Dokuz Eylul University Faculty of Medicine, Department of Pediatrics, Division of Pediatric Gastroenterology, Hepatology and Nutrition, Izmir, TURKEY Celiac disease (CD) is a common immune-mediated enteropathy triggered by gluten in genetically susceptible individuals with an overall prevalence almost 1% in different countries [1]. The diagnosis of the disease is classically based on a combination of serologic tests and characteristic intestinal biopsy findings [2]. In a recent meta-analysis performed by European Society of Pediatric Gastroenterology, Hepatology and Nutrition (ESPGHAN) Working Group of Celiac Disease Diagnosis, 16 studies have been reviewed and anti-antiendomysial (EmA) and anti-tissue transglutaminase (tTG) IgA antibodies have been found more accurate tests for the diagnosis of CD [2]. In this meta-analysis, their sensitivities have been detected more than 90%, and specifities have been found 98.2% for anti-EmA and >90% for anti-tTG [2]. With the improvement of serological tests, diagnosis of CD without intestinal biopsies has been suggested in some defined situations [3]. On the other hand, despite the high diagnostic performance of anti-tTG and anti-EmA antibodies for CD, they have lower accuracy in children younger than 2 years of age and patients with selective IgA-deficiency [4]. ESPGHAN Working Group of CD Diagnosis prepared new guidelines for CD diagnosis in 2012 [5]. According to these criteria, diagnosis is based on the combined evaluation of symptoms, serological tests, biopsy findings, and human leukocyte antigen (HLA) typing [5]. In symptomatic patients who have anti-tTG titers >10 times the upper limit of normal and positivity for EmA, it is possible to diagnose CD without performing the intestinal biopsy [5]. It has been proposed that, for patients with IgA deficiency the decision should be made from the results of the IgG class antibody tests [5]. Typing of HLA-DQ2 and HLA-DQ8 is a useful tool, which has a diagnostic sensitivity of > 96 %. Therefore, a negative result of HLA-DQ2 and/or DQ8 testing makes a diagnosis of CD highly unlikely [5,6]. Recent studies showed that anti-deamidated gliadin peptide (DGP) antibodies had higher sensitivity and specificity than conventional anti-gliadin antibodies [7], consequently anti-DGP antibodies joined anti-tTG and anti-EmA as tests with high diagnostic performance [8,9,10]. On the other hand, some studies demonstrated superior diagnostic value of anti-tTG to anti-DGP antibodies even in patients younger than 2 years-old [11]. In this first issue of the Journal, Oana et al [12] investigated the accuracy of these antibodies in symptomatic infants. They evaluated the diagnostic value of combined IgA/IgG DGP/tTG screen assay in anti-IgA tTG or anti-EmA negative children younger than 2 yearsold. All children had normal total IgA concentration and were consuming gluten at the time of the study. Diagnosis of celiac disease was made according to intestinal biopsy findings. They found the sensitivity of combined IgA/IgG DGP/tTG screen assay (95.4 %) higher than both antitTGA (86.3%) and anti-EmA (91%) antibodies in this age group of children [12]. They concluded that better performance of this combined tests might preclude repeated intestinal biopsies in young symptomatic children who have negative tTG/EmA serology. Recent ESPGHAN guideline also proposes that anti-DGP antibodies may be used as additional tests in patients who are negative for other celiac spesific antibodies but have symptoms compatible with celiac disease, especially in patients younger than 2 years-old [5]. In conclusion, intestinal biopsy is an invasive diagnostic method especially in young children. Further more sensitive serological tests can provide the definite diagnosis of celiac disease especially in younger age group without this invasive procedure.