View clinical trials related to Milk Hypersensitivity.
Filter by:This trial is a two-armed open randomized controlled trial in children aged 5-15 years with challenge proven Immunoglobulin E (IgE)-associated milk allergy.The purpose is to determine if oral immunotherapy with milk can induce tolerance to milk. The active intervention is intake of increasing amounts of fresh milk for six months followed by three years of maintenance treatment with milk. The control group continues their elimination (milk free) diet. The trial will recruit patients at ten pediatric departments in Sweden, coordinated by Umeå University. The primary outcome is milk tolerance (defined as a negative double-blind placebo-controlled milk challenge) at trial completion 3.5 years after start of treatment. Secondary outcomes include allergic symptoms during treatment documented as certain allergic manifestations, changes in immunological and microbial biomarkers, quality of life and nutritional status.
Food allergies have become a relevant health problem in westernized societies, particularly, with children. Cow's milk (CM), along with hen's eggs, are the most common foods eliciting allergic reactions in children under 4 years of age. The main objective of this intervention study is to evaluate the safety and efficacy of the intervention known as "The Milk Ladder" in the development of tolerance by children with CM allergies. This will be compared to an historical cohort (CoALE), which investigated the natural history of this allergy. Additionally, the ability of informative epitopes will be evaluated for their potential to predict tolerance and their correlation against clinical variables. The "Milk Ladder" will be evaluated within a prospective cohort of CM allergic children. This intervention is enacted through the introduction of meals cooked with progressively increasing amounts of cow's milk into the participant's diet. The primary outcome will be the development of tolerance which will be evaluated through a double-blind placebo-controlled food challenge. IgE and IgG4 epitopes will be described using a peptide microarray immunoassay. Quality of life will be determined by administering the FAQLQ-PF disease-specific questionnaire. Finally, within a subgroup of study participants, the ability of different peptides to activate basophils will be analyzed, and CM T cell epitopes will be studied by means of T-cell proliferation and cytokine production assays.
The BAT II Study is a cross-sectional diagnostic study in which children with suspected IgE-mediated allergy to foods (namely cow's milk, egg, sesame and cashew), as defined by a history of an immediate-type allergic reaction to a food or no history of food consumption or the presence of food-specific IgE as documented by skin prick test or serum specific IgE, will undergo a diagnostic work-up to confirm or refute the diagnosis of IgE-mediated food allergy. Participants will be prospectively recruited from specialised Paediatric Allergy clinics in London and will undergo skin prick testing (SPT), specific IgE testing to allergen extracts and allergen components, basophil activation test (BAT) and oral food challenge. The diagnostic accuracy of the BAT and of other allergy tests will be assessed against the clinical gold-standard.
In this study the investigators aimed to evaluate diagnostic accuracy the scoring tool used to determine cow's milk protein allergy, the cow's milk related symptom score, is based on the gastrointestinal, respiratory system and dermatological symptoms being together in young Turkish children.
Cow's milk protein (CMP) allergy is one of the most common food allergies and potentially a fatal one. Early feeding with CMP has been considered in the past as a risk factor for development of CMP allergy in high risk infants. Although other studies argue with this assumption and suggest early exposure to CMP might be protective against atopic dermatitis and CMP allergy. A cohort study that first introduction of CMP after 15-30 days of age, raised the risk for CMP allergy.The aim of this study is to investigate if early and continuous exposure to CMF will decrease CMP allergy rate.
Cow's milk protein allergy is defined as an immunological reaction to one or more milk proteins. A variety of symptoms can be suggestive for cow's milk protein allergy . Cow's milk protein allergy is suspected clinically in 5-15% of infants, while most estimates of prevalence of cow's milk protein allergy vary from only 2 to 5 %. Confusion regarding cow's milk protein allergy prevalence is often due to differences in study populations, study design and a lack of defined diagnostic criteria. The importance of defined diagnostic criteria needs to be emphasised. It precludes infants from an unnecessary diet and avoids delay in diagnosis, which can lead to malnutrition. There are two clinical types of cow's milk protein allergy: the immediate and the delayed type. The immediate type usually presents within minutes after the ingestion of cow's milk protein with urticaria, angio-oedema, vomiting or an acute flare of atopic dermatitis and is present in slightly more than half of the patients with cow's milk protein allergy. Delayed reactions such as atopic dermatitis or gastrointestinal symptoms like proctocolitis or enteropathy usually present after hours or days. Immunologically, cow's milk protein allergy can be IgE or non-IgE mediated. IgE mediated reactions are often of the immediate type. Non-IgE mediated reactions are often cell mediated or mixed cell and IgE mediated and are more difficult to prove by specific testing. The immunological reaction differentiates cow's milk protein allergy from other milk induced pathology such as lactose intolerance. A variety of symptoms can be suggestive for cow's milk protein allergy although none of them is diagnostic. A good medical history remains the cornerstone for the diagnosis. The treatment of cow's milk protein allergy is the dietary elimination of cow's milk proteins. In non-breastfed infants and children less than 2 years of age, a substitute formula is mandatory as prescribed by several international scientific societies. Extensively hydrolyzed formulas are used as therapeutic formulas. An extensively hydrolysed formula is often a whey or casein based formula in which the protein has been chopped up in smaller pieces that are less allergenic. Because of high cross-reactivity (up to 80%) and nutritional inadequacy, the use of any other animal milk or soy-based formula is precluded.The infant should be maintained on an elimination diet until the child is between 9-12 months of age or at least for 6 months, whichever occurs first. In most cases, symptoms will improve substantially within 2-4 weeks if diagnosis is correct. According to consensus in literature, a therapeutic formula is a formula tolerated by at least 90% (with 95% confidence) of cow's milk protein allergy infants. The aim of the investigators study is to show the efficacy, tolerance and nutritional adequacy of a newly developed thickened extensively hydrolyzed formula in infants with a proven cow's milk protein allergy. In all included patients, cow's milk protein allergy will have been diagnosed based on a double blind placebo controlled food challenge, considered as golden standard in cow's milk protein allergy diagnosis. To evaluate efficacy of the formula, the formula has to be tolerated by at least 90% (with 95% confidence) of cow's milk protein allergy infants following literature consensus. A symptom diary will be filled out for this purpose by the patients' parents or legal guardians and the patient will be followed clinically by his doctor several times during the study period. Nutritional adequacy of the formula will be evaluated clinically by following growth and weight several times during the study period and by comparing it to the standard WHO growth curves, based on breastfed infants.
The management of children with confirmed cow's milk allergy is based on complete avoidance of cow's milk proteins and leaves the physician with several dietary options, none of which, given the prevalence, spectrum and potential seriousness of the condition, can be recommended to all patients. In the absence of an alternative to cow's milk, the management of cow's milk allergy is based on the use of safe, affordable and nutritionally adequate formulas. Extensively hydrolyzed cow's milk protein formulas, which are considered as safe for most children with cow's milk allergy, are still liable to contain residual peptides, and hypersensitivity reactions may occur in infants allergic to cow's milk protein. Thus, specific product allergenicity must be addressed on an individual basis before recommending a formula as a substitute for cow's milk. Soy-based formula can also concomitant sensitize cow's milk allergy children to soy. Amino acid-based formulas have been studied from safety and nutritional efficacy perspectives. These formulas have been proposed for subjects highly sensitive to cow's milk protein and that cannot be managed using extensively hydolyzed formula and for children with multiple food allergies. In these conditions aminoacid based formulas are able to effectively cure allergic symptoms and to improve body growth.
Food allergy (FA) derives from a dysregulation of oral tolerance mechanisms. Studies suggest a crucial role for enteric microflora in oral tolerance development. An altered composition of intestinal microflora results in an unbalanced local and systemic immune response to food allergens. There are qualitative and quantitative differences in gut microbiota composition in children with food allergy. These findings support the concept that specific beneficial bacteria from human intestinal microflora, designated probiotics, could restore intestinal microflora homeostasis and prevent or treat FA.
Lactobacillus GG (LGG) is able to exert long lasting effects in children with atopic disorders. We have shown that Nutramigen LGG accelerates tolerance acquisition in infants with cow's milk allergy (CMA). 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 CMA (i.e., IL-4, IL-5, IL-10, IFN-γ , TGF-beta, and TNF-alfa), which can contribute to modulation of inflammatory processes. We 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 miRNA (miR-21) that is critical for the regulation of Th cell polarization.
Oral immunotherapy (OIT) programs for milk, egg and peanut, desensitize patients to their respective allergens and thereby decrease their risk of morbidity and mortality. OIT programs, however, are not without adverse events, particularly in highly sensitive patients. Recently, it has been demonstrated that the administration of baked milk (BM) products to IgE-CMA patients that are non-reactive to BM, can promote tolerance to unheated milk (UM). The goal of our research is to determine whether BM can promote desensitization even in the highly sensitive patient, who reacts to baked milk as well. In a second step, we hypothesize BM-OIT will promote desensitization to unheated milk, as well. Importance: The change in the risk/benefit ratio of such a program will alter the therapeutic approach to an IgE-CMP allergic patient. Probable implications to Medicine: BM-OIT will allow highly sensitive patients to tolerate milk products, decreasing their risk of life-threatening reactions. Furthermore, analysis of the immune modulation parameters that change during the treatment program, should pave the way for defining mechanisms underlying tolerance in CMP allergy.