Westerband A, Mills J L, Marek J M, Heimark R L, Hunter G C, Williams S K
Section of Vascular Surgery and Vascular Biology, University of Arizona Health Sciences Center, Tuscon 85724, USA.
J Vasc Surg. 1997 Jan;25(1):64-73. doi: 10.1016/s0741-5214(97)70322-7.
Vascular reconstructions are prone to fail as a result of the development of stenotic lesions, which have historically been attributed to myointimal hyperplasia. In animal models, these lesions are associated with marked proliferative smooth muscle cell (SMC) response to vascular injury. However, recent studies using sensitive immunocytochemical techniques in human lesions have generally failed to detect significant cellular proliferation. To clarify the role of cellular proliferation in humans, we characterized the cellular composition and proliferative index of 14 early infrainguinal vein graft stenoses.
All infrainguinal vein grafts at our institution are prospectively enrolled in a duplex surveillance protocol, the details of which have been previously reported. Among 98 grafts placed within the last year, 11 patients were identified with 14 progressive, focal, high-grade lesions that met previously established threshold criteria for prophylactic revision to prevent graft thrombosis. Lesions were first detected from 1 week to 7 months after surgery and were removed and replaced with segmental interposition grafts (1.5 to 10 months). Freshly excised lesions were placed in Methyl Carnoy's fixative, paraffin embedded, and serially sectioned. The cellular composition of each lesion was determined with cell-specific immunochemical reagents: alpha SMC actin, von Willebrand factor (endothelial cell), CD 68 (macrophage), and CD 45RB (monocyte). Actively proliferating cells were identified using antibody to proliferating cell nuclear antigen (PCNA). The identity of PCNA-positive cells was determined by double-label immunocytochemical staining, and the proliferative index (PCNA-positive cells/total cells x 100) was calculated by computer-assisted counts of representative gridded cross-sections of each lesion.
All excised lesions demonstrated marked thickening with severe luminal encroachment and were highly cellular, with a predominance of alpha SMC actin+. Endothelial cells on the blood flow surface were present to a variable degree, and seven lesions exhibited striking numbers of macrophages and monocytes. The latter cell types were most abundant near microvessels in the deep neointima and adventitia. Active cellular proliferation was identified primarily in SMCs, with a mean PCNA index of 1.34%. However, significant PCNA reactivity was not limited to SMCs, but was also identified in macrophages and monocytes, particularly in lesions greater than 3 months old.
Previous immunocytochemical studies of human coronary restenosis atherectomy specimens have generally detected low rates of cellular proliferation (0.5%), but these lesions may not truly represent myointimal hyperplasia, rather a mixture of atherosclerosis, thrombosis, and "restenosis." In contrast, the present study of early human vein graft lesions detected by duplex surveillance indicates that significant cellular proliferation occurs, although rates are lower than those obtained in animals such as the rat carotid injury model. In addition, although SMCs are the predominant proliferating cell type in human vein grafts, our identification of proliferating monocytes and macrophages raises the question of the contribution of an inflammatory component to the development of human lesions. The present study represents the first report of PCNA determination in a series of human infrainguinal vein grafting procedures.
血管重建术容易因狭窄性病变的发展而失败,历史上这些病变被归因于肌内膜增生。在动物模型中,这些病变与血管损伤后平滑肌细胞(SMC)的显著增殖反应有关。然而,最近在人类病变中使用敏感免疫细胞化学技术的研究通常未能检测到明显的细胞增殖。为了阐明细胞增殖在人类中的作用,我们对14例早期股腘静脉移植血管狭窄的细胞组成和增殖指数进行了特征分析。
我们机构的所有股腘静脉移植血管均前瞻性纳入一项双功超声监测方案,其详细情况先前已报道。在去年植入的98条移植血管中,11例患者被发现有14处进行性、局灶性、高度狭窄病变,这些病变符合先前确定的预防性修复阈值标准,以防止移植血管血栓形成。病变在术后1周内至7个月首次被检测到,并被切除,用节段间置移植血管替换(1.5至10个月)。新鲜切除的病变置于甲基卡诺固定液中,石蜡包埋,连续切片。用细胞特异性免疫化学试剂确定每个病变的细胞组成:α平滑肌肌动蛋白、血管性血友病因子(内皮细胞)、CD 68(巨噬细胞)和CD 45RB(单核细胞)。使用抗增殖细胞核抗原(PCNA)抗体鉴定活跃增殖细胞。通过对每个病变的代表性网格横断面进行计算机辅助计数来确定PCNA阳性细胞的身份,并计算增殖指数(PCNA阳性细胞/总细胞×100)。
所有切除的病变均显示明显增厚,伴有严重的管腔狭窄,细胞高度丰富,以α平滑肌肌动蛋白阳性为主。血流表面的内皮细胞数量不等,7处病变显示有大量巨噬细胞和单核细胞。后两种细胞类型在深部新生内膜和外膜的微血管附近最为丰富。活跃的细胞增殖主要在平滑肌细胞中被鉴定到,平均PCNA指数为1.34%。然而,显著的PCNA反应性并不局限于平滑肌细胞,在巨噬细胞和单核细胞中也有发现,特别是在3个月以上的病变中。
先前对人类冠状动脉再狭窄旋切术标本的免疫细胞化学研究通常检测到较低的细胞增殖率(0.5%),但这些病变可能并不真正代表肌内膜增生,而是动脉粥样硬化、血栓形成和“再狭窄”的混合。相比之下,本研究通过双功超声监测发现的早期人类静脉移植血管病变表明,尽管增殖率低于大鼠颈动脉损伤模型等动物模型,但仍发生了显著的细胞增殖。此外,虽然平滑肌细胞是人类静脉移植血管中主要的增殖细胞类型,但我们对增殖单核细胞和巨噬细胞的确认为炎症成分在人类病变发展中的作用提出了疑问。本研究是一系列人类股腘静脉移植手术中PCNA测定的首次报告。
