Abstract
BACKGROUND: Cow's milk allergy is the most common food allergy worldwide and the top cause of food anaphylaxis fatalities. Identifying patients at higher risk of severe symptoms as well as patients with a lower threshold of reactivity would improve their management. We aimed to assess the utility of putative biomarkers to identify these high-risk patients. METHODS: The severity of allergic reactions to baked milk (BM) and to fresh milk (FM) during oral food challenges (OFC) was assessed prospectively during the BAT2 study (NCT03309488), according to the Practall guidelines. Demographic, clinical and immunological parameters were compared between severe/non-severe and higher/lower threshold reactors to BM or FM. Receiver Operating Characteristic curve analyses were performed to measure the accuracy of biomarkers with discriminative ability. RESULTS: Seventy-one children reacted to cow's milk: 22 (15%) to BM and 49 (43%) to FM. Seven (32%) and 12 (24%) reactors had severe symptoms during OFC to BM and FM, respectively. The median cumulative dose of milk protein tolerated was 0.44 g for BM and 0.143 g for FM. The basophil activation test (BAT) was the only biomarker that could distinguish severity and threshold groups. BAT optimal cut-offs had 71% sensitivity and 100% specificity to identify severe reactors to BM and 96% sensitivity and 41% specificity to identify children reacting to 0.143 g or less of FM. CONCLUSIONS: BAT was the only biomarker for severity and threshold of allergic reactions to BM and FM, respectively. Once applied to clinical practice, BAT can help risk-stratify cow's milk allergic patients and improve their management.