K H Neumann, H J Schurek, C Kellner, K Kühn, B Aeikens
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引用次数: 6
Abstract
The effective hydraulic permeability (k) of glomerular capillaries was studied in 2-month-old Wistar rats 4 weeks after uninephrectomy in comparison to age-matched control rats. Isolated kidneys were perfused with a cell-free solution containing 5% albumin. In this preparation the rise of colloid osmotic pressure along the glomerular capillaries can be neglected because the filtration fraction is low (3%) due to high perfusion rates at normal filtration rates. Single nephron filtration rates (SNGFR) and effective filtration pressures were estimated by micropuncture to calculate the ultrafiltration coefficient (Kf). Glomerular capillary surface area was measured morphometrically to obtain k (k = Kf/S). We found that the effective hydraulic permeability in uninephrectomized rats was higher than in rats of comparable age (26.0 vs 18.0 nl/mm Hg X s X cm2). This can contribute to the adaptive rise in SNGFR after uninephrectomy.
研究了2月龄Wistar大鼠肾小球毛细血管的有效水力渗透性(k),并与年龄匹配的对照组大鼠进行了比较。用含5%白蛋白的无细胞溶液灌注离体肾脏。在这种制备中,沿着肾小球毛细血管的胶体渗透压的上升可以忽略不计,因为在正常滤过率下,由于高灌注率,滤过分数很低(3%)。通过微穿刺法估算单肾元滤过率(SNGFR)和有效滤过压力,计算超滤系数(Kf)。形态学测量肾小球毛细血管表面积,得到k (k = Kf/S)。我们发现未去肾大鼠的有效水力渗透性高于同龄大鼠(26.0 vs 18.0 nl/mm Hg X s X cm2)。这可能导致非肾切除术后SNGFR的适应性升高。
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