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Query: UMLS:C1332347 (
ADH
)
2,230
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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
The aging kidney suffers reduction both in mass and in glomerular filtration rate. These changes may be totally or partially due to atherosclerosis and hypertension, which reduce renal blood flow. Superimposed on these processes, and perhaps responsible for primary loss of renal mass irrespective of renal vascular disease, is glomerular damage and involution that is a consequence of adaptive increases in glomerular perfusion pressure that occurs as the number of nephrons decline with age. The data available at this time do not allow us to distinguish between these two potential mechanisms of renal senescence. The decline in GFR is in turn responsible for reduced renal acidification and the reduced renal clearance of drugs that are normally removed by the kidney. Certain renal functions, however, are depressed to a greater extent than is GFR. Both the ability to maximally dilute the urine and to maximally concentrate it are controlled by serum
ADH
concentrations and by the action of that hormone on the collecting duct. Aged rats do not maximally secrete
ADH
under conditions of dehydration and the effect of
ADH
on the kidney is also attenuated. Elderly humans also cannot maximally suppress
ADH
secretion when serum osmolality is reduced. Likewise, the renin-angiotensin-aldosterone axis is poorly responsive to volume depletion in aging subjects. As a result, elderly individuals cannot maximally retain sodium under conditions of plasma volume contraction out of proportion to reduction in GFR. The kidney is the site of vitamin D1 hydroxylation. Hydroxylation of vitamin D is reduced out of proportion to any reduction in GFR in the rat. There are no data as yet available on the effect of aging and the production of
erythropoietin
, a principal regulator of red blood cell mass. Neither are there data available on changes that might occur with advancing age in the ability of the aging kidney to metabolize various hormones, such as parathyroid hormone, glucagon, and insulin. The mechanisms and the full biochemical and physiologic consequences of renal senescence remain to be fully elucidated.
...
PMID:The aging kidney. 391
The blood alcohol level cycle (BALC) of the intragastric tube feeding model first described by Tsukamoto et al., has three separate essential mechanistic components. The first is the requirement for an intact functioning thyroid. The evidence for this is that propylthiouracil or severance of the pituitary stalk completely prevents the cycle. What happens instead of the cycle is that the blood alcohol level rises to a lethal level when ethanol is given continuously at a dose of 11 g/kg/day by stomach tube. When excess thyroid hormone is given orally it markedly attenuates the cycle because it interferes with the changes in the level of thyroid hormone during the cycle. The second component is norepinephrine. Catecholamines are markedly elevated at the peaks of the cycle. Both propranolol and phenoxybenzamine, which are beta- and alpha-blockers, prevent the cycle. Also, when catecholamines are fed in excess in the form of ephedrine, the cycle is eliminated. The third element essential to the cycle is the generation of NAD to support the oxidation of alcohol by alcohol dehydrogenase. When complex I (NADH dehydrogenase) of the mitochondrial electron transport chain is inhibited by feeding rotenone, the cycle is totally eliminated and blood alcohol levels remain constant at 200 mg/%. Thus NADH increases and NAD decreases at the peak of the cycle. Without the fluxuation of NAD,
ADH
activity cannot fluctuate during the cycle and the cycle is prevented. The significance of the BALC in the understanding of alcohol liver disease pathogenesis is that there's a marked difference in the gene expression and liver toxicity when the peaks and troughs of the cycle are compared. The expression of 1000+ genes is either two-fold up or down regulated as determined by microarray analysis. At the peaks there is increased liver pathology, especially inflammatory changes in the liver associated with an increase of iNOS expression. The genes responsive to hypoxia inducible factor 1alpha (HIF1alpha) regulation are increased including the expression of
erythropoietin
, adrenomedullin and adrenergic receptor alpha 1a and d. The expression of prolyl hydroxylase, which destabilizes HIF1alpha, increases when the BAL drops to low levels during the cycle. The level of oxygen, as measured on the surface of the liver, is decreased at the peaks, compared to control livers. The NADH/NAD ratio is markedly increased and ATP levels are markedly decreased at the BAL peaks. Also, endotoxin in the blood is very high at the peaks and very low at the troughs. When the blood alcohol levels fall during the cycle, there is an increase in ALT, suggesting that reoxygenation from the hypoxic state at the peaks causes an ischemic reperfusion injury-like lesion in the liver. At this time there is also an increase in expression of many important enzymes such as manganese SOD. Genes such as c-fos and CTGF are increased in expression. These contrasting findings at the peaks and troughs indicate that the blood alcohol levels, which fluctuate up and down, change the gene expression and the pathology of the liver.
...
PMID:The pathogenesis and significance of the urinary alcohol cycle in rats fed ethanol intragastrically. 1634 1
A novel sustained release formulation of
erythropoietin
(
EPO
) was developed using hyaluronic acid (HA) hydrogels. For the preparation of HA hydrogels, adipic acid dihydrazide grafted HA (HA-ADH) was synthesized and analyzed with (1)H NMR. The degree of HA-
ADH
modification was about 69%.
EPO
was in situ encapsulated into HA-
ADH
hydrogels through a selective cross-linking reaction of bis(sulfosuccinimidyl) suberate (BS(3)) to hydrazide group (pK(a) = 3.0) of HA-
ADH
rather than to amine group (pK(a) > 9) of
EPO
. The denaturation of
EPO
during HA-
ADH
hydrogel synthesis was drastically reduced with decreasing pH from 7.4 to 4.8. The specific reactivity of BS(3) to hydrazide at pH = 4.8 might be due to its low pK(a) compared with that of amine. In vitro release of
EPO
in phosphate buffered saline at 37 degrees C showed that
EPO
was released rapidly for 2 days and then slowly up to 4 days from HA-
ADH
hydrogels. When the hydrogels were dried at 37 degrees C for a day, however, longer release of
EPO
up to 3 weeks could be demonstrated. According to in vivo release test of
EPO
from HA-
ADH
hydrogels in SD rats, elevated
EPO
concentration higher than 0.1 ng/mL could be maintained from 7 days up to 18 days depending on the preparation methods of HA-
ADH
hydrogels. There was no adverse effect during and after HA-
ADH
hydrogel implantation.
...
PMID:Selectively crosslinked hyaluronic acid hydrogels for sustained release formulation of erythropoietin. 1672 57
A novel sustained release formulation of
erythropoietin
(
EPO
) was successfully developed using hyaluronic acid (HA) hydrogels crosslinked by Michael addition. Adipic acid dihydrazide grafted HA (HA-ADH) was prepared and then modified into methacrylated HA (HA-MA). (1)H NMR analysis showed that the degrees of HA-
ADH
and HA-MA modification were 69 and 29 mol%, respectively. Using the specific crosslinkers of dithiothreitol (DTT) and peptide linker,
EPO
was loaded during HA-MA hydrogel preparation by Michael addition chemistry between thiol and methacrylate groups. The amount of
EPO
recovered from both hydrogels after degradation with hyaluronidase SD (HAse SD) was about 90%. The crosslinking reaction with peptide linker (GCYKNRDCG) was faster than that with DTT. The gelation time was about 30 min for peptide linker and 180 min for DTT. In vitro release test of
EPO
from HA-MA hydrogel at 37 degrees C showed that
EPO
was released rapidly for 2 days and then slowly up to 7 days from HA-MA hydrogels. The released
EPO
appeared to be intact from the analysis with RP-HPLC. According to in vivo release test of
EPO
from HA-MA hydrogels crosslinked with the peptide linker in Sprague-Dawley (SD) rats, elevated plasma concentration of
EPO
was maintained up to 7 days. There was no adverse effect during and after the in vivo tests.
...
PMID:Sustained release formulation of erythropoietin using hyaluronic acid hydrogels crosslinked by Michael addition. 1678 Oct 96
