Departamento de Ciências Ambientais e Tecnológicas, Universidade Federal Rural do Semi-Árido, Mossoró, RN, Brasil.
Braz J Med Biol Res. 2011 Aug;44(8):767-77. doi: 10.1590/s0100-879x2011007500071. Epub 2011 Jun 10.
This study was designed to evaluate the effect of drag reducer polymers (DRP) on arteries from normotensive (Wistar) and spontaneously hypertensive rats (SHR). Polyethylene glycol (PEG 4000 at 5000 ppm) was perfused in the tail arterial bed with (E+) and without endothelium (E-) from male, adult Wistar (N = 14) and SHR (N = 13) animals under basal conditions (constant flow at 2.5 mL/min). In these preparations, flow-pressure curves (1.5 to 10 mL/min) were constructed before and 1 h after PEG 4000 perfusion. Afterwards, the tail arterial bed was fixed and the internal diameters of the arteries were then measured by microscopy and drag reduction was assessed based on the values of wall shear stress (WSS) by computational simulation. In Wistar and SHR groups, perfusion of PEG 4000 significantly reduced pulsatile pressure (Wistar/E+: 17.5 ± 2.8; SHR/E+: 16.3 ± 2.7%), WSS (Wistar/E+: 36; SHR/E+: 40%) and the flow-pressure response. The E- reduced the effects of PEG 4000 on arteries from both groups, suggesting that endothelial damage decreased the effect of PEG 4000 as a DRP. Moreover, the effects of PEG 4000 were more pronounced in the tail arterial bed from SHR compared to Wistar rats. In conclusion, these data demonstrated for the first time that PEG 4000 was more effective in reducing the pressure-flow response as well as WSS in the tail arterial bed of hypertensive than of normotensive rats and these effects were amplified by, but not dependent on, endothelial integrity. Thus, these results show an additional mechanism of action of this polymer besides its mechanical effect through the release and/or bioavailability of endothelial factors.
本研究旨在评估减阻聚合物(DRP)对正常血压(Wistar)和自发性高血压大鼠(SHR)动脉的影响。在雄性成年 Wistar(N = 14)和 SHR(N = 13)动物的尾动脉床中,用聚乙二醇(PEG 4000 为 5000ppm)在有(E+)和没有内皮(E-)的情况下进行灌注,在基础条件下(以 2.5mL/min 的恒定流量)。在这些制剂中,在 PEG 4000 灌注前和 1 小时后构建流量-压力曲线(1.5 至 10mL/min)。之后,固定尾动脉床,通过显微镜测量动脉的内径,并通过计算模拟评估基于壁面切应力(WSS)的值的减阻效果。在 Wistar 和 SHR 组中,PEG 4000 的灌注显著降低了脉动压力(Wistar/E+:17.5 ± 2.8;SHR/E+:16.3 ± 2.7%)、WSS(Wistar/E+:36;SHR/E+:40%)和流量-压力反应。E- 减少了 PEG 4000 对两组动脉的作用,这表明内皮损伤降低了 PEG 4000 作为 DRP 的作用。此外,与 Wistar 大鼠相比,PEG 4000 对 SHR 尾动脉床的作用更为明显。总之,这些数据首次表明,PEG 4000 在降低高血压大鼠尾动脉床的压力-流量反应和 WSS 方面比正常血压大鼠更有效,并且这些作用通过内皮完整性放大,但不依赖于内皮完整性。因此,这些结果显示了这种聚合物除了通过释放和/或内皮因子的生物利用度产生机械作用之外的另一种作用机制。
