Garbett P K, Gibbins J R
Department of Rheumatology, Royal North Shore Hospital, St Leonards, Sydney, NSW, Australia.
Br J Exp Pathol. 1987 Oct;68(5):625-35.
To examine the vascular changes that lead to the development of new vessel sprouts from differentiated vessels the early response of an uninjured, stable, adult vascular bed to the presence of neoplastic tissue has been studied. Small grafts of a squamous cell carcinoma were implanted above the cremaster muscle of host rats syngeneic with the rat in which the neoplasm arose. The vascular response was examined by light microscopy of whole cremaster preparations after intravenous injection of colloidal carbon to label leaky vessels, and by scanning electron microscopy of methyl methacrylate injection casts. Three to five days after implantation there was a dramatic increase in the number of visible blood vessels of the microcirculation adjacent to the graft as a result of altered blood flow through the existing microvasculature. Capillaries and post-capillary venules became widely distended, tortuous and variably permeable to the introduced colloidal marker. Capillary involvement was restricted to the area nearest the graft while post-capillary venules were affected in more remote regions. Networks of newly formed vascular channels developed from the extremities of the tortuous loops. Altered permeability within the pre-existing vessels was related to the distension and tortuosity, with a pattern of vascular labelling quite unlike that induced by inflammatory mediators or tumour secreted vascular permeability mediator (VPM). These changes are considered to be the result of altered inter-endothelial cell adhesion and cellular rearrangement, and represent important antecedent stages in the formation of the new vascular structures.
为了研究导致分化血管形成新血管芽的血管变化,我们对未受损、稳定的成年血管床对肿瘤组织存在的早期反应进行了研究。将鳞状细胞癌的小移植片植入与肿瘤发生大鼠同基因的宿主大鼠的提睾肌上方。静脉注射胶体碳标记渗漏血管后,通过对整个提睾肌标本进行光学显微镜检查,并对甲基丙烯酸甲酯注射铸型进行扫描电子显微镜检查来观察血管反应。植入后三到五天,由于现有微脉管系统中血流改变,移植片附近微循环中可见血管数量急剧增加。毛细血管和毛细血管后微静脉广泛扩张、迂曲,对引入的胶体标记物的通透性各不相同。毛细血管的受累仅限于最靠近移植片的区域,而毛细血管后微静脉在更远的区域受到影响。新形成的血管通道网络从迂曲环的末端发展而来。既有血管内通透性的改变与扩张和迂曲有关,其血管标记模式与炎症介质或肿瘤分泌的血管通透性介质(VPM)诱导的模式截然不同。这些变化被认为是内皮细胞间黏附改变和细胞重排的结果,代表了新血管结构形成的重要前期阶段。