Mokuno Yasuji, Berthiaume François, Tompkins Ronald G, Balis Ulysses J, Yarmush Martin L
Center for Engineering in Medicine/Surgical Services, Massachusetts General Hospital, Harvard Medical School, and Shriners Hospital for Children, Boston, MA 02114, USA.
Liver Transpl. 2004 Feb;10(2):264-72. doi: 10.1002/lt.20014.
Fatty liver is a common predisposing risk factor for postoperative liver failure and accounts for most discarded livers during triage of donors. We investigated the effect of heat shock preconditioning (HPc) on recipient survival in a rat fatty liver transplantation model. Fatty liver donor rats were exposed to brief whole-body hyperthermia (10 minutes at 42.5 degrees C) and allowed to recover. HPc induced heat shock proteins (HSPs) (HSP72, HSP90, and heme oxygenase [HO]-1) in donor livers, with levels peaking 12 to 48 hours after HPc. Subsequently, donor livers were harvested 24 hours after HPc, placed in cold storage for 10 hours, and transplanted into normal rats. At 3 hours posttransplantation, HPc reduced serum liver enzymes in the recipients and almost completely suppressed the release of tumor necrosis factor (TNF)-alpha and interleukin (IL)-10. Histologic evaluation 3 and 24 hours after transplantation showed that HPc significantly reduced hepatic inflammation and hepatocellular necrosis without affecting the steatotic appearance of hepatocytes. One week after transplantation, control non-heat-shocked and heat-shocked fatty liver recipients exhibited survival rates of less than 10% and more than 80%, respectively. The evaluation of the survival of recipients receiving fatty livers at different times after HPc showed that the protective effect of HPc was significant when donor livers were transplanted 3 to 48 hours after HPc, with the maximum effect seen 6 to 48 hours after HPc. In conclusion, HPc is a promising avenue to salvage rejected donor fatty livers and enhance the survival rate of fatty liver recipients. We estimate that this technique could increase the annual donor pool by 600 livers.
脂肪肝是术后肝衰竭常见的诱发危险因素,也是供体肝脏在分类挑选过程中多数被废弃的原因。我们在大鼠脂肪肝移植模型中研究了热休克预处理(HPc)对受体存活率的影响。对脂肪肝供体大鼠进行短暂的全身热疗(42.5℃,10分钟),然后使其恢复。HPc诱导供体肝脏产生热休克蛋白(HSPs)(HSP72、HSP90和血红素加氧酶[HO]-1),其水平在HPc后12至48小时达到峰值。随后,在HPc后24小时摘取供体肝脏,冷藏10小时,然后移植到正常大鼠体内。移植后3小时,HPc降低了受体的血清肝酶水平,并几乎完全抑制了肿瘤坏死因子(TNF)-α和白细胞介素(IL)-10的释放。移植后3小时和24小时的组织学评估显示,HPc显著减轻了肝脏炎症和肝细胞坏死,而不影响肝细胞的脂肪变性外观。移植后一周,未进行热休克处理的对照脂肪肝受体和经过热休克处理的受体存活率分别低于10%和高于80%。对在HPc后不同时间接受脂肪肝的受体存活率评估显示,当供体肝脏在HPc后3至48小时移植时,HPc的保护作用显著,在HPc后6至48小时效果最佳。总之,HPc是挽救被拒收的供体脂肪肝并提高脂肪肝受体存活率的一条有前景的途径。我们估计这项技术每年可使供肝库增加600个肝脏。
