The caffeine metabolic ratio as an index of xanthine oxidase activity in clinically active and silent celiac patients

Citation
M. Boda et al., The caffeine metabolic ratio as an index of xanthine oxidase activity in clinically active and silent celiac patients, J PED GASTR, 29(5), 1999, pp. 546-550
Citations number
28
Categorie Soggetti
Pediatrics,"Medical Research General Topics
Journal title
JOURNAL OF PEDIATRIC GASTROENTEROLOGY AND NUTRITION
ISSN journal
02772116 → ACNP
Volume
29
Issue
5
Year of publication
1999
Pages
546 - 550
Database
ISI
SICI code
0277-2116(199911)29:5<546:TCMRAA>2.0.ZU;2-T
Abstract
Background: The xanthine oxidoreductase system has been identified as one o f the main sources of free radicals responsible for various forms of tissue injury. Because the intestinal villi are an important location of this enz yme, it was of interest to study the role of xanthine oxidase in gluten-sen sitive celiac enteropathy, associated with characteristic villous atrophy. Measured by a noninvasive method, the ratio of caffeine metabolites excrete d in the urine after a caffeine challenge had previously been shown to be i ndicative of the total xanthine oxidase activity of the patient. Methods: The study involved 22 children with gluten-challenged celiac disea se, exhibiting subtotal villous atrophy in specimens from the third intesti nal biopsy in accordance with ESPGHAN criteria. Ten of the patients display ed overt clinical symptoms (active form), whereas 12 had no symptoms (silen t form). Urinary caffeine metabolites were determined by high-pressure liqu id chromatography. The total in vivo xanthine oxidase activity was expresse d as the caffeine metabolite index. Results: In patients with active celiac disease the xanthine oxidase activi ty index was considerably higher, whereas in those with silent disease it w as significantly lower than the control value. A significant negative corre lation was shown between the index indicative of xanthine oxidase activity and the serum iron level of the patients. Conclusions: Activation of xanthine oxidase may play a role in the pathogen esis of active celiac disease with definite malabsorption, gastrointestinal symptoms, and anemia. The caffeine test reflects the difference in the pat hogenetic mechanism leading to the mucosal lesion and clinical symptoms of active and silent forms of celiac disease.