Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endoscopic reflectance spectrophotometry was used to compare the effect of vasopressin and propranolol on gastric mucosal hemodynamics in dogs with surgically induced esophageal varices and prehepatic portal hypertension. Reflectance spectrophotometry provides indices of mucosal hemoglobin concentration (IHB) and oxygen saturation (ISO2). Hyperemia (increased IHB, normal ISO2), ischemia without congestion (decreased IHB, decreased ISO2), and ischemia with congestion (increased IHB, decreased ISO2) are accompanied by characteristic patterns of IHB and ISO2. Under anesthesia, measurements were obtained on separate days from the gastric corpus mucosa of eight dogs before and 2 to 10 min after either 1 to 5 units of intravenous vasopressin or 1 mg of propranolol. Results revealed that vasopressin (in doses that significantly reduced variceal and portal venous pressure in this animal model) produced a reduction in both IHB and ISO2, indicating gastric mucosal ischemia secondary to splanchnic vasoconstriction. On the other hand, propranolol in a dose that significantly reduced pulse rate by 27 +/- 2% had no effect on IHB or ISO2, suggesting that this dose of propranolol has no direct vasoactive effect on the gastric (splanchnic) circulation.
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PMID:Endoscopic demonstration that vasopressin but not propranolol produces gastric mucosal ischemia in dogs with portal hypertension. 326 2

The effect of intermittent positive-pressure breathing (PB), induced by expiring against a resistance of 12.5 mm Hg, on plasma volume and endocrine responses to standing water immersion, was studied in seven male subjects, 28-49 years of age. The men were immersed to the neck (35 +/- 0.5 degrees C) for 90 min with PB from 30 to 60 min. Compared to control values, the hematocrit and hemoglobin concentration decreased (p less than 0.001) during immersion while plasma osmolality was unchanged, indicating an isotonic increase in plasma volume (hemodilution) which peaked after 75 min at +15.5% of the preimmersion plasma volume. This hemodilution was not significantly affected by PB. Plasma renin activity and vasopressin and aldosterone concentrations decreased progressively throughout immersion (p less than 0.001) and were unaffected by PB. The magnitude of these hormonal decreases was accentuated by preexisting, presyncopal symptoms in four subjects. It is concluded that intermittent PB as 12.5 mm Hg failed to compensate for the negative-pressure breathing of standing subjects immersed in water to the neck.
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PMID:Plasma volume and endocrine responses to water immersion with intermittent positive-pressure breathing in men. 329 17

A reduced duration of activity of local anesthetic drugs in patients with chronic renal failure has been described by several authors. Because surgical duration is not always predictable and these patients must be classified as high-risk patients (ASA physical status III-IV), reduced effectiveness may be a significant problem in clinical practice. Various reasons have been discussed as possible explanations for this phenomenon such as: (1) uremia-induced changes in acid-base status of blood and tissue, (2) alterations in protein-binding; and (3) changes in hemodynamic parameters. However, we have not been able to find any severe changes in electrolyte or acid-base status in patients with chronic renal failure after adequate hemodialysis. We wondered, therefore, whether changes in tissue pH might be one cause of the shorter duration of action of anesthetic drugs. We also examined some other pharmacokinetic parameters after administration of the anesthetic drug in order to find differences in comparison to healthy patients. Supraclavicular brachial blockade (3 mg/kg bupivacaine 0.5% + 0.1 IU vasopressin/ml) was performed in 11 patients with chronic renal failure requiring hemodialysis who were admitted to the hospital for a shunt operation in the forearm. The control group consisted of 11 healthy patients who were admitted for minor hand surgery. Preoperative blood samples were taken for measurement of blood urea nitrogen, serum creatinine, serum electrolytes, lactate, hemoglobin and hematocrit, and an arterial blood gas duration of action was defined as the time to full recovery of sensitivity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The action of bupivacaine-HCl following supraclavicular plexus block in patients with chronic kidney insufficiency]. 341 3

The aim of this work was to study the influence of beta-adrenoreceptor blockade on the adaptation to exercise of one of the hormonal systems (arginine vasopressin) involved in the regulation of blood volume and pressure in spontaneously hypertensive rats (SHR). Systolic blood pressure (SBP) was measured in SHR and WKY rats during 11 wk of swim training. At the end of the training program we determined post-exercise values of plasma arginine-vasopressin (pAVP), osmolality (pOsm), K+ (pK+), Na+ (pNa+), hemoglobin (Hgb), and hematocrit (Hct) in SHR and WKY rats. The following groups were studied: control (C), propranolol treated (PC), swim trained (S), and propranolol-treated and swim-treated (PS). SBP was significantly reduced by swim training or propranolol, bu these beneficial effects on SBP were attenuated when propranolol and swim training were combined. pNa+ and pOsm were significantly reduced by training alone in SHR. This reduction of pNa+ and, consequently, of pOsmol without any modification of other parameters could suggest an Na+ loss. In contrast, the SHR group treated with propranolol alone showed a significant reduction in Hct, suggesting an increased plasma volume without Na+ loss. PS SHR showed a significant reduction of Hgb, Hct, proteins, pNa+, and pOsmol, probably as a consequence of the additive effects of swimming- and propranolol-induced hypervolemia with Na+ loss. The slight and nonsignificant reduction in pAVP observed with either training or propranolol treatment alone became much more pronounced and statistically significant when the 2 treatments were combined. WKY rats showed a much smaller response to exercise and beta-adrenoreceptor blockade than SHR. We conclude that the hypervolemia suggested in PS SHR could be a possible cause of attenuation of the beneficial effects of either swimming or propranolol on SBP.
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PMID:Effects of propranolol and swim-training on blood pressure, plasma electrolytes, and vasopressin in spontaneously hypertensive and normotensive rats. 367 62

To determine the effect of hydration on the early osmotic and intravascular volume and endocrine responses to water immersion the hematocrit, hemoglobin, plasma renin activity (PRA), and plasma electrolyte, aldosterone (PA), and vasopressin (PVP) concentrations were measured during immersion following 24-h dehydration; these were compared with corresponding values following rapid rehydration. Six men and one woman (age 23-46 yr) underwent 45 min of standing immersion to the neck preceded by 45-min standing without immersion, first dehydrated, and then 105 min later after rehydration with water. Immersion caused an isotonic expansion of the plasma volume (P less than 0.001), which occurred independently of hydration status. Suppression of PRA (P less than 0.001) and PA (P less than 0.001) during both immersions also occurred independently of hydration status. Suppression of plasma vasopressin was observed during dehydrated immersion (P less than 0.001) but not during rehydrated immersion. It is concluded that plasma tonicity is not a factor influencing PVP suppression during water immersion.
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PMID:Effect of hydration on plasma volume and endocrine responses to water immersion. 378 57

Cardiorenal-endocrine responses to 3-h head-out immersion (HOI) (water temperature = 34.5 +/- 0.5 degrees C) were studied during day (0900-1400 h) and night (2300-0400 h) in six hydropenic male human subjects. Although HOI induced a reversible increase in urine flow in all subjects, the response was faster and greater in magnitude during the day compared with night (P less than 0.05). Na excretion and osmolal clearance (Cosm) also followed the identical response pattern as urine flow, and in fact, the HOI-induced diuresis was entirely accounted for by the increased Cosm. Endogenous creatinine clearance was not different between the day and the night and remained unchanged during HOI. Both plasma renin activity and aldosterone concentration and urinary aldosterone excretion were nearly twofold greater during the day compared with night before HOI but decreased to the same level during HOI in both daytime and the nighttime series (P less than 0.05). There was no correlation between the Na excretion rate and renin-aldosterone levels either before or during HOI. Plasma antidiuretic hormone (ADH) level was comparable between day and night before HOI and decreased to a similar level during HOI in both daytime and nighttime series (P less than 0.05 for nighttime HOI). Cardiac output increased from 3.3 1/min before HOI to 5-6 1/min during HOI without showing any significant circadian difference. Hematocrit, hemoglobin, and plasma concentrations remained unchanged under all conditions. It is concluded that the renal response to HOI is subject to nocturnal inhibition, which cannot be attributed to circadian differences in the degree of HOI-induced central blood pooling, renin-aldosterone, or ADH responses.
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PMID:Cardiorenal-endocrine responses to head-out immersion at night. 394 29

Cardiovascular responses to orthostasis were assessed in eight men (18-29 years old) before and after an 8-d cycle ergometer exercise training (E) regimen for 2 h . d-1 at 65% maximal O2 uptake (VO2 max). Each subject underwent 60 degrees head-up tilt (60 min max) before (T1) and after (T2) E. Heart rate (HR), systolic (SBP), and diastolic (DBP) pressures were measured each min before, during, and after tilt; pulse pressure (PP), mean arterial pressure (MAP), and rate-pressure-product (RPP) were calculated. Changes in plasma renin activity (PRA), vasopressin (pVP), hematocrit, hemoglobin, and plasma volume (PV, T-1824) were measured from venous blood samples taken pre- and immediately post-tilt. Following E, VO2 max increased by 8.3% (p less than 0.05), resting HR decreased by 8.1% (p less than 0.05), and PV increased by 430 ml (12.2%, p less than 0.05). Mean (+/- S.E.) tilt duration went from 40.0 +/- 5.1 min during T1 to 46.7 +/- 3.4 min during T2 (NS); mean tilt HR decreased from 86 +/- 4 bpm to 77 +/- 3 bpm (p less than 0.05), RPP decreased from 10,320 +/- 390 to 9,317 +/- 310 mm Hg . bpm (p less than 0.05), while mean SBP, DBP, PP, and MAP were unchanged. Plasma volume decreased during tilt by 479 ml in T1 compared to 544 ml in T2 (p less than 0.05), while % delta PV were similar: -13.6% and -13.9%, respectively. Peak fluid-accumulation in the calf and total leg during tilt increased (p less than 0.05) following E.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cardiovascular responses during orthostasis: effect of an increase in VO2max. 648 5

To study the effects of nonosmotic and nonvolumetric factors that may influence secretion of vasopressin, serum Na+, K+, and osmolality (Osm), hemoglobin, hematocrit, plasma arginine vasopressin (AVP), aldosterone (PA), and renin activity (PRA) were measured in five men and three women (26-50 yr, 73 +/- 4 kg) before and after 24 h of mild dehydration (food but no fluid) and seven times during the 1st h after rehydration with 10 ml/kg of tap water (17.5 +/- 0.5 degrees C) consumed in 105 s (range 35-240 s). Dehydration increased mean serum Na+ 3.7 +/- 0.7 meq/l (P less than 0.05), osmolality 9.1 +/- 1.1 mosmol/kg (P less than 0.05), and AVP from a hydrated level of 1.7 +/- 0.2 to 3.3 +/- 0.5 pg/ml (delta = 1.6 pg/ml, P less than 0.05). After rehydration AVP fell to 2.4 +/- 0.3 pg/ml (P less than 0.05) within 3 min and reached the water-replete level of 1.8 +/- 0.3 pg/ml 9 min after drinking started. Serum Na+ and Osm did not change until 30-60 min after drinking. No significant changes occurred in PRA, hemogloblin, hematocrit, or calculated delta in plasma volume, but PA increased from 11.1 +/- 1.5 ng/dl after dehydration to 15.6 +/- 2.6 ng/dl (P less than 0.05) between 30 and 60 min after drinking. The rapid fall in plasma AVP after rehydration took place in the absence of the expected changes in the primary regulators of plasma AVP (i.e., osmolality and plasma volume), with no change in blood pressure. The results suggest that oropharyngeal factors, alone or combined with gastric stimuli, are implicated.
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PMID:Inhibition of plasma vasopressin after drinking in dehydrated humans. 650 54

The aim of the present study was to determine the magnitude and direction of the shift of body fluids during water immersion of humans to the neck. Five healthy male subjects were studied lying in air for 1.5 h, sitting in 34 degrees C water to the neck for 1 h, and again lying in air for 1.5 h in two sets of experiments. For the first set, vasopressin (0.75 IU, sc) was injected before immersion. Blood and urine samples were drawn every 30 min in air and every 20 min in water. Urinary sodium, potassium, and osmolal clearances were significantly increased during immersion. When the mean maximum change during immersion was calculated for five subjects hematocrit fell by 1.1 U, plasma concentrations of sodium by 3.9 meq/l, chloride by 3.5 meq/l, potassium by 0.2 meq/l, osmolality by 7.9 mosmol/kg H2O, and proteins by 0.25 g/100 ml, whereas total plasma CO2 content increased by 1.33 mmol/l, threonine by 11.6%, proline by 9.0%, methionine by 14.0%, and alanine by 29%. Plasma volume increased 6.1%, and red blood cell volume calculated from hematocrit and hemoglobin increased 3.5%. In the second set of immersion experiments, without vasopressin injection, interstitial fluid pressures were measured with a cotton wick in PE-50 tubing inserted subcutaneously. A mean interstitial fluid pressure of -0.5 cmH2O was observed when the subjects were lying in air. Interstitial fluid pressure had started to decrease by 20 min of immersion, with a maximum decrease during immersion averaging 2.10 cmH2O. We conclude that hyposmotic fluid is mobilized into the blood from interstitial and other extravascular spaces during immersion.
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PMID:Osmoregulation and interstitial fluid pressure changes in humans during water immersion. 679 64

To investigate the time course and mechanism of the increase in blood volume (BV) during isotonic exercise training, blood hemoglobin, hematocrit, and plasma volume (PV), osmotic, electrolyte, renin activity (PRA), vasopressin (AVP), and protein fractions were measured periodically in eight trained men 20-22 yr (Vo2max = 57 ml . min-1 . kg-1) before, during, and after ergometer exercise training (approximately 160 W, 65% Vo2max) for 2 h/day for 8 days. During training, plasma total osmolar and albumin contents increased to maintain a constant plasma osmolality and protein concentration during PV expansion. After training, BV increased by 457 ml (+8.1% P less than 0.05), due to an increase in PV of 427 ml (+12.1%, P less than 0.05); red cell volume was essentially constant (delta = +30 ml, NS). Plasma hypervolemia during training was associated with two major factors: 1) a ninefold elevation in PRA and AVP during exercise that facilitated Na+ and H2O retention, and 2) a progressive, chronic increase in plasma albumin content that provided increased H2O-binding capacity for the blood. Thus an efficient procedure for increasing PV is the daily performance of high-intensity isotonic leg exercise (65% Vo2max) for 2 h/day.
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PMID:Exercise training-induced hypervolemia: role of plasma albumin, renin, and vasopressin. 699 63


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