内源性哇巴因与肾素-血管紧张素-醛固酮系统:对人类高血压钠处理和血压的不同影响。
Endogenous ouabain and the renin-angiotensin-aldosterone system: distinct effects on Na handling and blood pressure in human hypertension.
机构信息
Nephrology, and Dialysis San Raffaele Scientific Institute, Università Vita-Salute San Raffaele, Milan, Italy.
出版信息
J Hypertens. 2011 Feb;29(2):349-56. doi: 10.1097/HJH.0b013e32833ea821.
OBJECTIVE
To evaluate whether the renin-angiotensin-aldosterone system (RAAS) and endogenous ouabain system differently affect renal Na handling and blood pressure.
METHODS
Three hundred and one patients in whom we compared blood pressure, and renal Na tubular reabsorption in the basal condition and 2 h (T120) after saline infusion.
RESULTS
Following multivariate-adjusted linear and quartiles analysis, baseline mean blood pressure (MBP) was significantly higher (113.7 ± 1.33 mmHg) in the fourth versus the first endogenous ouabain quartile (103.8 ± 1.04 mmHg) and the trend across the quartiles was highly significant (β = 0.23, P = 3.53e-04). In contrast, an inverse relationship was present in the renin activity (PRA) quartiles with MBP highest in the first (112.5 ± 1.26) and lowest in the fourth PRA quartile (107.6 ± 1.48, P = 0.039). Following an acute saline load, changes in MBP and the slope of the pressure-natriuresis relationship were inversely related across the PRA quartiles. The fractional excretion of sodium (FENa) showed a negative linear trend going from the first to the third endogenous ouabain quartiles (2.35 ± 0.17 and 1.90 ± 0.14%, P = 0.05). Patients in the fourth endogenous ouabain quartile (>323 pmol/l) showed increased FENa T120 (2.78 ± 0.18%, P < 0.01) and increased Na tubular rejection fraction (P = 0.007) after Na load. After the saline load, there was a biphasic relationship between plasma endogenous ouabain and FENa favoring Na retention at low endogenous ouabain and Na excretion at high endogenous ouabain levels.
CONCLUSION
The RAAS and endogenous ouabain system are two independent and complementary systems having an inverse (RAAS) or a direct (endogenous ouabain system) relationship with hemodynamic parameters.
目的
评估肾素-血管紧张素-醛固酮系统(RAAS)和内源性哇巴因系统是否对肾钠处理和血压有不同影响。
方法
我们比较了 310 名患者的血压和基础状态下及盐水输注后 2 小时(T120)的肾钠管重吸收情况。
结果
经多变量调整的线性和四分位数分析,第四四分位与第一内源性哇巴因四分位相比,基线平均血压(MBP)明显升高(113.7±1.33mmHg)(103.8±1.04mmHg),四分位间趋势具有高度显著性(β=0.23,P=3.53e-04)。相反,肾素活性(PRA)四分位之间存在相反的关系,MBP 在第一四分位最高(112.5±1.26),第四 PRA 四分位最低(107.6±1.48,P=0.039)。在急性盐水负荷后,MBP 和压力-排钠关系的斜率在 PRA 四分位之间呈反比关系。钠排泄分数(FENa)呈负线性趋势,从第一到第三内源性哇巴因四分位依次降低(2.35±0.17和 1.90±0.14%,P=0.05)。内源性哇巴因第四四分位(>323pmol/l)的患者在盐水负荷后 FENa T120 升高(2.78±0.18%,P<0.01)和钠管排斥分数增加(P=0.007)。在盐水负荷后,血浆内源性哇巴因与 FENa 之间存在双相关系,有利于低内源性哇巴因水平时的钠保留和高内源性哇巴因水平时的钠排泄。
结论
RAAS 和内源性哇巴因系统是两个独立且互补的系统,与血流动力学参数呈相反(RAAS)或直接(内源性哇巴因系统)关系。
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