Sf. Dellert et al., THE C-13-XYLOSE BREATH TEST FOR THE DIAGNOSIS OF SMALL-BOWEL BACTERIAL OVERGROWTH IN CHILDREN, Journal of pediatric gastroenterology and nutrition, 25(2), 1997, pp. 153-158
Background: We evaluated the clinical utility of the C-13-xylose breat
h test for the diagnosis of small bowel bacterial overgrowth in childr
en. Methods: To determine the optimal dose of C-13-xylose, 29 healthy
children, 3 to 12 years old, were randomly assigned to receive one of
three doses of C-13-xylose (10, 25, or 50 mg). After an overnight fast
, the oral dose of C-13-xylose was administered, and breath samples we
re collected every 30 minutes for 4 hours. Samples were analyzed for (
CO2)-C-13 by gas chromotography with mass spectrometry. Using the 50 m
g dose, we then performed nine breath tests with concurrent duodenal b
acterial cultures in 6 children, 3 to 12 years old, with short-bowel s
yndrome (n = 2), immunodeficiency states (n = I), and motility disorde
rs (n = 3). Results: Excretion of (CO2)-C-13 in breath peaked at 2.5 h
ours in all three control groups. The 50-mg dose produced the highest
median peak and the smallest range of (CO2)-C-13 excretion in breath w
ithin each time period. The time of peak (CO2)-C-13 excretion in breat
h varied among the diseased children; however, the six patients with s
mall-bowel bacterial overgrowth (2 x 10(5) - 3.5 x 10(8) gram negative
rods) all had peak (CO2)-C-13 that exceeded the maximum breath (CO2)-
C-13 level in breath of the control subjects at the corresponding time
period (100% sensitivity). Of the three patients with negative cultur
es, two had negative breath test results and one had positive results
(67% specificity). One subject had normalization of both duodenal cult
ure and breath test results after antibiotic treatment of small-bowel
bacterial overgrowth. Conclusions: Our preliminary results suggest tha
t with a dose of 50 mg C-13-xylose, breath test results reliably predi
ct small-bowel bacterial overgrowth in susceptible children.