"Adding DNA-test for Screening of HLA-DQ2 and DQ8 to Improve Early Diagnosis of Celiac Disease"

• Conditions: Celiac Disease in Children
• Interventions: Other: DNA test for screening HLA-DQ2 and DQ8 from dried blood spots to early detect Celiac Disease

• Registration Number: NCT06179121
• Lead Sponsor: Leiden University Medical Center

Brief Summary

Celiac Disease (CD) is an immune-mediated systemic disorder elicited by the ingestion of gluten containing cereals from the normal diet, among others wheat, rye and barley. The disease is characterized by a variable combination of gluten-dependent clinical manifestations, CD specific antibodies, human leukocyte antigen (HLA)-DQ2 or HLA-DQ8 haplotypes and chronic inflammation of the small bowel.CD is one of the most common lifelong food- related disorders; it has a frequency of 1% in the general population: this corresponds to 170.000 persons in the Netherlands, and of them at least 30.000 children. However, CD is frequently unrecognized, partially because of its variable clinical presentations and symptoms. That timely diagnosis and treatment of CD could be achieved by active case-finding, show the preliminary results of the ongoing ZonMw sponsored project GLUTENSCREEN (531002001; www.glutenscreen.nl). Currently, HLA-typing is not a part of GLUTENSCREEN because current technique presents important drawbacks in settings without the availability of a laboratory. We here propose to develop a novel test for DNA isolation for HLA typing extracted from the dried blood spots obtained from the POCT at the Preventive YHCCs for early detection of CD. Repeated testing for CD could be omitted in children tested HLA-DQ2/8 negative, this reflects to 60% of the targeted population. To embed this technique in the case finding setting at the YHCCs, the test will be offered to a significant part of the general Dutch population between 0-4 years old, since more than 95% of the general population visit the YHCC. Primary Objective: To validate the HLA-DQ typing in blood taken by a fingerprick; to make it feasible in the regular Preventive YHCCs organization. Study population: Phase 1: From 50 children attending the LUMC dept. of Pediatrics because of suspected CD in whom traditional HLA-typing is part of their standard of care or from children with diagnosed CD in whom their HLA typing is already known. Phase 2: All parents of symptomatic children, 1-4 years of age, who visit the Preventive YHCC in the region of Kennemerland, will be asked to participate in this study.

Detailed Description

Celiac Disease (CD) is an immune-mediated systemic disorder elicited by the ingestion of gluten containing cereals from the normal diet, among others wheat, rye and barley. The disease is characterized by a variable combination of gluten-dependent clinical manifestations, CD specific antibodies, human leukocyte antigen (HLA)-DQ2 or HLA-DQ8 haplotypes and chronic inflammation of the small bowel\[1,2\]. T-cells in the lamina propria of the small bowel recognize the gluten peptides when they are bound to the HLA class II specificities DQ2 and/or DQ8 on antigen-presenting cells.

CD is one of the most common lifelong food- related disorders; it has a frequency of 1% in the general population: this corresponds to 170.000 persons in the Netherlands, and of them at least 30.000 children\[3-7\]. However, CD is frequently unrecognized, partially because of its variable clinical presentations and symptoms, ranging from malabsorption with chronic diarrhoea, poor growth in children and weight loss, to nonspecific signs and symptoms like chronic fatigue, osteoporosis/reduced bone mineral density, gastrointestinal symptoms or elevated liver enzymes \[5,7,8\]. Unrecognized and thereby undiagnosed and untreated disease is associated with short- and long-term complications such as delayed puberty, neuropsychiatric disturbances, associated autoimmune disease, miscarriages, small-for-date-births, osteoporosis, and, rarely, malignancy. CD has a considerable health burden for society and yields extensive negative economic consequences, thereby presenting a resource challenge for current and future health systems \[9\]. Once diagnosed, the patient's health status improves after treatment with a gluten free diet (GFD).

That timely diagnosis and treatment of CD could be achieved by active case-finding, show the preliminary results of the ongoing ZonMw sponsored project GLUTENSCREEN (531002001; www.glutenscreen.nl). In this active case finding project, started at February 2019, all children aged 1-4 years who attend the Preventive Youth Health Care Centres (YHCCs) in the region of Kennemerland are yearly assessed for 10 CD-related symptoms during their regular consultation. If a child has one or more symptoms, the parents of the child are invited to participate. After informed consent, a point of care test (POCT) assessing CD-specific antibodies against tissue-transglutaminase (TGA) from a droplet of blood, is performed onsite at the YHCCs. If the POCT is positive (TGA present), CD is highly suspected and the child is referred to the Leiden University Medical Centre (LUMC) for diagnosis according to the standard of care\[1,2\]. The preliminary results of GLUTENSCREEN are beyond expectations: From the 14.917 children attending the YHCCs, 5.512 (37.0%) of them had one or more CD-related symptoms.

The parents of 3.203 (58.1%) children gave informed consent for a POC-test. In 61 (1.9%) children the POC-test was positive. After additional investigations at our hospital, CD was confirmed in 55 children (1.7% of the tested children) (serum IgA TGA \>10xULN and IgA against endomysium (EMA) positive) and ruled out in 5 children with dubious/positive POC test: in two children HLA-DQ2/8 was negative with negative TGA in serum (ELISA-test), in 3 children with TGA \<10 x ULN (ELISA-test) in whom small bowel biopsies showed Marsh 1 lesions. One child still needs to be seen in the hospital (parents refused till now) (www.glutenscreen.nl). From the parents who were invited for GLUTENSCREEN, almost 80% is willing to participate if the POCT could be performed during the regular visit at the YHCC. All health care professionals reported that early CD detection by case-finding adds value to the preventive care they offer at the YHCCs.

These preliminary results of our active CD case-finding project at the Preventive YHCCs in the Netherlands illustrate that early detection of CD at the Preventive YHC is feasible and well-accepted by parents and health care professionals.

In GLUTENSCREEN all symptomatic children will be annually tested for CD at the Preventive YHCCs till the age of 4 years. In the region Kennemerland, GLUTENSCREEN has already been implemented in the regular care and POCT will be performed during consultation. However, the development of CD requires genetic susceptibility, present in 40% of the general population. Since the disease almost exclusively occurs in individuals with the human leukocyte antigen (HLA)-DQ2 and/or HLA- DQ8 haplotypes, codified by chromosome 6. The absence of HLA-DQ2/-DQ8 can exclude the possibility or future development of CD with a certainty close to 100%. Because of the high negative predictive value of HLA-typing for development of CD, repeated CD testing will be unnecessary in HLA-DQ2/DQ8 negative individuals (60% of the general population) \[10\].

Currently, HLA-typing is not a part of GLUTENSCREEN because current technique presents important drawbacks in settings without the availability of a laboratory, like the Preventive Care setting as the YHCCs, since it requires DNA extraction. Material for DNA extraction is usually obtained from whole blood (minimum quantity 4-5 ml) or from other cells, such as buccal mucosa. However, venipunctures are not feasible at the YHCCs and buccal mucosa DNA extraction in children is time-consuming.

We here propose to validate and implement the test for DNA isolation for HLA typing extracted from the dried blood spots to early detection for CD on the Preventive YHCCs.

Other projects have shown that the usage of real-time polymerase chain reaction (RT-PCR) on DNA acquired from dried blood samples is successful and can easily be applied to HLA-DQ2/DQ8 typing in this setting\[11\].

Adding HLA-DQ2/8 typing to the case finding strategy for CD at the Preventive YHCC is innovative since HLA-typing for CD has not previously been done in dried blood spots in the proposed setting. Furthermore, embedding this technique represents a novel approach to active case-finding of CD and consequently will improve secondary prevention of CD by early diagnosis at the Preventive YHCCs.

The outcome of the proposed study will have impact on the active case finding procedure of CD at the YHCCs. Repeated testing for CD could be omitted in children tested HLA-DQ2/8 negative, this reflects to 60% of the targeted population. This study will result in:

1. More efficient and decrease of the burden of the HLA-DQ2/8 negative children: less children have to be tested.

2. Clarity of the acceptability of HLA typing for CD in parents from young children.

3. Costs saving by reducing unnecessary follow up of children. To embed this technique in the case finding setting at the YHCCs, the test will be offered to a significant part of the general Dutch population between 0-4 years old, since more than 95% of the general population visit the YHCC.

* Consult references at the end of this document

Study Timeline

• Study Start: 2022-09-01
• Status Verified: 2023-12
• Study First Submitted: 2023-12-12
• Study First Submitted QC: 2023-12-12
• Last Update Submitted: 2023-12-12
• Study First Posted: 2023-12-21
• Last Update Posted: 2023-12-21
• Primary Completion: 2024-05-01
• Study Completion: 2024-11-01

Recruitment & Eligibility

• Status: ENROLLING_BY_INVITATION
• Sex: All
• Target Recruitment: 508

Inclusion Criteria

Phase 1:

• age 1-18 years,
• consultation at the LUMC for (suspicion of) CD,
• parents have a sufficient knowledge of Dutch language,
• written informed consent from child and/or parent

Phase 2:

• age 12 months to 4 years,
• at least one of the 10 CD-related symptoms
• not diagnosed with CD,
• not on a GFD,
• parents have a sufficient knowledge of Dutch language,
• written informed consent from the parent(s)

Exclusion Criteria

Phase 1 and 2:

• no informed consent,
• insufficient knowledge of Dutch language and/or inability to understand the information provided,
• bleeding disorders.

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Arm && Interventions

Group	Intervention	Description
Phase 1 Cohort (Validation of HLA- DQ2/8 typing)	DNA test for screening HLA-DQ2 and DQ8 from dried blood spots to early detect Celiac Disease	Children (1-18 years old) coming for consultation at the LUMC for (suspicion of) CD
Phase 2 Cohort (Implementation of HLA-DQ2/8 typing on the Preventive YHCCs)	DNA test for screening HLA-DQ2 and DQ8 from dried blood spots to early detect Celiac Disease	Children (12 months to 4 years old), at least with one of the 10 CD-related symptoms, not diagnosed with CD, and not on a GFD,

Primary Outcome Measures

Name	Time	Method
Prevalence of HLA-DQ2/8 in the general population (Phase 2) population (parents) and the health care professionals.(Phase 2)	Month 9 to month 12 (after the validation phase 1)	Children with positive HLA-DQ2/8 typing (n/%), Children with negative HLA-DQ2/8 typing (n/%), Children in whom the test failed (including reason), Evaluation of the acceptance and impact of the HLA-typing for CD by the Dutchpopulation (parents) and the health care professionals For the HLA-DQ typing approximately 15 μL is necessary which corresponds with 1-2 droplets of blood. After informed consent, an extra droplet of blood will be collected for the novel HLA-DQ2/8 typing by the finger prick when performing the POCT for TGA determination as done in GLUTENSCREEN. The filter-papers will be stored, at room temperature, safely at the YHCCs. Once a week, all the collected filter papers with dried blood spots will be sent to the department of the Immunology in specially marked envelops. After the DNA isolation, HLA-DQ typing and interpretation.
Sensitivity and specificity of the HLA-test in dried blood spots will be calculated (Phase 1)	Month 6 to month 9 (total duration of the study: 18 months)	The results of the HLA-DQ2 and DQ8-typing using the dried blood spots will be compared with the results of the traditional HLA-typing. DNA extraction for HLA-DQ typing from dry blood spots will be performed using the QIAamp method \[12-15\]. A protocol to isolate DNA has been developed and the isolation is executable by all the well skilled laboratory analysts. DNA extraction per sample takes about 15 minutes and it is possible to determine several samples at the same time. The equipment and optical technology are already present at the LUMC.

Secondary Outcome Measures

Name	Time	Method
Cost-effectiveness of the investigational strategy (Time investment by medical and nursing staff at the YHCCs (sec), costs of the investigational strategy (time, materials) (€))	Month 9 to month 12	To evaluate the cost-effectiveness of case finding with and without HLA-DQ2/8 typing. This part of the study will be done by the health economist. Factors that will be included are cost for: the novel genetic test, health care professionals at the YHCC and laboratorial, storage and transport of the material for the genetic test. These costs will compared to the costs in the situation without HLA-DQ2/8 testing as done in GLUTENSCREEN

Trial Locations

Locations (1)

Leiden University Medical Centre (LUMC); 🇳🇱 Leiden, South Holland, Netherlands