Department of Cardiovascular Surgery and Research Group for Experimental Surgery, Heinrich Heine University, Medical Faculty, Moorenstrasse 5, Duesseldorf 40225, Germany.
Department of Cardiovascular Surgery and Research Group for Experimental Surgery, Heinrich Heine University, Medical Faculty, Moorenstrasse 5, Duesseldorf 40225, Germany.
Biomaterials. 2014 Aug;35(26):7416-28. doi: 10.1016/j.biomaterials.2014.05.034. Epub 2014 Jun 7.
In order to allow for a comparative evaluation of the in vivo degeneration of biological and tissue-engineered heart valves and vascular grafts, a small animal model of accelerated cardiovascular calcification is desired. Wistar rats (n = 102; 6 groups) were fed ad libitum with regular chow and 5 different regimens of pro-calcific diet supplemented with combinations of vitamin D (VD), cholesterol (CH) and dicalcium phosphate (PH). Moreover, cryopreserved (n = 7) or detergent-decellularized rat aortic conduit grafts (n = 6) were infrarenally implanted in Wistar rats under severely pro-calcific conditions. The follow-up lasted up to 12 weeks. High-dose application of VD (300,000 IU/kg), CH (2%) and PH (1.5%) resulted in elevated serum calcium and cholesterol levels as well as LDL/HDL ratio. It increased the tissue MMP activity visualized by in situ zymography and caused significantly aggravated calcification of the native aortic valve as well as the aortic wall as assessed by histology and micro-computed tomography. (Immuno)histology and quantitative real-time PCR revealed chondro-osteogenic cell transformation, lipid deposition, nitrosative stress and low-level inflammation to be involved in the formation of calcific lesions. Despite pro-calcific in vivo conditions, decellularization significantly reduced calcification, inflammation and intimal hyperplasia in aortic conduit implants. A well balanced dietary trigger for pathologic metabolic conditions may represent an appropriate mid-term treatment to induce calcifying degeneration of aortic valves as well as vascular structures in the systemic circulation in rats. With respect to experimental investigation focusing on calcifying degeneration of native or prosthetic tissue, this regimen may serve as a valuable tool with a rapid onset and multi-facetted character of cardiovascular degeneration.
为了能够对生物和组织工程心脏瓣膜和血管移植物的体内退化进行比较评估,需要一种小型加速心血管钙化动物模型。Wistar 大鼠(n=102;6 组)自由进食常规饲料和 5 种不同的促钙化饮食方案,这些方案中补充了维生素 D(VD)、胆固醇(CH)和磷酸二钙(PH)的组合。此外,在严重促钙化条件下,将冷冻保存的(n=7)或去污脱细胞大鼠主动脉移植物(n=6)植入 Wistar 大鼠的肾下。随访时间长达 12 周。高剂量的 VD(300,000 IU/kg)、CH(2%)和 PH(1.5%)应用导致血清钙和胆固醇水平以及 LDL/HDL 比值升高。原位酶谱法显示组织基质金属蛋白酶活性增加,并导致组织学和微计算机断层扫描评估的天然主动脉瓣和主动脉壁严重钙化。(免疫)组织化学和定量实时 PCR 显示软骨骨生成细胞转化、脂质沉积、硝化应激和低水平炎症参与钙化病变的形成。尽管存在促钙化的体内条件,但脱细胞处理可显著减少主动脉移植物中的钙化、炎症和内膜增生。平衡饮食的触发因素可能代表一种适当的中期治疗方法,可在大鼠的主动脉瓣和全身循环中的血管结构中诱导钙化性退化。对于关注天然或假体组织钙化退化的实验研究,该方案可能是一种有价值的工具,具有快速发作和多方面心血管退化的特征。
