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Query: UMLS:C0042963 (
vomiting
)
31,883
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Apart from the classic distal renal tubular acidosis (RTA), the proximal RTA, and a few cases of distal RTA and renal bicarbonate wasting we know only 2 cases of infantile transient distal RTA with bicarbonate wasting. A 3 month-old male patient is admitted because of deficient suction,
vomiting
and dehydration. Despite a strong metabolic acidosis (pH 7,09, bicarbonate 8,6 mMol/l, chloride 110 meq/l) the urine is constantly alkaline; clinically the disease manifests itself in the form of an alkali-resistant RTA. Accompanying troubles such as inner ear deafness, G6PDH deficiency, hyperparathyroidism and vitamin D intoxication are to be excluded. A bicarbonate study carried out with care so as to prevent extracellular fluid expansion reveals the lack of excretion of titratable acid (-2.4 to +4.7 mueq/min/1.73 m2), an reduced excretion of ammonium (5 to 24.8 mueq/min/1.73 m2) with regard to GFR (42.4 ml/min/1.73 m2), and a constant loss of bicarbonate (FE HCO3- about 10%) covering most of the bicarbonate plasma concentration, which results in a constantly negative net acid excretion. Even with alkalosis there is no urine minus blood pCO2 increase. The renal excretion of gamma GT is significantly reduced. On substitution with high quantities of bicarbonate (10 meq/kg BW/day) the defect heals up at the age of 13 months. The pathogenesis of this disease is not quite clear, but is similar to that of the Lightwood infantile RTA. The acidification defect may be explained by a deficient hydrogen ions--secretion in the distal tubule; as for kinetics, it is not in the
proximal tubule
that the bicarbonate wasting occurs but it may be due to increased sodium delivery to the distal nephron.
...
PMID:[Infantile transitory distal renal tubular acidosis with bicarbonate loss]. 286 14
Citrinin's nephrotoxicity was examined in pentobarbital-anesthetized dogs under conditions that minimized or avoided significant changes in a number of its actions that could indirectly and adversely affect renal function and ultrastructure, such as, (i) major acute reductions in blood pressure and renal blood flow and, (ii)
emesis
and diarrhea that could lead to dehydration and electrolyte imbalances, especially hypokalemia. Slow intravenous injection of 20 mumol citrinin/kg to pentobarbital-anesthetized dogs did not induce any alterations in renal tissue ultrastructure or in any of the 23 whole blood, plasma or renal function parameters that were monitored over a 6-h post-citrinin period. On the other hand, 80 mumol citrinin/kg produced significant increases in the hematocrit and in the renal excretion rates of protein and glucose; modest reductions were noted in CIN, RBF and excretion rate of inorganic phosphorus. In addition, 80 mumol citrinin/kg induced ultrastructural lesions in the cells of the S2 proximal tubular segment, the thick ascending limb, the distal convoluted tubule and the collecting ducts. The glomeruli, S1 and S3 cells of the
proximal tubule
and the thin descending and ascending limbs of Henle's loop were unaffected by both citrinin doses. The location and nature of the adverse ultrastructural lesions were most likely the result of the direct actions of citrinin (or a citrinin metabolite) since the effects of citrinin that could lead to indirect adverse renal effects were totally avoided or greatly minimized.
...
PMID:Citrinin produces acute adverse changes in renal function and ultrastructure in pentobarbital-anesthetized dogs without concomitant reductions in [potassium]plasma. 857 88
Metabolic alkalosis is a primary pathophysiologic event characterized by the gain of bicarbonate or the loss of nonvolatile acid from extracellular fluid. The kidney preserves normal acid-base balance by two mechanisms: bicarbonate reclamation, mainly in the
proximal tubule
, and bicarbonate generation, predominantly in the distal nephron. Bicarbonate reclamation is mediated mainly by a Na(+)-H(+) antiporter and to a smaller extent by the H(+)-ATPase (adenosine triphosphate-ase). The principal factors affecting HCO3(-) reabsorption include effective arterial blood volume, glomerular filtration rate, chloride, and potassium. Bicarbonate regeneration is primarily affected by distal Na(+) delivery and reabsorption, aldosterone, arterial pH, and arterial partial pressure of carbon dioxide. To generate metabolic alkalosis, either a gain of base or a loss of acid must occur. The loss of acid may be via the gastrointestinal tract or via the kidney. Excess base may be gained by oral or parenteral HCO3(-) administration or by lactate, acetate, or citrate administration. Factors that help maintain metabolic alkalosis include decreased glomerular filtration rate, volume contraction, hypokalemia, hypochloremia, and aldosterone excess. Clinical states associated with metabolic alkalosis are
vomiting
, mineralocorticoid excess, the adrenogenital syndrome, licorice ingestion, diuretic administration, and Bartter's and Gitelman's syndromes. The effects of metabolic alkalosis on the body are variable and include effects on the central nervous system, myocardium, skeletal muscle, and liver. Treatment of this disorder is simple, once the pathophysiology of the cause is delineated. Therapy consists of reversing the contributory factors that are promoting the alkalosis and, in severe cases, administration of carbonic anhydrase inhibitors, acid infusion, and low bicarbonate dialysis.
...
PMID:Metabolic alkalosis. 1126 55
Glomerulocystic kidney was diagnosed in a 5-year-old female Shiba dog, which died from chronic renal failure with convulsions,
vomiting
and diarrhoea. Haematological examination revealed non-regenerating anaemia, azotaemia and high serum creatinine. Grossly, both kidneys were mildly atrophic with multiple small cysts in the cortex. Histopathological examination revealed marked dilatation of Bowman's space, often with glomerular atrophy or loss, and mild interstitial fibrosis. Bowman's basement membranes (BMs) were tortuous and thickened, with patchy calcification. Glomerulo-tubular junctions in the urinary pole side of the kidneys had a stenotic appearance associated with thickening of Bowman's BMs and calcification. Focal interstitial fibrosis around the glomerulo-tubular junction was also found. Continuity with the
proximal tubule
was evident in cystic glomeruli. Ultrastructurally, marked thickening of Bowman's BMs with many granular deposits in the urinary pole side was observed. The findings indicate that glomerular cystic changes may have developed as a consequence of glomerulo-tubular junctional stenosis due to thickened Bowman's BMs and focal periglomerular fibrosis in the urinary pole side of the kidneys.
...
PMID:Glomerulocystic kidney in a domestic dog. 1602 37
Metabolic alkalosis is a primary pathophysiologic event characterized by the gain of bicarbonate or the loss of nonvolatile acid from extracellular fluid. The kidney preserves normal acid-base balance by two mechanisms: bicarbonate reclamation mainly in the
proximal tubule
and bicarbonate generation predominantly in the distal nephron. Bicarbonate reclamation is mediated mainly by a Na-H antiporter and to a smaller extent by the H-ATPase. The principal factors affecting HCO 3 reabsorption include effective arterial blood volume, glomerular filtration rate, chloride, and potassium. Bicarbonate regeneration is primarily affected by distal Na delivery and reabsorption, aldosterone, arterial pH, and arterial pCO2. To generate metabolic alkalosis, either a gain of base or a loss of acid, must occur. The loss of acid may be via the GI tract or by the kidney. Excess base may be gained by oral or parenteral HCO 3 administration or by lactate, acetate, or citrate administration. Factors that help maintain metabolic alkalosis include decreased glomerular filtration rate (GFR), volume contraction, hypokalemia, hypochloremia, and aldosterone excess. Clinical states associated with metabolic alkalosis are
vomiting
, mineralocorticoid excess, the adrenogenital syndrome, licorice ingestion, diuretic administration, and Bartter's and Gitelma's Syndromes. The effects of metabolic alkalosis on the body are varied and include effects on the central nervous system, myocardium, skeletal muscle, and the liver. Treatment of this disorder is simple, once the pathophysiology of the cause is delineated. Therapy consists of reversing the contributory factors promoting alkalosis and in severe cases, administration of carbonic anhydrase inhibitors, acid infusion, and low bicarbonate dialysis.
...
PMID:Metabolic alkalosis. 1673 46
At the level of the whole animal, the toxic effects of the mycotoxin deoxynivalenol (DON) range from causing diarrhoea,
vomiting
, gastro-intestinal inflammation to necrosis of several tissues. It also affects the immune system and leads to kidney lesions. Although DON has been tested in different human and animal cell lines for its cytotoxicity, these tests might be limited due to the disadvantages of cell lines (e.g. immortalization, tumour derivation, longtime cultivation) and do not necessarily reflect the response of normal cells. In order to overcome this problem and to be closer to the human situation, we studied the effect of DON in human kidney epithelial cells (renal
proximal tubule
epithelial cells, RPTEC) and human lung fibroblasts (normal human lung fibroblast, NHLF) in primary culture. Cell viability, apoptotic and necrotic cell death, collagens I, III and IV as well as fibronectin secretion were determined. It could be demonstrated that DON has a distinct cytotoxic effect on human primary cells. A reduction in viability can be observed in both cell types, with fibroblasts reacting more sensitive. Furthermore, DON caused mainly necrotic cell death in kidney cells whereas mainly apoptotic cell death in fibroblasts. DON had no effect on collagen secretion in RPTEC cells. Collagen secretion was partially decreased in NHLF. In both cells, fibronectin secretion was reduced after 5 days of exposure. We also studied the metabolism and the cellular uptake of DON using LC-MS/MS. DON was neither metabolized by
proximal tubule
cells nor by fibroblasts. DON is incorporated into the cells whereas the intracellular amount of DON in kidney cells is higher than in fibroblasts. No accumulation of DON occurred in the cells.
...
PMID:Cytotoxicity, metabolism and cellular uptake of the mycotoxin deoxynivalenol in human proximal tubule cells and lung fibroblasts in primary culture. 1782 72
