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: UMLS:C0024523 (malabsorption)
7,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acarbose, an alpha-glucosidase inhibitor, lowers the glycemic excursion following the ingestion of carbohydrates, in particular, sucrose. This was confirmed with increasing doses of acarbose (0, 50, and 100 mg) and the causes investigated. The absorption of the glucose moiety of sucrose was determined from plasma tracer concentrations when overnight-fasted normal subjects received a 100-g oral sucrose load labeled with sucrose [(1-14C]glucose and a simultaneous intravenous infusion of [3-3H]glucose. As the dose of acarbose given with the sucrose load was increased from 0 to 100 mg, the percentage of the load appearing in the peripheral circulation decreased from 90% to 62%. Malabsorption was confirmed by the appearance of breath hydrogen. Simultaneously, absorption time increased from 243 to 411 min. Maximal glycemic excursions were therefore lowered from 64 to 31 mg/dl. The plasma concentrations of gastric inhibitory polypeptide and insulin decreased with the acarbose dose so that the fractional disappearance rate of glucose also decreased. However, the concentrations of glucagon-like immunoreactivity (GLI) rose, confirming the ileal appearance of malabsorbed sucrose.
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PMID:The effects of an alpha-glucoside hydrolase inhibitor on glycemia and the absorption of sucrose in man determined using a tracer method. 636 57

Administration of the alpha-glucosidase inhibitor, acarbose (BAY g 5421), to rats together with a sucrose load results in a marked retardation of sucrose digestion. The carbohydrate content of the small intestine is dose dependently increased; the time needed for the absorption is doubled. In the large intestine significant amounts of carbohydrate can be found only after administration of high doses of acarbose (2-4 mg/kg p.o.). In oral sucrose and maltose loading tests the blood glucose increase is dose dependently reduced by acarbose (ED50, 1 or 12 mg/kg, respectively). In perfused jejunal loops of rats, acarbose inhibits the absorption of sucrose (4 g/l) and maltose (1 and 2 g/l), the IC50 values being 3.2, 36, and 57 micrograms/ml, respectively. The data indicate that acarbose effectively inhibits sucrose digestion. It is 10-20 times less effective with maltose as a substrate. Slight malabsorption is induced by acarbose only in doses higher than the ED50.
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PMID:Inhibition of disaccharide digestion in rat intestine by the alpha-glucosidase inhibitor acarbose (BAY g 5421). 675 13

The influence of metronidazole on the breath hydrogen response and symptoms of sucrose malabsorption was investigated in a double-blind, randomized and controlled study. Carbohydrate malabsorption was induced by the competitive alpha-glucosidase inhibitor, acarbose. Metronidazole reduced flatulence and the breath hydrogen response during sucrose malabsorption without a change in intestinal carbohydrate absorption, as indicated by serum levels of gastric inhibitory polypeptide, serum insulin and blood glucose. The effect of metronidazole suggests that anaerobic bacteria mediate both signs and symptoms of the colonic response to sucrose malabsorption. In contrast to previous reports on lactose malabsorption, it was not possible to quantify sucrose malabsorption by comparing the breath hydrogen response to sucrose malabsorption with the H2 response to a lactulose load.
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PMID:Influence of metronidazole on the breath hydrogen response and symptoms in acarbose-induced malabsorption of sucrose. 716 May 49

The present paper addresses the question how alpha-glucosidase inhibitors affect glucose homeostasis. To facilitate this already established data on the effects of induced malabsorption on gut hormones such as gastric inhibitory polypeptide (GIP) in connection with preliminary findings which deal with the new incretin hormone glucagon-like peptide 1 (7-36) amide (GLP-1) are discussed. To emphasize the possibly important impact of a regulated GLP-1 release in response to glucosidase inhibitor treatment we evaluate the recently introduced concept of 'glucose competence' of pancreatic beta-cells. The slowing of nutrient (i.e. glucose) absorption by therapeutic means (for example, acarbose) could supplement a new approach in the treatment of type 2 diabetics which would utilize the well-preserved insulinotropic activity of GLP-1 in these patients, its glucagon-lowering effect, and its possible inhibition of gastric emptying rates, the latter helping to reduce the requirement for rapid insulin secretory responses as is intended while using alpha-glucosidase inhibitor treatment.
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PMID:Intestinal effects of alpha-glucosidase inhibitors: absorption of nutrients and enterohormonal changes. 800 23

Diarrhoea is a relatively frequent adverse event, accounting for about 7% of all drug adverse effects. More than 700 drugs have been implicated in causing diarrhoea; those most frequently involved are antimicrobials, laxatives, magnesium-containing antacids, lactose- or sorbitol-containing products, nonsteroidal anti-inflammatory drugs, prostaglandins, colchicine, antineoplastics, antiarrhythmic drugs and cholinergic agents. Certain new drugs are likely to induce diarrhoea because of their pharmacodynamic properties; examples include anthraquinone-related agents, alpha-glucosidase inhibitors, lipase inhibitors and cholinesterase inhibitors. Antimicrobials are responsible for 25% of drug-induced diarrhoea. The disease spectrum of antimicrobial-associated diarrhoea ranges from benign diarrhoea to pseudomembranous colitis. Several pathophysiological mechanisms are involved in drug-induced diarrhoea: osmotic diarrhoea, secretory diarrhoea, shortened transit time, exudative diarrhoea and protein-losing enteropathy, and malabsorption or maldigestion of fat and carbohydrates. Often 2 or more mechanisms are present simultaneously. In clinical practice, 2 major types of diarrhoea are seen: acute diarrhoea, which usually appears during the first few days of treatment, and chronic diarrhoea, lasting more than 3 or 4 weeks and which can appear a long time after the start of drug therapy. Both can be severe and poorly tolerated. In a patient presenting with diarrhoea, the medical history is very important, especially the drug history, as it can suggest a diagnosis of drug-induced diarrhoea and thereby avoid multiple diagnostic tests. The clinical examination should cover severity criteria such as fever, rectal emission of blood and mucus, dehydration and bodyweight loss. Establishing a relationship between drug consumption and diarrhoea or colitis can be difficult when the time elapsed between the start of the drug and the onset of symptoms is long, sometimes up to several months or years.
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PMID:Drug-induced diarrhoea. 1064 76


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