UMLS:C0020538 - FACTA Search

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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies have shown that angiotensin II (Ang II) can activate cardiovascular neurons within the medulla oblongata via an action on specific receptors. The purpose of this study was to determine the distribution of neurons within the medulla activated by infusion of Ang II into the fourth ventricle of conscious rabbits, using the expression of Fos, the protein product of the immediate early gene c-fos as a marker of neuronal activation. Experiments were done in both intact and barodenervated animals. In comparison with a control group infused with Ringer's solution alone, in both intact and barodenervated animals, fourth ventricular infusion of Ang II (4 to 8 pmol/min) induced a significant increase in the number of Fos-positive neurons in the nucleus of the solitary tract and in the rostral, intermediate, and caudal parts of the ventrolateral medulla. Double-labeling for Fos and tyrosine hydroxylase immunoreactivity showed that 50% to 75% of Fos-positive cells in the rostral, intermediate, and caudal ventrolateral medulla and 30% to 40% of Fos-positive cells in the nucleus of the solitary tract were also positive for tyrosine hydroxylase in both intact and barodenervated animals. The distribution of Fos-positive neurons corresponded very closely to the location of Ang II receptor binding sites as previously determined in the rabbit. The results indicate that medullary neurons activated by Ang II are located in discrete regions within the nucleus of the solitary tract and ventrolateral medulla and include, in all of these regions, both catecholamine and noncatecholamine neurons.
Hypertension 1996 Feb
PMID:Medullary neurons activated by angiotensin II in the conscious rabbit. 856 54

The present series of experiments was performed to investigate the influence of acute intracranial hypertension on the upper limit (UL) of cerebral blood flow (CBF) autoregulation. Three groups of eight rats each--one with normal intracranial pressure (ICP) (2 mmHg), one with ICP = 30 mmHg, and one with ICP = 50 mmHg--were investigated. Intracranial hypertension was maintained by continuous infusion of lactated Ringer's solution into the cisterna magna, where the pressure was used as ICP. Cerebral perfusion pressure (CPP), calculated as mean arterial blood pressure (MABP)-ICP, was increased stepwise by continuous intravenous infusion of norepinephrine. CBF was calculated by the intracarotid 133Xe method. In all three groups the corresponding CBF/CPP curve included a plateau where CBF was independent of changes in CPP, showing intact autoregulation. At normal ICP the UL was found at a CPP of 141 +/-2 mmHg, at ICP = 30 mmHg the UL was 103+/-5 mmHg, and at ICP = 50 mmHg the UL was found at 88+/-7 mmHg. This shift of the UL was more pronounced than the shift of the lower limit (LL) of the CBF autoregulation found previously. We conclude that intracranial hypertension is followed by both a shift toward lower CPP values and a narrowing of the autoregulated interval between the LL and the UL.
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PMID:The upper limit of cerebral blood flow autoregulation in acute intracranial hypertension. 955 69

A therapeutic regimen was established to keep blood pressure, heart rate and haematocrit within the normal range during high-dose paraoxon (PX) exposure (ca. 150 x LD50) in mini pigs in order to achieve survival. Previous experiments showed that mini pigs exposed to high-dose PX died shortly after PX infusion due to hypertension, tachycardia and increased haematocrit if no antihypertensive and fluid therapy was initiated. Therefore, antihypertensive and fluid therapy with magnesium (MgSO4) and Ringer's solution was established to keep the blood pressure, heart rate and haematocrit within a pre-established normal range. Anaesthesized mini pigs received intravenously PX (54 mg kg(-1) body wt.) dissolved in alcohol. The control group received alcohol in corresponding amounts. When the blood pressure and heart rate increased, MgSO4 was given intravenously until measured values reached the normal range. When the haematocrit increased, fluids were given intravenously until the haematocrit reached the normal range. The measured values in the PX group were compared with the measured values of the control group using the 'rank order test'. As intended, no statistically significant differences between blood pressure, heart rate or haematocrit were found after therapy, but the PX group required statistically significantly more MgSO4 and fluids than the control group to keep the blood pressure, heart rate and haematocrit within the normal range. We assume that the increased need of antihypertensive therapy is due to a phaeochromocytoma-like pattern caused by an excessive release of catecholamines from the adrenal medulla, which is under sympathotonic control and activated by acetylcholine. Paraoxon is known to cause endogenous acetylcholine poisoning. The high fluid requirements in the PX group are most probably caused by extravasation of fluids due to the damage inflicted on biological membranes by organophosphorus compounds. An activation of secretory glands probably also contributes to the increase in haematocrit through consumption of fluids. In conclusion, the survival of mini pigs exposed to high-dose PX can be achieved by tight control of blood pressure, heart rate and haematocrit using MgSO4 and fluids.
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PMID:Control of blood pressure, heart rate and haematocrit during high-dose intravenous paraoxon exposure in mini pigs. 971 30

Cerebrovascular reactivity to CO2 in clinical and experimental studies has been found to be impaired during increased intracranial pressure (ICP). However, from previous study results it has not been possible to estimate whether the impairment was caused by elevated ICP, or caused by decreased cerebral perfusion pressure (CPP). The current study was carried out in a group of unmanipulated control rats and in six investigation groups of six rats each: two groups with elevated ICP (30 and 50 mm Hg) and spontaneous arterial blood pressure (MABP), two groups with spontaneous ICP and arterial hypotension (77 and 64 mm Hg), and two groups with elevated ICP (30 and 50 mm Hg) and arterial hypertension (124 mm Hg). Intracranial hypertension was induced by continuous infusion of lactated Ringer's solution into the cisterna magna, arterial hypotension by controlled bleeding, and arterial hypertension by continuous administration of norepinephrine intravenously. Cerebral blood flow (CBF) was measured repetitively by the intraarterial 133Xe method at different levels of arterial PCO2. In each individual animal, CO2 reactivity was calculated from an exponential regression line obtained from the corresponding CBF/PaCO2 values. By plotting each individual value of CO2 reactivity against the corresponding CPP value from the seven investigation groups, CPP was significantly and directly related to CO2 reactivity of CBF (P < .001). No correlation was found by plotting CO2 reactivity values against the corresponding MABP values or the corresponding ICP values. Thus, the results show that CO2 reactivity is at least partially determined by CPP and that the impaired CO2 reactivity observed at intracranial hypertension and arterial hypotension may be caused by reduced CPP.
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PMID:Effects of alterations in arterial CO2 tension on cerebral blood flow during acute intracranial hypertension in rats. 1142 95

Previous studies have indicated that angiotensin II (Ang II) concentrations in renal interstitial fluid are much higher than plasma levels. In the present study, we performed experiments to explore renal interstitial fluid concentrations of Ang I and Ang II further and to determine whether these levels are altered by acute arterial infusion of an ACE inhibitor (enalaprilat) or by volume expansion. Microdialysis probes (molecular weight cutoff point: 30 000 Da) were implanted in the renal cortex of anesthetized rats and were perfused at a rate of 2 microL/min. Using relative equilibrium rates, the basal renal interstitial fluid Ang II concentration averaged 3.07+/-0.43 nmol/L, a value much higher than the plasma Ang II concentration of 107+/-8 pmol/L (n=7). Interstitial fluid Ang I concentrations (0.84+/-0.04 nmol/L) were consistently lower than the Ang II concentrations but higher than the plasma Ang I concentrations (112+/-14 pmol/L). Intra-arterial infusion of enalaprilat (7.5 micromol/kg/min, n=5) for 120 minutes resulted in a significant decrease in mean arterial pressure (from 114+/-4 to 68+/-4 mm Hg) along with reductions in plasma and renal ACE activity (by -99% and -52%, respectively). Enalaprilat resulted in a significant increase in plasma Ang I from 133+/-21 to 1167+/-328 pmol/L and a decrease in plasma Ang II from 110+/-12 to 67+/-9 pmol/L. During enalaprilat infusion, interstitial fluid concentration of Ang I was significantly increased from 0.78+/-0.06 to 0.97+/-0.08 nmol/L; however, Ang II concentrations were not altered significantly (3.67+/-0.28 versus 3.67+/-0.25 nmol/L). Acute volume loading with Ringer's solution containing 1% bovine serum albumin at a rate of 150 microL/min for 2 hours (6% to 7% of body weight) lowered plasma concentrations of Ang I from 110+/-23 to 16+/-2 pmol/L and Ang II from 100+/-23 to 36+/-6 pmol/L; however, renal interstitial fluid concentrations of Ang I and Ang II were not altered significantly during volume expansion (Ang I, from 0.77+/-0.05 to 0.69+/-0.03 nmol/L; Ang II, from 3.76+/-0.43 to 3.59+/-0.39 nmol/L, n=5). These data indicate that renal interstitial fluid concentrations of Ang I and Ang II are substantially higher than the corresponding plasma concentrations. Furthermore, the fact that the high interstitial fluid concentrations of Ang II are not responsive to acute ACE inhibition or volume expansion suggests the compartmentalization and independent regulation of renal interstitial fluid Ang II.
Hypertension 2002 Jan
PMID:Renal interstitial fluid concentrations of angiotensins I and II in anesthetized rats. 1179 91

Pre-eclampsia results in oedema, hypertension and proteinuria, and is associated with increased vascular permeability. A number of studies have pointed to the existence of a circulating macromolecule that induces this endothelial dysfunction. To test whether this circulating factor could increase vascular permeability, we have measured the effect of dialysed human plasma from pregnant women with mild or severe pre-eclampsia (pre-eclamptic toxaemia). Plasma was collected from patients with mild or severe pre-eclampsia and from normotensive women. Plasma was dialysed against frog Ringer's solution using a 12-14 kDa molecular-mass cut-off dialysis tubing. pi c (colloid osmotic pressure) was measured with a modified Hansen oncometer. Lp (hydraulic conductivity) and sigma (oncotic reflection coefficient) were measured in individually perfused frog mesenteric microvessels using the Landis-Michel technique during perfusion with dialysed plasma. Perfusion of vessels with normal plasma or plasma from patients with mild pre-eclampsia did not alter either Lp or sigma. However, plasma from patients with severe pre-eclampsia resulted in a 3.8+/-0.3-fold increase in Lp and a reduction in sigma from 0.96+/-0.03 to 0.80+/-0.11. There was a significant correlation between the change in sigma and the change in Lp, suggesting that the increase in permeability was due to an increase in pore size in these vessels. A circulating macromolecule in human plasma in severe pre-eclampsia is therefore able to increase vascular permeability in an animal model. The nature of the circulating macromolecule is not known, except that it is, or is bound to, a molecule greater than 12 kDa.
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PMID:Plasma from women with severe pre-eclampsia increases microvascular permeability in an animal model in vivo. 1518 15

A new hemoglobin derivative, MP4, for use as a temporary oxygen-carrying plasma expander, has been prepared. The design of the molecule is based on novel criteria for optimized efficacy and safety, which include increased molecular radius, increased viscosity, increased oncotic pressure, and reduced p50. The chemical entity, MalPEG-Hb, is formulated at 4.2 g/dL in lactated Ringer's solution (MP4). It has a p50 of 5-6 mm Hg, oncotic pressure of 49 mm Hg and viscosity of 2.2 cPs. After 50% exchange transfusion with MP4, rats survive a 60% controlled hemorrhage in spite of total hemoglobin of 7.8 g/dL and plasma hemoglobin concentration of 1.6 g/dL. Although its binding affinity for NO is not different from that of purified hemoglobin A, it does not produce hypertension in a number of animal models and does not cause vasoconstriction in hamster microcirculation. Oxygen supply to tissue has been confirmed by direct observation in the hamster skinfold model, in which O2 release in precapillary and capillary vessels was quantified. The data demonstrate that the effectiveness of MP4 results from its ability to conserve O2 in precapillary vessels and release O2 in capillaries, thereby "targeting" O2 to hypoxic tissue. Preservation of functional capillary density and prevention of vasoconstriction further contribute to the effectiveness of this new formulation. MP4 is currently being tested in humans.
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PMID:MP4, a new nonvasoactive polyethylene glycol-hemoglobin conjugate. 1532 Sep 43

We evaluated the effect of intracranial hypertension on cerebral metabolism in patients with high grade aneurysmal subarachnoid hemorrhage (SAH) using bedside cerebral microdialysis (MD). Thirty-six patients with SAH were studied and classified into two groups (intracranial pressure, ICP > 20 mmHg, n = 25) and (ICP < 20 mmHg, n = 11). ICP was monitored hourly using an intraventricular drainage (n = 36). The MD catheter was placed after aneurysm clipping into the vascular territory of interest and was perfused with Ringer's solution (0.3 microl/min). The MD samples were collected hourly for measurements of glucose, lactate, and glutamate (CMA 600, Sweden). Lactate/pyruvate ratio was also calculated. To calculate group specific differences, the 24 hours median values of the first 7 days after SAH were compared. Differences were considered statistically significant at P < 0.05. Patient groups were comparable for age, severity of SAH, Fisher's grade and duration of MD sampling. In patients with ICP > 20 mmHg from day 1 to 7 after SAH, extracellular concentrations of glucose were significantly lower, while the lactate/ pyruvate ratio was higher compared to SAH patients with normal ICP values. The differences between groups in glutamate levels was only significant on day 1 after SAH due to high inter-individual differences. We concluded that intracranial hypertension in associated with an anaerobic cerebral metabolism indicated cerebral ischemia in high grade SAH patients.
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PMID:Cerebral metabolism and intracranial hypertension in high grade aneurysmal subarachnoid haemorrhage patients. 1646 27

The aim of the present study was to investigate the effects of the alpha2-adrenoceptor antagonist yohimbine on blood pressure and heart rate (HR) regulation, as well as on adrenergic and serotoninergic neurotransmission, in fructose hypertensive (F) rats. The anterior hypothalamic area of control (C) and F rats was perfused with Ringer's solution containing 10 and 100 microg/mL yohimbine through a microdialysis concentric probe. The effects of yohimbine on mean arterial pressure (MAP) and HR, as well as on hypothalamic dihydroxyphenylacetic acid (DOPAC) and 5-hydroxyindole acetic acid (5-HIAA) levels, were measured according to perfusion time. Although intrahypothalamic perfusion of yohimbine increased blood pressure in C rats (DeltaMAP 9 +/- 1 and 11 +/- 2 mmHg for 10 and 100 microg/mL yohimbine, respectively; P < 0.05 vs Ringer's perfusion), the alpha-adrenoceptor antagonist did not modify MAP in F. Intrahypothalamic yohimbine had no effect on HR at either concentration tested. Intrahypothalamic perfusion of 10 and 100 microg/mL yohimbine increased DOPAC levels in C rats (135 +/- 6 and 130 +/- 5% of basal levels, respectively; both n = 6; P < 0.05 vs Ringer's perfusion), but not in F animals (115 +/- 6 and 102 +/- 6% of basal levels, respectively; both n = 6). In both C and F rats, yohimbine administration induced an increase in 5-HIAA dialysate levels. The results of the present study support the notion that alpha2-adrenoceptor tone of the anterior hypothalamus of normotensive rats, which contributes to normal blood pressure regulation, is not involved in the control of HR in either normotensive C or hypertensive F rats. The absence of changes in MAP after yohimbine perfusion in F rats suggests that the alpha2-adrenoceptor tone could be decreased in this group of rats and that this may be responsible for the maintenance of hypertension in this model. Intrahypothalamic perfusion of yohimbine increased DOPAC in the dialysate only in C rats, suggesting changes in presynaptic alpha2-adrenoceptor activity in fructose-overloaded rats. Conversely, increased 5-HIAA levels did not differ between C and F groups.
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PMID:Role of hypothalamic alpha-adrenoceptor activity in fructose-induced hypertension. 1700 66

Postural tachycardia syndrome (POTS) is associated with increased plasma angiotensin II (Ang II). Ang II administered in the presence of NO synthase inhibition with nitro-L-arginine (NLA) and Ang II type 1 receptor blockade with losartan produces vasodilation during local heating in controls. We tested whether this angiotensin-mediated vasodilation occurs in POTS and whether it is related to angiotensin-converting enzyme 2 (ACE2) and Ang-(1-7). We used local cutaneous heating to 42 degrees C and laser Doppler Flowmetry to assess NO-dependent conductance at 4 calf sites in 12 low-flow POTS and in 12 control subjects 17.6 to 25.5 years of age. We perfused Ringer's solution through intradermal microdialysis catheters and performed local heating. We perfused one catheter with NLA (10 mmol/L)+losartan (2 microg/L) and repeated heating, and NLA+losartan+Ang II (10 micromol/L), repeating heating a third time. A second catheter received NLA+losartan+Ang II, heated, perfused NLA+losartan+Ang II+DX600 (1 mmol/L; a selective ACE2 inhibitor), and reheated. A third catheter received NLA+losartan+Ang II, heated, perfused NLA+losartan+Ang II+Ang-(1-7) (100 micromol/L), and reheated. The fourth catheter received Ang-(1-7) then reheated a second time only. Angiotensin-mediated vasodilation was present in control but not POTS. Ang-mediated dilation was eliminated by DX600, indicating an ACE2-related effect. Ang-mediated vasodilation was restored in POTS by Ang-(1-7). When administered alone during locally mediated heating, Ang-(1-7) improved the NO-dependent local heating response. ACE2 effects are blunted in low-flow POTS and restored by the ACE2 product Ang-(1-7). Data imply impaired catabolism of Ang II through the ACE2 pathway. Vasoconstriction in POTS may result from a reduction in Ang-(1-7) and an increase in Ang II.
Hypertension 2009 May
PMID:Defects in cutaneous angiotensin-converting enzyme 2 and angiotensin-(1-7) production in postural tachycardia syndrome. 1928 53

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