Brigitte Fauroux

and 50 more

Objective The aim of the study was to describe the characteristics of otherwise healthy children with obstructive sleep apnea (OSA; OSA-I) and children with OSA and obesity (OSA-II) treated with long term continuous positive airway pressure (CPAP) or noninvasive ventilation (NIV) in 2019 in France. Design National cross-sectional survey. Patients Children with OSA-I and OSA-II. Main outcome measures Initiation criteria, age, adherence, equipment and settings Results Patients with OSA-I and OSA-II represented 6% (n=84, 71% males) and 10% (n=144, 72% males) of the national cohort, respectively. The apnea-hypopnea index (63% vs 76%), alone or combined with nocturnal gas exchange (25% vs 21%, for OSA-II and OSA-I patients respectively) were used as initiation criteria of CPAP/NIV. OSA-II patients were older at CPAP/NIV initiation (mean age 11.0±4.0 vs 6.8±4.5 years, p<0.001) and were treated for a longer time (2.3±2.6 vs 1.3±1.5 years, p=0.008) than OSA-I patients. NIV was used in 6% of OSA-I patients and 13% of OSA-II patients (p=0.142). Nasal mask was the most used interface in both groups. Mean CPAP level was higher in OSA-II patients as compared to OSA-I patients (8.7±2.0 vs 7.7±2.4 cmH 2O, p=0.02). Objective compliance was comparable (mean use 6.8±2.6 vs 5.9±3.0 hours/night in OSA-I and OSA-II, respectively, p=0.054). Conclusion Six and 10% of children treated with long term CPAP/NIV in France in 2019 had OSA-I and OSA-II, respectively. Both groups were preferentially treated with CPAP and were comparable except for age, with OSA-II patients being older.

Anaïs Valeille

and 7 more

To the editor:Cow’s milk allergy (CMA) is the most common food allergy in children, with a prevalence of 1 to 3% (1). While the vast majority of CMAs clear after five years (2), some children have a persistent and severe disease associated with a risk of life-threatening allergic reactions (3). For those patients, oral immunotherapy (OIT) is now recommended (4); it consists in a tolerance induction by daily ingestion of allergen. However, in the most severe cases which react with a very low quantity of cow’s milk (CM), classic OIT cannot be initiated due to the impossibility of increasing the daily doses of CM. The adjunction of omalizumab, a monoclonal anti-IgE antibody, to OIT (oma-OIT), could be a safe and effective alternative in those cases; however, only a few studies have been published to decisively assess both the safety and efficiency of oma-OIT (5–8). The aim of our study was to evaluate both the effectiveness and safety in an oma-OIT protocol in children with persistent and very severe CMA.In this study performed in Lyon, France, children who initiated an oma-OIT protocol for a persistent and very severe CMA were included. These patients were considered as severely allergic due to failure in initiation of a classic OIT to CM or an history of severe reaction with very small amounts of CM. Initiation of oma-OIT was decided in a concertation meeting of allergist experts in OIT. Briefly, the oma-OIT protocol was performed as following: (1) subcutaneous omalizumab was administrated at a frequency (every 2 or 4 weeks) and a dose that depended on the patient’s weight and total IgE (same dose used as the one recommended for severe asthma); (2) after 16 weeks of omalizumab use alone, OIT was initiated. The induction phase began with the introduction of diluted amounts of CM (first daily dose: 1 mg of CM proteins), followed by introduction of non-diluted doses and daily increases of CM doses until a predefined threshold. Oral food challenges (OFCs) were performed every month or two months at hospital, under the supervision of a medical team trained for the management of high-risk OFCs, in order to establish the cumulative tolerated dose (CTD) and the new threshold to reach by up-dosing. After each OFC, the new threshold was reached at home in one week, and maintained for several weeks, until the next OFC. Allergy tests were usually performed at each OFC (skin prick-test [SPT], specific IgE [sIgE] to CM and CM components and specific IgG4 [sIgG4] to CM, Phadia 250 Thermofisher, Uppsala, Sweden). Additionally, the patients and their parents reported any allergic reactions which occurred at home in a notebook, if applicable. We retrospectively collected the general characteristics of each patient at the initiation of the protocol. We also collected the initial grade and the most severe grade of allergic reactions to CM, using the Ring and Meissmer classification (9), the results of OFCs, the allergy tests and allergic reactions and the use of epinephrine during OFCs and at home. In addition, we collected responses from a satisfaction survey which was completed by the children and their parents after OFC4.In order to evaluate the effectiveness of the initiation of oma-OIT protocol, the primary outcome was the change in the CTD of ingested fresh CM between OFC1 and OFC4. The secondary outcomes were the changes in allergy tests, the occurrence of allergic reactions during OFCs and at home, and the results of the satisfaction survey. Statistical tests were performed using GraphPad Prism version 8.02 for Windows, GraphPad Software, La Jolla California USA, www.graphpad.com.Eight children (3 boys and 5 girls, median age of 14.5 years [12-16]) with very severe CMA who received an oma-OIT treatment were included in this study (Table 1). The median administrated dose of omalizumab was 487.5 mg [300-600] every 2 or 4 weeks. The median time between OFC1 and OFC4 was 127 days [84-427] for a total number of 1,342 ingested doses at home. After four OFCs (Table I and Figure S1), the CTD of CM was significantly increased (median CTD1 = 0.96 mg [0.64;15.04] and CTD4 = 160 mg [12.8;480], 167-fold change, p = 0.0078 ). The anti-CM sIgE moderately decreased (sIgE1 = 476.0 kU/L [227.0;2048.0] and sIgE4 = 460.0 kU/L [97.2;1482.0], change -3.4%, p = 0.0391 ) and ratio anti-CM sIgG4/sIgE increased (sIgG4/sIgE1 = 8.6 [1.8;16.2] and sIgG4/sIgE4 = 17.5 [3.3;223.1], change +103.5%,p = 0.0313 ). There were no significant changes in SPT wheal and anti-CM component sIgEs. During the 32 OFCs performed in the 8 children under oma-OIT, 8 allergic reactions occurred in 6 children: 4 were grade 1 and 4 grade 2 according to the Ring and Meissner classification. These children were treated with oral antihistamine; none needed an epinephrine administration. Among the 1,342 ingested doses at home, two doses induced allergic reactions in two children: one grade 2 and one grade 3. The severe reaction was treated by epinephrine at home. Of note, a reactogenic cofactor (physical activity) without adaptation of the protocol was found for this severe reaction. Finally, all the children and their parents were globally very satisfied with the oma-OIT protocol, even if they expressed relative anxiety due to the risk of adverse reactions during the OFCs and the dose intake (Table S1). Interestingly, omalizumab injections were not considered as a constraint by most of the children and their parents (Table S1).Thus, in this cohort of children with very severe CMA, the adjunction of omalizumab to OIT was effective and globally well tolerated, during the first months of the protocol. The main limitations of our study are the absence of a control group (placebo or no treatment), the limited size of our cohort, and the duration of follow-up. These are preliminary results and they need to be confirmed. Moreover, our patients were more severe than those included in previous studies, in terms of initial CTD and sIgE (5–8). Thus, this preliminary study encourages continuation of further oma-OIT protocols in cohorts of patients with very severe CMA.