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Query: UMLS:C0023890 (
cirrhosis
)
42,195
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
3 patients with
hepatic cirrhosis
and ascites underwent increased diuresis on six occasions, closely related to episodes of gastrointestinal bleeding. In each instance the increased urine volume was preceded by a sharp increase in blood urea nitrogen, presumably due to absorption of nitrogenous compounds from the gastrointestinal tract, suggesting a mechanism of osmotic diuresis. In each case there was a signigicant increase in serum sodium and osmolality, related to the greater-water-than-sodium diuresis induced by urea, which was promptly reversed by the administration of water or isotonic solution. Clinically this syndrome may be defined as the association of hypernatremia and
hyperosmolality
due to osmotic diuresis from urea appearing in a cirrhotic patient with ascites and gastrointestinal bleeding.
...
PMID:Hypernatremia following gastrointestinal bleeding in cirrhosis with ascites. 107 10
Hyperosmolality
occurs when there are defects in the two major homeostatic mechanisms required for water balance-thirst and arginine vasopressin (AVP) release. In this situation hypotonic fluids are lost in substantial quantities causing depletion of both intracellular and extracellular fluid compartments. Patients with essential hypernatremia have defective osmotically stimulated AVP release and thirst but may have intact mechanisms for AVP release following hypovolemia.
Hyperosmolality
can also be seen in circumstances in which impermeable solutes are present in excessive quantities in extracellular fluid. Under these conditions there is cellular dehydration and the serum sodium may actually be reduced by water drawn out of cells along an osmotic gradient. Hyposmolality and hyponatremia may be seen in a variety of clinical conditions. Salt depletion, states in which edema occurs and the syndrome of inappropriate secretion of antidiuretic hormone (SIADH) may all produce severe dilution of body fluids resulting in serious neurologic disturbances. The differential diagnosis of these states is greatly facilitated by careful clinical assessment of extracellular fluid volume and by determination of urine sodium concentration. Treatment of the hyposmolar syndromes is contingent on the pathophysiology of the underlying disorder; hyponatremia due to salt depletion is treated with infusions of isotonic saline whereas mild hyponatremia in
cirrhosis
and ascites is best treated with water restriction. Severe symptomatic hyponatremia due to SIADH is treated with hypertonic saline therapy, sometimes in association with intravenous administration of furosemide. Less severe, chronic cases may be treated with dichlormethyltetracycline which blocks the action of AVP on the collecting duct.
...
PMID:The clinical physiology of water metabolism. Part III: The water depletion (hyperosmolar) and water excess (hyposmolar) syndromes. 624 83
The physiology of the release of antidiuretic hormone (ADH) from the posterior pituitary is briefly reviewed. The importance of both osmolar and non-osmolar stimuli is emphasised. Osmolar and non-osmolar factors usually reinforce each other; for example, hydropenia leads to
hyperosmolality
and hypovolaemia, both promoting ADH release, while hydration has the opposite effect. In disease, osmolar and non-osmolar factors may become dissociated leading to baroreceptor-mediated ADH release in the presence of hyponatraemia and hypo-osmolality. Examples include heart failure, glucocorticoid or thyroxine deficiency,
hepatic cirrhosis
and nephrotic syndrome with or without the superimposed effect of diuretics, i.e. conditions in which circulatory, and in particular effective arterial, volume is reduced. It is dangerous to label such conditions as 'inappropriate' secretion of ADH since the maintenance of circulating volume is at least as important a physiological requirement as the defence of tonicity. The syndrome of inappropriate secretion of ADH (SIADH) is uncommon in childhood and should only be diagnosed when physiological release of ADH in response to non-osmolar as well as osmolar factors has been excluded. Criteria for the correct identification of SIADH are discussed; the presence of continuing urinary sodium excretion in the presence of hyponatraemia and hypo-osmolality is essential to the diagnosis. SIADH in children is usually due to intracranial disease or injury. The mainstay of treatment is water restriction which reverses all the physiological abnormalities of the condition. Hypertonic saline is rarely indicated for the short-term control of neurological manifestations such as seizures. Drugs have little or no place in the treatment of SIADH in children.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:The syndrome of inappropriate secretion of antidiuretic hormone. 861 39
Changes in hepatic vasculature accompany fibrogenesis, and targeting angiogenic molecules often attenuates fibrosis in animals. Aquaporin-1 (AQP1) is a water channel, overexpressed in
cirrhosis
, that promotes angiogenesis by enhancing endothelial invasion. The effect of AQP1 on fibrogenesis in vivo and the mechanisms driving AQP1 expression during
cirrhosis
remain unclear. The purpose of this study was to test the effect of AQP1 deletion in
cirrhosis
and explore mechanisms regulating AQP1. After bile duct ligation, wild-type mice overexpress AQP1 that colocalizes with vascular markers and sites of robust angiogenesis. AQP1 knockout mice demonstrated reduced angiogenesis compared with wild-type mice, as evidenced by immunostaining and endothelial invasion/proliferation in vitro. Fibrosis and portal hypertension were attenuated based on immunostaining, portal pressure, and spleen/body weight ratio. AQP1 protein, but not mRNA, was induced by
hyperosmolality
in vitro, suggesting post-transcriptional regulation. Endothelial cells from normal or cirrhotic mice were screened for microRNA (miR) expression using an array and a quantitative PCR. miR-666 and miR-708 targeted AQP1 mRNA and were decreased in
cirrhosis
and in cells exposed to
hyperosmolality
, suggesting that these miRs mediate osmolar changes via AQP1. Binding of the miRs to the untranslated region of AQP1 was assessed using luciferase assays. In conclusion, AQP1 promotes angiogenesis, fibrosis, and portal hypertension after bile duct ligation and is regulated by osmotically sensitive miRs.
...
PMID:Aquaporin-1 promotes angiogenesis, fibrosis, and portal hypertension through mechanisms dependent on osmotically sensitive microRNAs. 2185 40
