Body fluid expansion is not essential for salt-induced  hypertension in SS/Jr rats

Qi, Nanshan; Rapp, John P.; Brand, Paul H.; Metting, Patricia J.; Britton, Steven L.

doi:10.1152/ajpregu.1999.277.5.r1392

Cited by 31 publications

(29 citation statements)

References 21 publications

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“…This observation suggests that, in some sult-sensitive humans, the plasma concentration of Na ϩ attained with Na ϩ loading may critically determine the extent of the pressor effect of dietary NaCl. The observation accords with observations that Qi et al 21 reported in the NaCl-loaded Dahl SS/Jr rat, in which BP varied directly and highly significantly with plasma Na ϩ concentration, irrespective of the hydration state orally imposed. Qi et al 21 proposed, as have others, 4,22,23 that "directly mediated increases in plasma Na ϩ can increase arterial BP in rats by mechanisms that are apparently not related to fluid volume changes."…”

Section: Schmidlin Et Al Sodium-selective Salt Sensitivitysupporting

confidence: 92%

“…The observation accords with observations that Qi et al 21 reported in the NaCl-loaded Dahl SS/Jr rat, in which BP varied directly and highly significantly with plasma Na ϩ concentration, irrespective of the hydration state orally imposed. Qi et al 21 proposed, as have others, 4,22,23 that "directly mediated increases in plasma Na ϩ can increase arterial BP in rats by mechanisms that are apparently not related to fluid volume changes." An increase in plasma Na ϩ concentration may elicit a pressor effect by increasing cerebro-spinal fluid Na ϩ concentration 24 and by thereby activating central sympathoexcitatory mechanisms that give rise to increased sympathetic outflow.…”

Section: Schmidlin Et Al Sodium-selective Salt Sensitivitysupporting

confidence: 92%

“…An increase in plasma Na ϩ concentration may elicit a pressor effect by increasing cerebro-spinal fluid Na ϩ concentration 24 and by thereby activating central sympathoexcitatory mechanisms that give rise to increased sympathetic outflow. 21,[25][26][27] In SS but not in SR subjects, NaHCO 3 , as well as NaCl loading, induced a clear-cut reduction in RBF and, hence, a robust increase in RVR, a phenomenon described previously only with NaCl loading in sult-sensitive humans, 28,29 including normotensive blacks. 19 Clearly, the Cl Ϫ component of NaCl is not required to elicit this dysfunctional renal hemodynamic response to Na ϩ loading.…”

Section: Schmidlin Et Al Sodium-selective Salt Sensitivitymentioning

confidence: 74%

“…33,34 In some instances of salt sensitivity, initiation of the pressor effect of dietary NaCl would appear to require something beyond, or other than, an abnormally enhanced renal retention of its ionic components and their complimentary osmotic capacities to expand PV, 20,33,34 possibly an increase in plasma Na ϩ that elicits an increased central nervous system sympathetic outflow. 4,[21][22][23]25,27 Accordingly, the current observations expand the scope of possible pathogenic mechanisms of human hypertension and, hence, the scope of its potential treatment and prevention.…”

Section: Perspectivesmentioning

confidence: 84%

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Sodium-Selective Salt Sensitivity

et al. 2007

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Abstract-We tested the hypothesis that the Na ϩ component of dietary NaCl can have a pressor effect apart from its capacity to complement the extracellular osmotic activity of Cl Ϫ and, thus, expand plasma volume. We studied 35 mostly normotensive blacks who ingested a low-NaCl diet, 30 mmol/d, for 3 weeks, in the first and third of which Na ϩ was loaded orally with either NaHCO 3 or NaCl, in random order (250 mmol/d). In subjects adjudged to be salt sensitive (nϭ18; ⌬ mean arterial pressure: Ն5 mm Hg with NaCl load), but not in salt-resistant subjects (nϭ17), loading with NaHCO 3 was also pressor. The pressor effect of NaHCO 3 was half that of NaCl: mean arterial pressure (millimeters of mercury) increased significantly from 90 on low NaCl to 95 with NaHCO 3 and to 101 with NaCl. The pressor effect of NaCl strongly predicted that of NaHCO 3. As judged by hematocrit decrease, plasma volume expansion with NaCl was the same in salt-resistant and salt-sensitive subjects and twice that with NaHCO 3 , irrespective of the pressor effect. In salt-sensitive subjects, mean arterial pressure varied directly with plasma Na ϩ concentration attained with all Na ϩ loading. In salt-sensitive but not salt-resistant subjects, NaHCO 3 and NaCl induced decreases in renal blood flow and increases in renal vascular resistance; changes in renal blood flow were not different with the 2 salts. Responses of renal blood flow and renal vascular resistance to NaHCO 3 were strongly predicted by those to NaCl. In establishing the fact of "sodium-selective" salt sensitivity, the current observations demonstrate that the Na ϩ component of NaCl can have pressor and renal vasoconstrictive properties apart from its capacity to complement Cl Ϫ in plasma volume expansion.

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Section: Schmidlin Et Al Sodium-selective Salt Sensitivitysupporting

confidence: 92%

Section: Schmidlin Et Al Sodium-selective Salt Sensitivitysupporting

confidence: 92%

Section: Schmidlin Et Al Sodium-selective Salt Sensitivitymentioning

confidence: 74%

Section: Perspectivesmentioning

confidence: 84%

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Sodium-Selective Salt Sensitivity

et al. 2007

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“…Herein, we refer to salt-induced changes of this time course as 'acute' to distinguish them from much slower salt-induced effects discussed in subsequent sections. Acute salt sensitivity of blood pressure has been demonstrated in experiments involving a number of species including chickens, 19,20 dogs, [21][22][23][24] green monkeys, 25 mice, 26 pigs, 27 rabbits, 28,29 rats [30][31][32][33][34] and spider monkeys. 25,35 An example of the time course of the blood pressure response to a high-salt diet in regular Sprague-Dawley rats is shown in Figure 2.…”

Section: Acute Salt Sensitivity Of Blood Pressurementioning

confidence: 99%

The time course of salt-induced hypertension, and why it matters

Vliet

Montani

2008

Int J Obes

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The epidemiology of salt-induced hypertension has been explored in detail in animal studies, in some cases involving exposures to excess dietary salt for much of the animal's lifespan. The results of these studies demonstrate the presence of two distinct time courses of the blood pressure response to a high salt intake: an acute (rapid) blood pressure response occurring over days to weeks, and a slow and progressive blood pressure response that develops over extremely long periods of time, amounting to a significant fraction of the lifespan in normal individuals. The acute form of salt sensitivity is well known in humans, having often been demonstrated as a fall in blood pressure during the period of salt restriction. The slow and progressive form of salt sensitivity has been demonstrated directly in rats and chimpanzees and is also evident in analyses of human cross-population data as a salt dependency of age-associated changes of blood pressure. This slow and progressive component of salt-induced hypertension may be attributable, at least in part, to a progressive rise in the acute salt sensitivity of blood pressure during sustained exposure to high salt. However, a progressively irreversible or 'self sustaining' component of salt-induced hypertension has also been demonstrated in rat studies. This irreversible component has not been completely characterized, but its presence raises the possibility that blood pressure responses to salt restriction may not fully reveal the contribution of salt to blood pressure or the epidemiology of hypertension. These various components of salt sensitivity (acute vs slow, reversible vs irreversible) should be considered in any comprehensive explanation of the effects of salt on blood pressure and especially in experimental studies of the genetic and physiological mechanisms underlying salt-induced hypertension.

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The Implications of Genes on the Pathogenesis, Diagnosis and Therapeutics of Hypertension

Tan¹,

Liew²

2007

Cardiovascular Genetics and Genomics for the Cardiologist

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Body fluid expansion is not essential for salt-induced hypertension in SS/Jr rats

Cited by 31 publications

References 21 publications

Sodium-Selective Salt Sensitivity

Sodium-Selective Salt Sensitivity

The time course of salt-induced hypertension, and why it matters

The Implications of Genes on the Pathogenesis, Diagnosis and Therapeutics of Hypertension

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