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High Gluten Consumption Early in Life Upped Risk for Celiac Disease

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Key clinical point: High levels of gluten consumption in early life significantly increased the risk of celiac disease.

Major finding: The odds of celiac disease were more than twice as high among children who consumed more than 5 g of gluten a day, compared with those who consumed less gluten (OR, 2.65; P less than .0001).

Data source: A 1 to 3 matched nested case-control study of 146 children with biopsy-confirmed celiac disease (cases) and 436 tissue transglutaminase (tTGA)-negative controls.

Disclosures: The National Institutes of Health, Juvenile Diabetes Research Foundation, and the Centers for Disease Control and Prevention funded the study. The investigators had no disclosures.

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High early gluten consumption upped celiac disease

Long-suffering Swedish children probably have the highest rate of celiac disease in the world. This rate has dramatically increased. Why and why not? Previous studies have shown that it is not breastfeeding. It is not age or timing of introduction of gluten. It is not likely to be infections. This study shows that it is the amount of gluten that drives children with the highest genetic risk for celiac disease to develop the disease early in life. This conversion is preceded by a high intake of gluten. While these results alone should not determine general infant feeding practices, it suggests that if you are a Swedish child who carries these high-risk genes, high quantities of gluten early in life are not for you.

This study also raises the question of the effect high-dose gluten in adults at risk. Previously, studies have shown that the prevalence of celiac disease in adults in Sweden is not much different from the pediatric population. This study needs to be expanded to other Western populations where the rate of celiac disease is not so high. While nutritional engineering on a grand scale should not be undertaken lightly given the possibility of unexpected consequences, it behooves at least the Swedish population to perhaps reexamine their cultural practices of incorporating high gluten-containing cereals early in the lives of children, most especially those at particular risk for celiac disease.

Dr. Joseph A. Murray, AGAF, is professor of medicine, consultant, division of gastroenterology and hepatology, and department of immunology, and director of the Celiac Disease Program at the Mayo Clinic, Rochester, Minn.


 

FROM CLINICAL GASTROENTEROLOGY AND HEPATOLOGY

References

Children who were genetically susceptible to celiac disease and consumed high amounts of gluten at 12 months of age were at least twice as likely to develop the autoimmune disorder as genetically predisposed children who consumed less gluten, researchers reported in the March issue of Clinical Gastroenterology and Hepatology.

The association was similar among children who carried any of the major human leukocyte antigen (HLA) risk genotypes for celiac disease, said Dr. Carin Aronsson at Lund University in Sweden and her associates. “Because these HLA risk genotypes are widely distributed in the general population, these findings may have consequence for future infant feeding recommendations,” they said. They recommended repeating the study in other countries to confirm the link.

In order to develop celiac disease, patients must consume gluten and carry at least one of the relevant DR3-DQ2 and DR4-DQ8 HLA risk haplotypes. But because gluten is widely consumed in products containing wheat, rye, and barley, and because about half of whites have at least one of the two haplotypes, gluten intolerance probably depends on other environmental factors, the researchers said. To further study these factors, they compared 3-day food diaries collected at ages 9, 12, 18, and 24 months for 146 children with positive tissue transglutaminase autoantibody (tTGA) assays and biopsy-confirmed celiac disease (cases) and 436 tTGA-negative children (controls). Cases and controls were matched by age, sex, and HLA genotype (Clin Gastroenterol Hepatol. 2015 Oct 7. doi: 10.1016/j.cgh.2015.09.030).

The food diaries revealed higher gluten intake among cases, compared with controls, beginning at the age of 12 months, said the researchers. Notably, cases consumed a median of 4.9 g of gluten a day before tTGA seroconversion, 1 g more than the median amount for controls of the same age (odds ratio, 1.3; 95% confidence interval, 1.1-1.5; P = .0002). Furthermore, significantly more cases than controls consumed the highest tertile of gluten, more than 5 g per day, before seroconversion (OR, 2.7; 95% CI, 1.7-4.1; P less than .0001). These associations were similar among children of all haplotype profiles and trended in the same direction among children with and without first-degree relatives with celiac disease.

Cases and controls resembled each other in terms of breastfeeding duration, age at first introduction to gluten, and total daily caloric intake, the investigators noted. “The prospective design of this birth cohort study enabled us to obtain the diet information before seroconversion of tTGA as a marker of celiac disease,” they said. “This eliminated the risk of reporting biases or a change in feeding habits because of the knowledge of serology results or disease status.” But they did not analyze the number of daily servings of foods that contained gluten. “We cannot exclude the possibility that the number of portions given frequently during the course of the day may have different effects on disease risk,” they said.

The National Institutes of Health, Juvenile Diabetes Research Foundation, and the Centers for Disease Control and Prevention funded the study. The investigators had no disclosures.

Source: American Gastroenterological Association

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