Fealy M J, Umansky W S, Bickel K D, Nino J J, Morris R E, Press B H
Division of Plastic and Reconstructive Surgery, Stanford University Medical Center, California.
Ann Surg. 1994 Jan;219(1):88-93. doi: 10.1097/00000658-199401000-00014.
Graft rejection and the toxicity of current immunosuppressive regimens preclude the application of microsurgical advances to transplantation of limbs or other nonessential parts. If limb transplantation is to become a clinical reality, newer, safer, more effective immunosuppressive agents are needed.
Rapamycin (RPM) and FK 506 are fungal macrolide antibiotics with effective immunosuppressive properties demonstrated in several animal models. RPM is more potent and effective than is FK 506 in rat cardiac allografts and has demonstrated synergy with cyclosporine (CsA) in limb allograft models.
An orthotopic rat hind limb allograft model (Brown-Norway [RT-1n] to Lewis [RT-1(1)] rats was used. RPM (doses, 3.0, 4.5, and 6.0 mg/kg/day) was administered intraperitoneally on postoperative days 1 to 14. FK 506 (6 mg/kg/day) was administered orally on postoperative 1 to 14 and 1 to 90 and at rejection onset (10 mg/kg/day for salvage). CsA with RPM (postoperative days 1 to 14) was used to assess synergy, with CsA alone serving as the control. Other controls included untreated and placebo-treated allografted animals. The permutation test and Mann-Whitney test were applied to the data.
The mean survival times were assessed as follows: (1) control (placebo, untreated), 5 days; (2) RPM groups, 9.5, 10.6, and 8.7 days; (3) 14-day FK 506, 28 days; (4) 90-day FK 506, > 90 days; (5) CsA, 17.3 days; and (6) CsA with RPM, 19.3 days. FK 506 significantly prolonged graft survival compared with RPM (Permutation Test, p < 0.001 and Mann-Whitney Test, p < 0.05). FK 506 salvage reversed early rejection. High-dose RPM produced significant toxicity. Synergy between CsA and RPM was not demonstrated.
FK 506 prolongs allograft survival, reverses early rejection, and prevents rejection without clinical toxicity when given continually. RPM does not prevent rejection in this model and produces significant toxicity at high doses. FK 506 may be a first step in making limb transplantation a clinical reality in reconstructive surgery.
移植物排斥反应以及当前免疫抑制方案的毒性妨碍了显微外科技术在肢体或其他非重要部位移植中的应用。若肢体移植要成为临床现实,就需要更新、更安全、更有效的免疫抑制剂。
雷帕霉素(RPM)和FK 506是真菌大环内酯类抗生素,在多种动物模型中均显示出有效的免疫抑制特性。在大鼠心脏同种异体移植中,RPM比FK 506更有效力且更具效果,并且在肢体同种异体移植模型中已证明其与环孢素(CsA)具有协同作用。
采用原位大鼠后肢同种异体移植模型(从棕色挪威大鼠[RT-1n]到刘易斯大鼠[RT-1(1)])。术后第1至14天腹腔注射RPM(剂量分别为3.0、4.5和6.0 mg/kg/天)。术后第1至14天及1至90天口服FK 506(6 mg/kg/天),在排斥反应开始时(挽救剂量为10 mg/kg/天)。将CsA与RPM联合使用(术后第1至14天)以评估协同作用,单独使用CsA作为对照。其他对照包括未治疗和接受安慰剂治疗的同种异体移植动物。对数据应用排列检验和曼-惠特尼检验。
平均存活时间评估如下:(1)对照(安慰剂、未治疗),5天;(2)RPM组,9.5、10.6和8.7天;(3)14天FK 506组,28天;(4)90天FK 506组,>90天;(5)CsA组,17.3天;(6)CsA与RPM联合组,19.3天。与RPM相比,FK 506显著延长了移植物存活时间(排列检验,p<0.001;曼-惠特尼检验,p<0.05)。FK 506挽救治疗逆转了早期排斥反应。高剂量RPM产生显著毒性。未证明CsA与RPM之间具有协同作用。
持续给予FK 506可延长同种异体移植物存活时间,逆转早期排斥反应,并预防排斥反应且无临床毒性。在该模型中,RPM不能预防排斥反应,且高剂量时会产生显著毒性。FK 506可能是使肢体移植在重建手术中成为临床现实的第一步。