View clinical trials related to Milk Hypersensitivity.
Filter by:The main purpose of this study is to evaluate efficacy and safety of an amino acid-based formula Neocate Jr in children with food protein allergy, and to evaluate nutrition sufficiency of Neocate Jr in 1 to 10 years old children with food protein allergy.
The BAT Impact study is a prospective multicentre study in the UK using a biomarker-led study design to compare the incidence of adverse events (defined as allergic reactions during oral food challenges) in a randomized-controlled trial. Patients will either follow the standard-of-care (i.e. an oral food challenge in case of equivocal SPT/sIgE) or follow a basophil activation test (BAT)/mast cell activation test (MAT)-based strategy, i.e. patients with a positive BAT or MAT are dispensed of an oral food challenge (OFC) and patients with a negative BAT/MAT undergo an OFC.
With an increasing body of evidence to support a causal link between drinking milk that contain cow's milk protein (CMP) and the development of gastrointestinal disturbance in infants, many clinicians avoid the use of CMP containing feed in high risk babies. Delivery of adequate nutritional intake is one of the great challenges in the care of newborn infants, particularly those born preterm or with gastrointestinal problems. Whilst there are recognised benefits of human milk, a diet of exclusive human milk may not meet the nutritional demands of the infant. To close this gap, breast milk fortifier (BMF) is typically added to human milk. However, addition of BMF may be associated with gastrointestinal disturbance, possibly due to the fact that it contains CMP. This research study is to test the tolerability and safety of a new human milk-based BMF in neonates with gastrointestinal problems. It is hoped that this may provide an opportunity for high risk infants, to receive the benefits of human milk whilst minimising the risks reported to be associated with CMP. Eligible infants will be those in whom nutritional supplementation of breast is deemed clinically necessary, a weight of greater than 1.0kg at the time of starting fortifier and at least one of: - previous gastrointestinal surgery - congenital gastrointestinal anomaly - medically treated gastrointestinal disease - previously suspected intolerance of CMP based breast milk fortifier in the absence of other gastrointestinal disease Infants will be started on human milk-based BMF once they are tolerating 100 mls per kilo per day of human breast milk. The human milk-based fortifier will be commenced at half the recommended dose for 48 hours then increase to full strength. This will be continued until the infant reaches 44 weeks corrected gestational age, or until such time as they are deemed to no longer require the additional nutrition.
Non-IgE-mediated cow's milk allergy (CMPA) is associated to gastrointestinal symptoms, and its cause remains poorly understood, limiting the identification of specific markers to help with the diagnosis. Using a non-invasive method, the aim of this study is to identify new protein markers as well as to profile the bacteria (germs) released in stools of infants during the inflammatory process of this condition (acute and recovery phase). The study group will include infants who are born at term by an uncomplicated birth and diagnosed with non-IgE-mediated CMPA in the first 4 months of life, while the control groups will consist of infants either healthy or infants diagnosed with IgE-mediated CMPA or with a non-allergic gastrointestinal inflammatory condition (NAGIC). All groups will be matched for age, gender, type of feeding and mode of delivery. Stool, urine and blood samples (the latter only if already taken during the hospital admission in severe cases) will be collected at the acute and the recovery phase of this condition while the patient follows a diary free diet (breast milk or hypoallergenic formula milk). Protein markers, bacteria and their products will be measured in stool, urine and blood samples. These measurements will be carried out at the University of Glasgow, Human Nutrition Section labs at Glasgow Royal Infirmary and other University of Glasgow research labs as required. The ultimate aim is to explore the potential role of immune protein markers and bacteria in stools and urine and their possible use in diagnosing the condition non-invasively. Further understanding of the disease's cause may contribute to the development of new infant feed that could provide gut protection.
Necrotizing enterocolitis (NEC) is the most common life-threatening gastrointestinal emergency of prematurity, associated with a significant morbidity and mortality. Early diagnosis and early treatment interventions may reduce the risk of mortality and morbidity. The Primary goal of this observational study is to gather survey data to establish a national database of NEC in newborns in order to better understand the risk factors underlying NEC. Survey data will be used along with a medical history to identify the mechanism(s) underlying the increased prevalence of NEC in non-breast fed, formula fed premature infants.
The prevalence of children suspected of a cow's milk allergy is 17% in the Netherlands. Cow's milk diagnosis is based on a food challenge test However, this food challenge test is expensive, time consuming, risky, with waiting lists of several months. This waiting time results in unnecessarily long-term use of expensive hypoallergenic milk formula Therefore, there is a great need to introduce a better and faster diagnostic test for cow's milk allergy diagnosis in standard care. The in vitro Basophil Activation Test (BAT) is cheap, quick (result < 1 day, no waiting list), safe for the child and is a reliable alternative for the food challenge test to diagnose an IgE-mediated allergy. A diagnostic work-up with the BAT is expected to achieve a relevant reduction in the number of expensive and risky food challenges and the prescription of hypoallergenic formula. The reduction in diagnostic delay will increase quality of life. Objective: Determination of the (cost)effectiveness of the replacement of the expensive, risky and time-consuming food challenge test by the Basophil Activation Test (BAT) for the diagnosis of an IgE-mediated cow's milk allergy in children.
This study aimed to survey the growth of children who were on elimination diet due to cow milk allergy in Turkey. 0-5 year aged children diagnosed with cow's milk allergy (CMA) and healthy age-sex-matched children as the control group was planned for inclusion. Participants will be included in the study by consecutive sampling. The anthropometry measurements (height-for-age [HFA], weight-for-age [WFA], and weight-for-height [WtHt]) will be evaluated according to the Z-score using the WHO ANTHRO [Z-score = Patient's value - Average value / Standard Deviation (SD)]. The Z-score (SDS) in the average child by age was "0".
Study to assess the diagnostic accuracy (sensitivity, specificity, positive and negative predictive value) of DBV1605 for the diagnosis of non-Immunoglobulin E (IgE) mediated cow's milk allergy (CMA) in children with symptoms suggestive of non-IgE mediated CMA.
Lactobacillus GG (LGG) is able to exert long lasting effects in children with atopic disorders. Nutramigen LGG accelerates tolerance acquisition in infants with cow's milk allergy. The mechanisms of these effects are still largely undefined. The effect of LGG could be related at least in part by the immunoregulatory role played by LGG. This probiotic can balance the generation of cytokines possibly involved in IgE- or non-IgE-mediated cow's milk allergy Interleulkin (IL)-4, IL-5, IL-10, IFN-γ , TGF-β, and TNF-Υ), which can contribute to modulation of inflammatory processes. The investigators have demonstrated that children with IgE-mediated CMA produce significantly higher level of IL-4 and IL-13 in response to cow's milk protein, and that tolerance is associated with a marked reduction of IL-13 production and a concomitant increased frequency of IFN-γ releasing cells. Epigenetics studies the heritable (and potentially reversible) changes of the genome inherited from one cell generation to the next which alter gene expression but do not involve changes in primary DNA sequences, highlighting the complexity of the inter-relationship between genetics and nutrition. There are three distinct, but closely interacting, epigenetic mechanisms (histone acetylation, DNA methylation, and non-coding microRNAs) that are responsible for modifying the expression of critical genes associated with physiologic and pathologic processes. The profile of epigenetic modifications associated with Th lineage commitment, coupled with the sensitivity of the early developmental period, has led to speculation that factors that disrupt these pathways may increase the risk of allergic diseases. Specifically, effects on DNA methylation and endogenous histone deacetylase inhibitors acting on specific pathways (Th1 and T regulatory cell differentiation) may favour Th2-associated allergic differentiation. MicroRNAs are another structural components of an epigenetic mechanism of post-transcriptional regulation of messenger RNA translation. It has been recently identified a specific Th2-associated microRNA (miR-21) that is critical for the regulation of Th cell polarization. It has been previously demonstrated an inverse DNA methylation pattern of cytokines involved in Th2 response (IL-4, IL-5) compared with cytokines involved in Th1 response (IL-10, INF- y) in children with CMA acquiring oral tolerance, with the most pronounced effects in those treated with Nutramigen LGG.
This is a phase 2, multicenter, randomized, double-blind, parallel group, 2 arm study in approximately 40 subjects aged 4 to 50 years, inclusive, who are allergic to cow's milk. The primary objective is to assess whether dupilumab as an adjunct to milk oral immunotherapy (OIT) compared to placebo improves the safety of milk OIT and rates of desensitization, defined as an increase in the proportion of subjects who pass a double-blind placebo-controlled food challenge (DBPCFC) to at least 2040 mg cumulative milk protein at week 18.