Children Clinical Trial
Official title:
Precision Diagnosis and Tolerance Induction in Children With Immediate-type Wheat Allergy
IgE-mediated wheat allergy is a growing allergy problem in children, and affected children can predict with immediate-type allergic reactions to the extent of anaphylactic shock. Current diagnostic methods based on crude wheat extract are inaccurate and unreliable. Besides, these children are managed by a passive "wait-and-see" approach that reflect the natural history of wheat allergy. Nonetheless, a significant proportion of wheat-allergic children have persistent disease until school-age and adolescence. There is an unmet need for designing effective and safe immunotherapeutic strategy for wheat allergy. This study aims to investigate performance of allergy tests based on crude wheat and wheat allergens as measured using both quantitative and functional IgE-based assays for diagnosing IgE-mediated wheat allergy; and to compare efficacy and safety of different dosages of wheat oral immunotherapy (OIT) for treating these paediatric patients. For the initial part, this study will recruit children with immediate-onset adverse reactions after wheat ingestion for different allergy tests, with their wheat allergy ascertained by the gold-standard double-blind, placebo-controlled food challenge. The investigators will then recruit the wheat-allergic children into a randomized, double-blind, parallel-group clinical trial with low-dose and standard-dose wheat OIT for 12 months. The main outcomes include the diagnostic performance of different conventional and novel allergy tests for challenge-confirmed wheat allergy and the rates of desensitization and sustained unresponsiveness achieved by the two dosing regimens of wheat OIT.
Study Background Wheat (Triticum aestivum) is one of the foods with wide global consumption and one of the Big 8 foods causing allergy. IgE-mediated wheat allergy tends to be associated with severe anaphylactic reactions when compared with cow's milk, egg and soy. Wheat proteins can be classified into four fractions, namely albumin, globulin, gliadin and glutenin, according to their solubility. Among these proteins, Nilsson reported that omega-5 gliadin had the highest specificity to diagnose IgE-mediated wheat allergy. Wheat allergic children also showed IgE response to glutenins, alpha-, beta-, gamma-gliadins, and alpha amylase inhibitors. Depending on ethnicity and cooking practices, the major wheat allergens causing clinical allergy vary among populations. The diagnostic accuracy of conventional allergy tests such as skin prick test (SPT) and blood sIgE assays for wheat allergy is suboptimal, while the roles of newer diagnostic methods such as basophil activation test (BAT; based on functional IgE-crosslinking) remains poorly defined for this food allergy. For wheat-dependent exercise-induced anaphylaxis (WDEIA), omega-5 gliadins and high-molecular-weight glutenin subunits were most often reported as major allergens. SPT and sIgE to wheat might be negative, and even sIgE to omega-5 gliadins were only positive in about 80% of these patients. BAT combined with florescence-activated cell sorting is a new approach to complement wheat-dependent exercise-induced anaphylaxis diagnosis. BAT-derived parameters such as the percentage of CD63+ or CD203c+ basophils have been shown to be sensitive biomarkers for wheat allergy. Expression of CD203c induced by purified native omega-5 gliadin provided the best power for discriminating between wheat allergic and tolerant subjects. On the other hand, there has not been any head-to-head comparison between BAT and conventional allergy tests for wheat allergy or evidence on the optimal stepwise algorithms with these allergy tests for diagnosing wheat allergy. Such unmet clinical need prompts our team to look for precision diagnostic approach to wheat allergy in children. Unlike cow's milk and egg, many children with wheat allergy have persistent allergy into school-age. A large retrospective study from the United States found that about one-third of wheat allergic patients had persistent disease into adolescence. The standard of care for wheat allergy is strict avoidance and prompt treatment of allergic reactions upon accidental ingestion. However, complete wheat avoidance is difficult in real life as it is widely present in common foods such as cakes, noodles, pasta, bread and even seasoning soya sauce. Food oral immunotherapy (OIT) is conventionally achieved in a long-enough duration that ultimately induces immunological tolerance of patients to oral intake of the allergenic food. The immunological changes resulted from OIT involved both innate and adaptive mechanisms that included reduced mediator release from mast cells and basophils, initial rise followed by decrease in food-specific IgE and increased food-specific IgG4, expansion and affinity maturation of specific memory B cells, and stimulation of regulatory T cells with release of IL-10 and IFN-gamma. Standard OIT protocols consist of three phases. Typically, patients start the first rush phase by eating a very small dose (equal to the eliciting dose from double-blind, placebo-controlled food challenge [DBPCFC]) of the testing food then incrementally for 6-8 doses per day. This phase carries a high risk of systemic reaction. At the end of this phase, patient will be advised about the safe starting dose for home administration. In the next build-up phase, patients will ingest increasing amount of food every 1-2 weeks until they reach the maintenance dose (usually one serving dose). They will maintain this dose for at least 1-2 years, after which be evaluated for outcomes of desensitization and tolerance (or otherwise called sustained unresponsiveness [SU]). Desensitization denotes a condition in which patients can tolerate maintenance dose while consuming food regularly whereas SU denotes ability to tolerate doses even when patients discontinue the regular dosing. There is limited evidence on the safest and most effective OIT protocol for wheat. Published clinical trials for wheat OIT adopted varying dosing regimens of different wheat products such as macaroni, pasta, udon and bread. The largest cohort of wheat OIT involved 18 Japanese patients with wheat anaphylaxis. Nearly 90% of patients were successfully desensitized after 2 years, but wheat tolerance decreased to 61% after two weeks of discontinuation of maintenance dose. A 'very low dose' protocol was adopted in which patients ingested 2 grams of udon noodles (equivalent to 53 mg of wheat protein [WP]) once a week as a maintenance dose. After one year, only 56% of subjects achieved desensitization rate to 15 grams of udon noodles. These observations suggested that the degree of desensitization and perhaps SU depends on the maintenance dose of wheat. Most published studies reported the maintenance dose of 5-6 grams WP (equivalent to 2-3 pieces of bread), while some studies adopted the low-dose approach (e.g. 400 mg WP). Higher desensitization rate was generally achieved with the former dosing (85% vs 55%), but there was inconsistent result for SU. Comparison between wheat OIT at 2 times/week and 6 times/week could not find any difference in the final target dose after 6 months. The current literature is limited by the lack of head-to-head comparison with different dosing regimens. Thus, there is another unmet need to develop effective OIT strategy for wheat allergy. Aims of this Study 1. To investigate the diagnostic performance of SPT, sIgE and BAT for wheat allergy; 2. To compare the accuracy of allergy testing with crude wheat extract and wheat allergens for diagnosing wheat allergy; and 3. To compare the efficacy and safety of low-dose and standard-dose OIT for treating wheat allergy. Study Design This is a two-stage study, with the first stage (diagnosis) being to recruit 90 participants for testing the diagnostic performance of different allergy tests (SPT, sIgE and BAT) with crude wheat extract and wheat allergens for immediate-onset wheat allergy that is ascertained by DBPCFC. Subjects will be recruited from both the territory-wide referral centre at Paediatric Allergy Clinic of our Hospital and open recruitment via our team website (https://www.allergycuhk.org/), social media and by mass emails to University staff. In the second stage (treatment) of this study, 72 subjects with challenge-confirmed wheat allergy who fail DBPCFC from Stage I will undergo a randomized, double-blind and parallel-group clinical trial with wheat OIT. Each subject had allergy tests done at baseline (T0; see Stage I), who will be randomly assigned to one of the two intervention groups with low-dose OIT and standard-dose OIT for 12 months. WHEAT OIT: pasta of various types (e.g. macaroni/spaghetti/vermicelli/penne) containing 10-13% WP by content will be used, mainly decided by subject preference. A subject eats the same type of pasta throughout OIT as far as possible, while subjects' families need to notify our coordinating dietitian of any deviation in wheat product ingestion during the study period. Study dietitian will package the exact OIT doses for dispensing to subjects. Different Phases in Stage II Randomization and Blinding: subjects will enter this Stage and randomized into Rush Induction within two weeks of screening/baseline DBPCFC. Randomisation at 1:1 ratio to low-dose or standard-dose OIT will be stratified by age (3-6 years; 7-11 years; 12-17 years) as younger subjects more likely outgrow wheat allergy naturally. The coordinating dietitian prepares the randomization sequence at the study start and put individual randomization numbers inside sealed envelopes. This dietitian will notify the field staff of that number upon subject's informed consent. Investigators, field staff and subjects/families will be blinded to the nature of interventions (low-dose vs standard-dose) throughout the 12-month randomisation period, and they will assess desensitization and SU by DBPCFC according to pre-defined PRACTALL criteria. On the other hand, families will be aware of the nature of intervention (i.e. observer-blinded) but asked not to disclose this to field staff. Rush (T0): subjects will receive increasing doses of wheat every 20 minutes to reach a final dose of 650 mg WP (or 5 grams wheat product; low-dose group) and 5 grams WP (or 38 grams wheat product; standard-dose group) as pasta. In both groups, subjects will consume a total of 38 grams pasta daily, with that of low-dose group made up of 5 grams wheat-based pasta and 33 grams gluten-free pasta. Study dietitian will offer nutritional counselling to families and prepare the Rush doses. Subjects who complete Rush protocol without reaction will commence the Build-up Phase at a daily dose of 650 mg WP (low-dose group) or 5 grams WP (standard-dose group) (Dose 8 of Rush) on the day after the Rush Induction day. A subject reacting to one of the 8 doses during Rush Induction will cease the Rush schedule and commence the Build-up Phase at the dose immediately below the reaction-eliciting dose on the day after the Rush Induction day. Build-up: subjects will be given the group-appropriate daily incremental dose of wheat OIT every 2 weeks until the maintenance dose of 38-gram wheat/gluten-free product is reached. In unavoidable circumstances (e.g. examinations), there is +/- 7 days of window for build-up visits to accommodate parent/subject availability. Each dose increase will be administered in hospital under medical supervision. If a participant reacts to a build-up dose on the day of the Up-dose visit and the reaction is consistent with the pre-defined stopping criteria for Rush, then the participant will remain on the previous tolerated dose. Maintenance: subjects will consume a daily wheat dose as appropriate to the assigned treatment arm for 6 days per week at home until a total of 12 months of treatment. Subjects will return every 12 +/- 2 weeks for review. They will undergo wheat DBPCFC at treatment termination (T1) and 4 weeks later (T2). SPT and blood tests for sIgE levels against wheat will be repeated at these two time points for assessing the immunomodulatory effects of OIT. Evaluation of Compliance with Interventions: subjects will return unused doses and used treatment packs as well as study diaries to our dietitian at each visit so that we can audit their treatment compliance and study progress. Subjects will be considered as compliant to intervention (i.e. per protocol) if they consume >=75% treatment doses over a 6-month period. Data analysis will be performed by both intention-to-treat and per protocol principles. Assessment and Documentation of Adverse Events: the incidence and severity of treatment-emergent adverse events will be monitored and recorded during the Treatment Phase. The severity of an adverse event will be categorised according to whether the event is allergic or non-allergic. The severity of allergic adverse events will be categorised based on NIH NIAID Consortium for Food Allergy Research specific grading system for allergic reactions. For non-allergic adverse events, their severity will be classified according to the ICH guidelines. Data analysis For Stage I, wheat allergic and tolerant groups will be defined by the gold standard DBPCFC according to our published methods. Allergy test results (SPT, sIgE, BAT) and DBPCFC scores will be analyzed by parametric or non-parametric tests, with significance set at P<0.05. To evaluate the diagnostic performance of different allergy tests, Mann-Whitney U test will be used to compare test results between allergic and tolerant subjects. The optimal cut-offs of allergy tests for challenge-confirmed wheat allergy will be determined from area-under-curve of receiver-operating-characteristic curves by SPSS for Windows version 25. The investigators determine the best algorithm for wheat allergy by a stepwise approach. For Stage II, clinical trial data will be analyzed both intention-to-treat and per protocol. All available data from subjects who received any investigational product will be included in safety data analysis. All demographic and baseline continuous outcomes will be presented as mean and standard deviation (or medians and interquartile ranges for skewed data), whilst categorical outcomes will be presented as number and percentage. Unless specified otherwise, statistical significance will be set at 5%. Inter-group comparisons regarding categorical outcomes will be analyzed by logistic regression with adjustment for age as the stratification variable. Continuous outcomes will be analyzed by linear regression models adjusted for the same stratification. ;
Status | Clinical Trial | Phase | |
---|---|---|---|
Completed |
NCT03563196 -
Diagnosis Of Pulmonary Complications After Cardiac Surgery In Children
|
||
Completed |
NCT02553486 -
Internationally Adopted Children Quality of Life
|
N/A | |
Completed |
NCT02903134 -
Early Risk of Asthma in Children Exposed to In-utero Maternal Obesity
|
||
Completed |
NCT02918890 -
Intensive Unimanual (CIMT) and Bimanual Training (HABIT) in Children With Hemiplegia
|
N/A | |
Active, not recruiting |
NCT01874847 -
PLAY GAME: Post-concussion Syndrome in Youth - Assessing the GABAergic Effects of Melatonin
|
Phase 2/Phase 3 | |
Enrolling by invitation |
NCT01971840 -
Effectiveness of a Physical Activity Intervention on Preventing Obesity During the Adiposity Rebound Period.
|
N/A | |
Enrolling by invitation |
NCT01971827 -
Effectiveness of a Physical Activity Intervention to Prevent Obesity and Improve Academic Performance
|
N/A | |
Completed |
NCT01738308 -
The Effects of Healing Touch on Post Operative Pediatric Patients
|
N/A | |
Completed |
NCT01943760 -
Tamadol Wound Infiltration in Children Under Inguinal Hernioplasty
|
Phase 4 | |
Completed |
NCT01864811 -
Effect of Baby-CIMT in Infants Younger Than 12 Months
|
N/A | |
Completed |
NCT01693926 -
Effect of Physical Activity an Stress in Children
|
N/A | |
Completed |
NCT01323010 -
Efficacy and Safety of Increasing Doses of Inhaled Albuterol in Children With Acute Wheezing Episodes
|
N/A | |
Completed |
NCT01277224 -
Effectiveness of a Physical Activity Intervention on the Obesity of Schoolchildren
|
N/A | |
Active, not recruiting |
NCT00989547 -
Cord Blood Infusion for Type 1 Diabetes Mellitus (T1DM)
|
Phase 1 | |
Completed |
NCT04051723 -
Pre-emptive Scalp Infiltration With Dexamethasone Plus Ropivacaine for Post-Craniotomy Pain in Children
|
Phase 4 | |
Completed |
NCT03236363 -
Effectiveness of MOVI Interventions on Adiposity, Cognition and Motor Competence: MOVI-da10!
|
N/A | |
Completed |
NCT03236337 -
Effectiveness of MOVI Interventions on Adiposity, Cognition and Subclinical Atherosclerosis: MOVI-daFit!
|
N/A | |
Not yet recruiting |
NCT03427697 -
Effect of VR and Accommdation Relax on Controlling Myopia in Children
|
N/A | |
Completed |
NCT05603507 -
Inspiratory Muscle Training in Children With Chest Burn
|
N/A | |
Not yet recruiting |
NCT06267339 -
Effects of Transcranial Random Noise Stimulation on Motor Learning in Typically Developing Adolescents
|
Early Phase 1 |