Nagai T, Kimura G, Matsuoka H, Sanai T, Imanishi M, Kawano Y, Kojima S, Yoshida K, Abe H, Ashida T
Nihon Jinzo Gakkai Shi. 1989 Mar;31(3):235-41.
Intrarenal hemodynamics were estimated in patients with primary aldosteronism (PA) using the Gomez's equations and by analyzing their renal function curve. The study was performed in 6 patients with PA for 2 weeks; they were given a regular sodium diet (12-15 g/day) in the 1st week and a sodium restricted diet (1-3 g/day) in the 2nd week. Blood pressure and urinary sodium excretion (UNaV) were measured on the last three days of each stage. Glomerular filtration rate (GFR) and renal plasma flow rate (RPF) were also measured on the regular sodium diet. Afferent (RA) and efferent (RE) arteriole resistances, and glomerular hydrostatic pressure (PG) were calculated using Gomez's equations. UNaV was plotted on the ordinate as a function of mean blood pressure (MAP) on the x-axis. Assuming that the difference between MAP and the x-intercept of this renal function curve represents the effective filtration pressure, RA, PG and gross filtration coefficient of capillaries (KFG) were also calculated. GFR and RPF were 102 +/- 6, 469 +/- 27 ml/min, respectively. Estimated RA (6600 +/- 700 dyns.sec.cm-5) was markedly elevated, while RE (2500 +/- 100 dyns.sec.cm-5), PG (57 +/- 2 mmHg) and KFG (0.195 +/- 0.041 [ml/sec]/mmHg) remained normal. The intrarenal hemodynamic parameters obtained by analyzing the renal function curve were consistent with those by Gomez's equations. Recently, in DOCA-salt hypertension, an animal model analogous to human PA, PG has been reported to be increased, leading to renal damage. However, the increase in RA was as marked as seen in essential hypertension, and further the increase in PG was not observed in the patients of this study. Thus, it is not clear whether there is a meaningful relationship between glomerular hypertension and renal damage in PA as reported in DOCA-salt hypertension.
利用戈麦斯方程并通过分析肾功能曲线,对原发性醛固酮增多症(PA)患者的肾内血流动力学进行了评估。该研究对6例PA患者进行了为期2周的观察;第1周给予常规钠饮食(12 - 15克/天),第2周给予限钠饮食(1 - 3克/天)。在每个阶段的最后三天测量血压和尿钠排泄量(UNaV)。在常规钠饮食期间还测量了肾小球滤过率(GFR)和肾血浆流量(RPF)。使用戈麦斯方程计算入球小动脉(RA)和出球小动脉(RE)阻力以及肾小球静水压(PG)。以UNaV为纵坐标,平均血压(MAP)为横坐标绘制曲线。假设MAP与该肾功能曲线x轴截距之间的差值代表有效滤过压,还计算了RA、PG和毛细血管总滤过系数(KFG)。GFR和RPF分别为102±6、469±27毫升/分钟。估计的RA(6600±700达因·秒·厘米⁻⁵)显著升高,而RE(2500±100达因·秒·厘米⁻⁵)、PG(57±2毫米汞柱)和KFG(0.195±0.041[毫升/秒]/毫米汞柱)保持正常。通过分析肾功能曲线获得的肾内血流动力学参数与使用戈麦斯方程得到的结果一致。最近,在与人类PA类似的动物模型——去氧皮质酮盐性高血压中,据报道PG升高会导致肾损伤。然而,本研究患者中RA的升高与原发性高血压中所见的一样显著,而且并未观察到PG升高。因此,PA中肾小球高血压与肾损伤之间是否存在如去氧皮质酮盐性高血压中所报道的有意义的关系尚不清楚。
