Lakey Jonathan R T, Kneteman Norman M, Rajotte Ray V, Wu Douglas C, Bigam David, Shapiro A M James
Department of Surgery and the Surgical-Medical Research Institute, University of Alberta, Edmonton, Alberta T6G 2N8, Canada.
Transplantation. 2002 Apr 15;73(7):1106-10. doi: 10.1097/00007890-200204150-00016.
Success of human pancreatic islet isolation depends largely on the techniques used during pancreas procurement and the quality of the gland. Warm ischemia of the pancreas of any duration during organ procurement may be detrimental to subsequent islet yield and functional viability of the islets. The aim of this study was to correlate pancreas procurement technique with the core temperature within the pancreas during in situ procurement to the recovery and in vitro function of isolated human islets.
Alternative pancreata were recovered from human cadaveric organ donors with needle-point myocardial temperature probes placed within the body of the pancreas. After vascular flushing with University of Wisconsin organ preservation solution, the first group of human pancreata were removed after standard liver and kidney procurement followed by in situ dissection of the pancreas. The second group of pancreata were removed using a similar protocol, except that the lesser sac was opened (and the spleen was mobilized to the midline) rapidly at the time of aortic cross-clamp. An additional 3-4 L of ice slush solution was placed behind and in front of the pancreas and replenished throughout the procurement process for the liver and kidneys. Immediately after recovery, in both groups, the pancreas was placed in cold University of Wisconsin solution and transported to the islet isolation laboratory for processing. Islets were isolated using a standard protocol of Liberase perfusion via the duct, gentle mechanical dissociation, and Ficoll purification.
The absence of in situ ice-chilling of the entire pancreas during liver and kidney procurement caused the core pancreas temperature to rise to a peak of 18.2 degrees C; but when the pancreas was surrounded and replenished with iced saline slush, the core pancreas temperature was maintained at approximately 4 degrees C. The lower pancreas temperature correlated with a significantly higher recovery of islets in the group of pancreata surrounded with iced saline (223+/-35x10(3) IE vs. 103+/-26x10(3) IE; mean +/- SEM). Functional ability of the islets was also significantly improved in glucose static incubation, with a stimulation index of 4.4+/-0.3 in the iced-saline pancreas group versus 3.0+/-0.4 in the standard procurement group (P<0.05, paired t test).
Procurement technique and the maintenance of a low temperature of the pancreas are critical to subsequent islet recovery and function. Maintaining a low pancreas temperature during procurement through the addition and replenishment of iced saline slush surrounding the anterior and posterior aspects of the pancreas greatly improves islet yield and functional viability of the isolated islets and is essential for success in clinical islet transplantation.
人类胰岛分离的成功很大程度上取决于胰腺获取过程中所使用的技术以及胰腺的质量。在器官获取过程中,胰腺任何时长的热缺血都可能对后续的胰岛产量和胰岛的功能活性产生不利影响。本研究的目的是将胰腺获取技术与原位获取过程中胰腺内部的核心温度,与分离出的人类胰岛的回收率及体外功能相关联。
从人类尸体器官捐赠者处获取备用胰腺,将针状心肌温度探头置于胰腺体内。用威斯康星大学器官保存液进行血管冲洗后,第一组人类胰腺在标准的肝脏和肾脏获取后被切除,随后进行胰腺的原位解剖。第二组胰腺采用类似方案切除,不同之处在于在主动脉交叉钳夹时迅速打开网膜囊(并将脾脏游离至中线)。在胰腺前后放置额外3 - 4升的冰泥溶液,并在整个肝脏和肾脏获取过程中补充。两组胰腺在恢复后立即置于冷的威斯康星大学溶液中,并运至胰岛分离实验室进行处理。使用通过导管进行 Liberase 灌注、轻柔机械解离和 Ficoll 纯化的标准方案分离胰岛。
在肝脏和肾脏获取过程中对整个胰腺未进行原位冰冷却导致胰腺核心温度升至18.2摄氏度的峰值;但当胰腺被冰盐水泥包围并补充时,胰腺核心温度维持在约4摄氏度。较低的胰腺温度与被冰盐水包围的胰腺组中显著更高的胰岛回收率相关(223±35×10³ IE 对 103±26×10³ IE;均值±标准误)。在葡萄糖静态孵育中,胰岛的功能能力也显著提高,冰盐水胰腺组的刺激指数为4.4±0.3,而标准获取组为3.0±0.4(P<0.05,配对t检验)。
获取技术和胰腺低温的维持对于后续胰岛的恢复和功能至关重要。在获取过程中通过在胰腺前后添加和补充冰盐水泥来维持胰腺低温,可极大提高分离胰岛的产量和功能活性,对于临床胰岛移植的成功至关重要。
