Reversed-phase allergen microarrays on optical discs for multiplexed diagnostics of food allergies.

A high percentage of the population suffers from multiple food allergies justifying  the importance of reliable diagnostic methods. Single-analyte solutions based on the determination of specific immunoglobulins E (sIgE) are safe and fast but are generally time-consuming and expensive. Thus sustainable microanalytical methods that provide multianalyte profiling information are highly demanded. This work presents the in vitro biosensing of specific IgE levels based on a reversed-phase allergen array. The approach consists of optical biosensing supported by direct multiplex immunoassays and on-disc technology. It identifies 12 sIgE associated with food allergies in a single analysis with a low serum sample volume (25 µL). After processing captured images, specific signals for each target biomarker correlate to their concentration. The assay analytically performs well with 0.3 IU/mL and 0.41 IU/mL as the detection and quantification limits in serum, respectively. This novel method achieves excellent clinical specificity (100%) and high sensitivity (91.1%), considering the diagnosis obtained by clinical history and ImmunoCAP analysis. The results demonstrate that microanalytical systems based on allergen arrays can potentially diagnose multiple food allergies and are easily implemented in primary care laboratory settings.

An ultra-sensitive homologous chemiluminescence immunoassay to tackle penicillin allergy.

Penicillin is one of the most widely used antibiotics to treat bacterial infections in clinical practice. The antibiotic undergoes degradation under physiological conditions to produce reactive compounds that in vivo bind self-proteins. These conjugates might elicit an immune response and trigger allergic reactions challenging to diagnose due to the complex immunogenicity. Penicillin allergy delabeling initiatives are now part of antibiotic stewardship programs and include the use of invasive and risky in vivo tests. Instead, the in vitro quantification of specific IgE is highly useful to confirm immediate allergy to penicillins. However, discrepant results associated with the low sensitivity and accuracy of penicillin allergy in vitro tests have limited their routine diagnostic use for delabeling purposes. We aimed to develop a homologous chemiluminescence-based immunochemical method for the reliable determination of specific IgE to penicillin G, using unprecedented synthetic human-like standards. The synthetic standard targets the major antigenic determinant of penicillin G and the paratope of Omalizumab, acting as human-like specific IgE. It is a potent calibrator, highly stable, easy, and inexpensive to produce, overcoming the limitations of the pooled human serum preparations. The developed method achieved a good agreement and strong positive relationship, reaching a detection limit below 0.1 IU mL-1 and excellent reproducibility (RSD <9%). The clinical sensitivity of the assay significantly increased (66%), doubling the accuracy of the reference method with an overall specificity of 100%. The new diagnostic strategy compares favorably with results obtained by the standard procedure, paving the way towards the standardization of penicillin allergy testing, and enhancing the detection sensitivity of specific IgE in serum to tackle reliably ß-lactam allergy delabeling.

Efficacy of subcutaneous house dust mite immunotherapy in patients with moderate to severe allergic rhinitis.

Aim: To evaluate the efficacy of subcutaneous immunotherapy (SCIT) for the treatment of allergy to house dust mites (HDM) in adults with moderate/severe allergic rhinitis (AR). Methods: Patients sensitized to HDM were randomized to SCIT plus rescue medication (Group A, n = 38) or rescue medication alone (Group B, n = 18), and assessed at baseline and 2, 6 and 12 months. Results: At month 12, Group A presented significant improvement with respect to baseline as evaluated by a visual analogue scale at three concentrations of antigen (0.1, 1 and 10 IR/ml; p < 0.0001). Group A presented significant decreases in symptom scores after 2 months of treatment, which were maintained after 1 year. After 12 months of treatment, Group A showed rescue medication consumption reductions (p < 0.001) and quality of life improvements (p < 0.0001). SCIT elicited a strong immunological response and was well tolerated. Conclusion: SCIT is efficacious for HDM allergy in patients with AR, generating a strong immunological response. Trial Registration Number: EUCTR2009-018155-16-ES (Cochrane Central Register of Controlled Trials).

Allergic rhinitis is a common disease that can be treated by exposing the patient to small quantities of the agents triggering the allergy. In this study, allergic patients were injected with extracts of house dust mites over a period of 12 months, and the status of the patient was evaluated at the initiation of treatment and at 2, 6 and 12 months. The study showed that the allergic rhinitis symptoms improved after only 2 months of treatment with the extract and were sustained after 1 year. Also, other medication to treat the rhinitis was reduced with the treatment, and quality of life improved. Overall, the study suggests that treatment with injections of extracts of house dust mites can help patients with allergic rhinitis.

Synthesis of skeletally diverse ß-lactam haptens for the in vitro diagnosis of IgE-mediated drug allergy.

We present the first synthesis of ß-lactam-derived haptens, leveraging the principles of diversity-oriented synthesis to discover compounds for drug allergy in vitro testing. We designed, synthesised, and performed in vitro immunological evaluation on 18 structurally diverse haptens derived from ß-lactam antibiotics. The antigens obtained with the synthesised haptens allow for the detection of specific anti-ß-lactam immunoglobulins G and E. Excellent diagnostic sensitivity (83%) and specificity (100%) were achieved when the panel of antigens was tested against a cohort of 31 human serum samples using a multiplexed compact disc-based in vitro testing tool. We posit that adopting this strategy could aid ß-lactam delabeling initiatives.

Characterization of anaphylaxis reveals different metabolic changes depending on severity and triggers.

BACKGROUND: Despite the increasing incidence of anaphylaxis, its underlying molecular mechanisms and biomarkers for appropriate diagnosis remain undetermined. The rapid onset and potentially fatal outcome in the absence of managed treatment prevent its study. Up today, there are still no known biomarkers that allow an unequivocal diagnosis. Therefore, the aim of this study was to explore metabolic changes in patients suffering anaphylactic reactions depending on the trigger (food and/or drug) and severity (moderate and severe) in a real-life set-up. METHODS: Eighteen episodes of anaphylaxis, one per patient, were analysed. Sera were collected during the acute phase (T1), the recovery phase (T2) and around 2-3 months after the anaphylactic reaction (T0: basal state). Reactions were classified following an exhaustive allergological evaluation for severity and trigger. Sera samples were analysed using untargeted metabolomics combining liquid chromatography coupled to mass spectrometry (LC-MS) and proton nuclear magnetic resonance spectroscopy (1 H-NMR). RESULTS: 'Food T1 vs T2' and 'moderate T1 vs T2' anaphylaxis comparisons showed clear metabolic patterns during the onset of an anaphylactic reaction, which differed from those induced by drugs, food + drug or severe anaphylaxis. Moreover, the model of food anaphylaxis was able to distinguish the well-characterized IgE (antibiotics) from non-IgE-mediated anaphylaxis (nonsteroidal anti-inflammatory drugs), suggesting a differential metabolic pathway associated with the mechanism of action. Metabolic differences between 'moderate vs severe' at the acute phase T1 and at basal state T0 were studied. Among the altered metabolites, glucose, lipids, cortisol, betaine and oleamide were observed altered. CONCLUSIONS: The results of this exploratory study provide the first evidence that different anaphylactic triggers or severity induce differential metabolic changes along time or at specific time-point, respectively. Besides, the basal status T0 might identify high-risk patients, thus opening new ways to understand, diagnose and treat anaphylaxis.

Multiplexed analytical approaches to beta-lactam allergy in vitro testing standardization.

The suspicion of beta-lactam allergy directly contributes to the prescription of antibiotics that diverge from the guidelines, increasing antimicrobial resistance, one of the biggest threats to global health. In vitro quantification of specific IgE is very useful for monitoring allergy, as it confirms or rules out immediate beta-lactam drug allergy and helps find safe alternative antibiotic stewardship. However, reliable in vitro quantification of specific IgE to beta-lactam antibiotics by immunoassay is challenging because of the difficulty of having selective immunoreagents, mainly beta-lactam antigens, and its low concentration levels in serum. Thus, reliable and sensitive in vitro tests for multiplex detection of allergy to different beta-lactam antibiotics is currently essential for clinical diagnosis. Nevertheless, the lack of standardization of quantitative in vitro methods makes the comparison and interpretation of the results difficult. Here, as proof of concept, we report an improved multiplex microimmunoassay for beta-lactam allergy in vitro testing standardization. The results revealed that homologous calibration allows reliable quantification of specific IgE in human serum at very low concentrations (144 ng L-1). Moreover, the reproducibility of the results increases 2-fold using an internal standard, achieving accurate quantitative information: 93% and 106% recovery for penicillin and amoxicillin, respectively. We simultaneously evaluated the reliability of the improved multiplexed in vitro method in a cohort of 40 human serum samples and achieved excellent agreement (0.99) with a currently used in vitro test.

Phase I study of subcutaneous allergen immunotherapy with Dermatophagoides pteronyssinus in patients with allergic rhinoconjunctivitis with or without asthma.

AIM: A double-blind placebo-controlled study was conducted according to EMA guidelines, to evaluate safety, tolerability and short-term treatment effects of three updosing regimens of Dermatophagoides pteronyssinus subcutaneous allergen immunotherapy. PATIENTS & METHODS: Forty-eight patients were randomized to groups: A (six weekly doses), B (eight weekly doses) or C (eight doses, two clustered doses over 3 weeks).  RESULTS: The most frequent adverse events were local reactions. No serious adverse events were found. Severe systemic reactions were reported more frequently in Group C. Decreased cutaneous responses and increased specific IgGs were shown in all active groups, even within the short-term. CONCLUSION:  Dermatophagoides pteronyssinus subcutaneous allergen immunotherapy in depot presentation exhibited good safety and tolerability. Group A seemed to show the best profile for further clinical development.