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
Query: UMLS:C0024523 (
malabsorption
)
7,319
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
There is a considerable range in the dose of many drugs that is required to produce a given pharmacological effect in an individual patient. This individual variation in dose requirement is sometimes reflected in the wide scatter in the steady state plasma concentration that follows the same oral dose of a drug given to any group of subjects. Such individual differences are largely due to variation in the rate of elimination of drugs. Gastrointestinal disease may also alter oral dose requirements by producing variation in both the amount and rate of drug absorption. These changes may be reflected in the plasma concentration/time curve that follows an oral dose. The amount of drug abosorbed is simultaneously affected by many factors. These include the physicochemical properties of the drug and the physiological factors that operate within the gut, as well as the presence of other substances such as food, or interaction with other drugs in the gut. The availability of the drug within the intestinal lumen is largely governed by its dissolution characteristics, particularly factors which can interfere with dissolution of the drug product in the gut. Physiological factors within the gut that affect oral drug absorption include gastric emptying rate and intestinal motility, the pH of the gastrointestinal fluids, the activity of gastrointestinal drug metabolising enzymes (e.g.
monoamine oxidase
and dopa decarboxylase) or drug metabolising bacteria and the surface area of the gut. Many factors affect gastric emptying. These include disease, surgery and other drugs. A change in the rate of gastric emptying alters the rate of drug delivery from the stomach to the duodenum and upper small intestine. This may profoundly alter the plasma concentration/time curve that follows oral administration of many drugs. For some drugs, proximal jejunal disease may reduce, delay or increase the apparent amount of drug absorbed. Reduced absorption of an antibiotic leads to a fall in the peak plasma concentration. If the peak falls below the minimum inhibitory concentration for a particular organism then therapeutic failure may occur, if it is assumed that the peak plasma concentration is all important for antimicrobial activity. Excessive drug absorption may lead to drug toxicity. Abnormal drug absorption is a feature of lower small intestinal conditions such as Crohn's disease. This suggests that drug absorption is not confined to the jejunum but continues throughout the small intestine. It is not always possible to predict the pattern of drug
malabsorption
from a knowledge of the physicochemical and pharmacokinetic properties of the drug and the pathophysiology of the disease. The rate and amount of drug absorbed be one patient may differ from that in another patient with the same condtion. Although these differences reflect normal individual variation, they are also related to the extent and activity of disease at the time of study...
...
PMID:Drug absorption in gastrointestinal disease with particular reference to malabsorption syndromes. 32 10
The relative efficacy of three commercial pancreatic enzyme supplements in improving fat absorption was studied using the [14C]triolein breath test in 12 patients with chronic pancreatitis. Two of the supplements were enteric coated. The one nonenteric coated product was studied twice: with and without ranitidine coadministration. Doses complied with the manufacturers recommendations. Baseline studies included pentagastrin-stimulated gastric acids, 72-hr fecal fat excretion, and [14C]triolein absorption while not on supplementation. Acid outputs were variable (BAO: 0.3-4.1 meq/hr;
MAO
: 3.5-34.6 meq/hr). Three patients had mild steatorrhea (i.e., less than 10 g/day) and the remaining severe fat
malabsorption
(56.9 +/- 41.5 g/day). Although fat absorption was significantly improved by all three supplements, the nonenteric coated preparation was most effective (P less than 0.001). However, laboratory analysis demonstrated that lipase content was four times greater, ie, 17,000 IU/4 tablets. Pretreatment with ranitidine failed to further improve the absorption in patients given nonenteric supplements but was effective in those found to have high or normal acid outputs (P less than 0.001). Our results suggest that the recommended dosage of enteric coated preparations is insufficient for adult patients with severe chronic pancreatitis. Secondly, the marked variability of acid secretion in such patients possibly accounts for the variability of results obtained by others on the usefulness of coadministration of antacids and H2 antagonists. Routine measurement of gastric acid secretion status may help optimize the choice and form of pancreatic enzyme supplementation.
...
PMID:Pancreatic enzyme replacement therapy. Importance of gastric acid secretion, H2-antagonists, and enteric coating. 256 63
This is a brief review of the theoretical and known drug reactions with oral contraceptives. There are at least 6 possible types of drug reactions that may affect the action of oral contraceptives, not including
malabsorption
related to changes in intestinal motility or flora. Ampicillin is an example of an antibiotic that may cause diarrhea, thereby reducing absorption of pill steroids. The steroids in orals are subject to enterohepatic circulation, which is in turn affected by the gut flora. Antibiotics known to suppress gut flora include: penicillins, cephalosporins, tetracyclines, sulfas, neomycin and erythromycin. Although controlled clinical trials of antibiotic intake with oral contraception have not shown significant interactions, anecdotal reports of pill failures have been published. The other important drug interaction affecting contraception by orals is enhanced hepatic degradation, as seen with rifampicin. Other drugs such as cimetidine,
MAO
-inhibitor antidepressants, chloramphenicol, influenza or BCG vaccine, isoniazid, warfarin, metronidazole and disulfiram may delay steroid metabolism and possibly increase side effects. When prescribing drugs it is important to realize that certain drugs decrease oral contraceptive concentrations: antibiotics anticonvulsants, griseofulvin, purgatives and rifampicin.
...
PMID:Pharmacologic considerations for patients taking oral contraceptives. 315 74
