腺,要么在 30 分钟的热缺血时间 (WIT) 之前,要么在之后,然后进行插管灌注。每个胰腺都被分配到以下六个保存处理组之一:新鲜对照组-立即处理 (冷缺血 <1 小时) (G1,n = 7);静态冷储存-用冷 UW-Viaspan 冲洗并在 UW-Viaspan 中于 2-4°C 储存 24 小时,没有先前的 WIT (G2,n = 9);在 4-6°C 和低压力 (10mmHg) 下在 LifePort(R) 机器上进行 24 小时的 HMP,使用 KPS1 溶液 (G3,n = 7) 或 Unisol-UHK (G4,n = 7)。为了评估先前热缺血的影响,额外的处理组检查了原位 WIT 30 分钟后没有 (G5,n = 6) 或随后用 KPS1 进行 24 小时 HMP 的胰岛分离 (G6,n = 7)。用 Liberase PI 酶对内导管进行扩张,并在正常温度下进行消化。通过连续密度梯度离心法纯化分离的胰岛。灌注诱导的腺泡水肿为 G3 = 138 +/- 19%,G4 = 160 +/- 16%,G6 = 127 +/- 22%。胰岛产量 (IEQ/g 胰腺) 在各组之间有所不同:G1 = 1,425 +/- 610,G2 = 1,002 +/- 262,G3 = 2,242 +/- 449 (p < 0.05 与 G2 相比),G4 = 1,901 +/- 420 (p < 0.05 与 G2 相比),G5 = 1,756 +/- 329,G6 = 1,396 +/- 243。各组之间的胰岛刺激指数相当,与对照组 (G1) 相似。各组之间的胰岛素含量 (ng/IE) 不同,HMP 胰腺中收获的胰岛的胰岛素含量最高。用于胰岛的 dithizone 染色始终显示出灌注器官的消化更均匀,组织分离更大,胰岛包裹更少,胰岛产量和纯度更高。在先前的 30 分钟热缺血后,HMP 24 小时的有益效果也得到了体现。我们得出结论,24 小时的 HMP 耐受良好,导致中度水肿,但不会导致收获的胰岛功能丧失。水肿似乎有助于酶消化,与经过 24 小时静态冷储存的胰腺相比,产生更高的胰岛产量和纯度。
