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Query: UMLS:C0020440 (
hypercapnia
)
7,939
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The influence of the prevailing PaCO2 on the water-retaining effects of sustained elevations in
ADH
was assessed by administering vasopressin (5 U in oil, twice daily) and a fixed water intake to dogs with eucapnia (n, 7), chronic
hypercapnia
(n, 6), and chronic hypocapnia (n, 8). Although water excretion initially fell to a similar extent in all three groups, cumulative water retention by day 4 of vasopressin administration was 77 mg/kg in the hypocapnic group, 46 ml/kg in the eucapnic group, and only 14 ml/kg in the hypercapnic group. These differences were reflected in a marked disparity in the degree of hyposmolality of body fluids, plasma osmolality falling by day 4 to an average value of 223, 237, and 268 mosmol/kg in the hypocapnic, eucapnic, and hypercapnic animals, respectively. In a separate group of dogs, water deprivation and water loading studies revealed that sustained
hypercapnia
does not affect the maximal concentrating or diluting ability of the kidney. We conclude, therefore, that the striking influence of the prevailing PaCO2 on the water-retaining effects of administered vasopressin cannot be ascribed to an altered responsiveness of the nephron per se, but that this influence reflects an alteration in the ease with which the kidney can escape from the antidiuretic effects of this substance.
...
PMID:Influence of steady-state PaCO2 on escape from ADH-induced water retention in the dog. 64 65
Plasma
ADH
, PA and PRA in patients with respiratory failure (RF) were studied. RF patients were divided into 4 groups, i.e. acute RF (ARF) and chronic RF (CRF), with or without
hypercapnia
. The levels of these hormones were significantly higher in RF than those in control subjects, moreover, they were markedly elevated in ARF than those in CRF. In multiple regression analysis,
ADH
correlated with PaO2, pH and PRA in RF patients, but correlated with serum osmolality in control subjects. It was considered that
ADH
in RF was affected by the direct effect of blood gases and circulatory disorder. The mechanism of elevated PA and PRA in RF probably was mediated through restriction of intake of water and Na, reduction of renal blood flow and decreased ACE often occurred in RF. Abnormally elevated hormones are more often recognized in edematous patients than in nonedematous patients. It was suggested that many patients with RF develop heart failure or edema due to hormonal abnormalities.
...
PMID:[ADH (anti-diuretic hormone), aldosterone (PA) and renin activity (PRA) in patients with respiratory failure]. 269 88
The most common causes of hypoxic cor pulmonale are chronic bronchitis and emphysema. Although the clinical situation in some patients is characterized early by hypoxemia, oedema is rare in patients with an arterial pO2 above 60 mm Hg. The presence of oedema can be regarded as an unfavorable prognostic indicator. For many years, peripheral oedema had been considered an expression of congestive cardiac failure; it may be assumed, however, that neither right nor left ventricular failure is prerequisite to the development of oedema. Oedema formation can be attributed to excessive retention of salt and water or a redistribution of body water into the extracellular compartment.
Hypercapnia
and acidosis affect direct stimulation of renal hydrogen ion secretion. The resulting electrochemical imbalance is compensated by reabsorption of sodium.
Hypercapnia
and, in acute phases possibly, hypoxia lead to a fall in renal blood flow mediated by alpha-adrenergic stimulation through activation of the renin-angiotensin-aldosterone system. An increase in plasma
ADH
may also contribute to development of oedema. The development of cor pulmonale or respiratory insufficiency can be enhanced by nocturnal hypoventilation and hypoxia during sleep as well as by sleep apnoea. Nocturnal hypoxia, smoking and reduced oxygen tension in the relevant kidney cells responsible for erythropoietin release promote the occurrence of secondary polycythaemia. For treatment of acute exacerbations in cor pulmonale associated with infections bronchitis antibiotics such as amoxycillin and cotrimoxacol are drugs of first choice. While the use of digoxin is of doubtful value, the cautious administration of diuretics may bring symptomatic relief. In addition to physiotherapy, beta-2-selective bronchodilators and nebulized bronchodilator therapy can be useful; theophyllines dilate airways and increase cardiac output but they can cause arrhythmias and a deterioration of arterial blood gases in hypoxic patients. If the patient has been treated chronically with corticosteroids, the dosage will have to be incremented; if asthma is suspected, corticosteroid treatment is essential. Controlled oxygen therapy is the most important single therapy aimed at relief of severe arterial hypoxaemia. Oxygen should be titrated initially (for the first one or two days) to achieve an arterial tension of at least 48 mm Hg. Thereafter, the oxygen flow should be increased to yield an arterial tension in excess of 60 mm Hg during continued treatment for two to three weeks.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Hypoxic cor pulmonale: a review. 294 54
Water retention and hyponatraemia are typically observed in the final stages of Chronic Obstructive Pulmonary Disease (COPD) and the onset of edema is a poor prognostic factor. For several years the pathogenesis of edema in COPD patients was attributed to heart impairment because of pulmonary hypertension, but the evidence that cardiac output is often adequate for the metabolic demands has suggested, since 1960, that the pathogenesis of edema in these patients would be correlated with gas exchange impairment and in particular with carbon dioxide (CO2) retention. The gas exchange impairment induces, in these patients several hormonal abnormalities: renin (Rn), angiotensin II (AnII), aldosterone (Ald), atrial natriuretic peptide (ANP), vasopressin (
ADH
) and endothelial factors are some of the factors involved. The systemic response to
hypercapnia
has the effect of reducing the renal blood flow and, as a result, increasing water and sodium retention with the final effect of edema and hyponatraemia. The aim of this brief review is to highlight the current knowledge on renal/hormonal abnormalities in COPD and their therapeutic implications.
...
PMID:Water and sodium imbalance in COPD patients. 1551 Jul 11
