Overlap between functional abdominal pain disorders and organic diseases in children. / Sobreposición entre los trastornos funcionales de dolor abdominal y enfermedades orgánicas en niños.

Functional abdominal pain disorders are highly prevalent in children. These disorders can be present in isolation or combined with organic diseases, such as celiac disease and inflammatory bowel diseases. Intestinal inflammation (infectious and non-infectious) predisposes children to the development of visceral hypersensitivity that can manifest as functional abdominal pain disorders, including irritable bowel syndrome. The new onset of irritable bowel syndrome symptoms in a patient with an underlying organic disease, such as inflammatory bowel disease, is clinically challenging, given that the same symptomatology may represent a flare-up of the inflammatory bowel disease or an overlapping functional abdominal pain disorder. Similarly, irritable bowel syndrome symptoms in a child previously diagnosed with celiac disease may occur due to poorly controlled celiac disease or the overlap with a functional abdominal pain disorder. There is little research on the overlap of functional abdominal disorders with organic diseases in children. Studies suggest that the overlap between functional abdominal pain disorders and inflammatory bowel disease is more common in adults than in children. The causes for these differences in prevalence are unknown. Only a handful of studies have been published on the overlap between celiac disease and functional abdominal pain disorders in children. The present article provides a review of the literature on the overlap between celiac disease, inflammatory bowel disease, and functional abdominal pain disorders in children and establish comparisons with studies conducted on adults.

Effects of domperidone on QTc interval in infants.

AIM: To prospectively evaluate the effects of oral domperidone on the QTc interval in infants. METHODS: Infants (0-1 year) with a diagnosis of gastro-oesophageal reflux (GOR) disease were included. A 12-lead electrocardiography (ECG) was performed in all infants at baseline and 1 h after the intake of domperidone after 7-14 days; the corrected QTc interval was calculated by one investigator (MV) according to Bazett's formula. RESULTS: Forty-five infants were enrolled in this study. The mean gestational age was of 38.6 weeks (35.5-42.0), and the mean age at the start of domperidone was 75.3 days (19-218 days). No statistically significant difference in corrected QTc was observed between baseline and the second ECG (0.389 ± 0.02 vs. 0.397 ± 0.31; p 0.130)). A trend was observed regarding gender: Although there was no difference in QTc change in girls (p 0.622), there was a strong trend in boys (p 0.051). Two infants (both boys) had a clinically significant QTc prolongation (> 460 msec) without symptoms. The Spearman correlation test showed no relation between the QTc change and age (r: -0.05822; p 0.7284). There was no relation between domperidone dosage and QTc change. CONCLUSION: Overall, the group-analysis showed no statistical significant difference in QTc duration induced by domperidone. However, 2/45 (4.4%) infants had a prolonged QTc interval (> 460 msec) induced by domperidone. As a consequence, QTc measurement should be recommended in routine in infants when domperidone is started.