Pilot Study: Characterization of the Immune Phenotype of Patients Allergic to Wasp Venom or Penicillin
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Allergy
- Sponsor
- Institut Pasteur
- Enrollment
- 10
- Locations
- 2
- Primary Endpoint
- Immune phenotype of allergic patients
- Status
- Completed
- Last Updated
- last year
Overview
Brief Summary
Severity of allergic reactions are highly variable from one individual to another, they can range from absent to life threatening. Allergic manifestations and specifically those of anaphylactic reactions are generally attributed to an IgE-dependent activation of mast cells and/or basophils followed by the release of histamine. Recently however evidence accumulated that other pathways might similarly contribute or even trigger anaphylaxis. Moreover, while the variance in human populations is an important subject to scientific research, medical practices and public health policies typically take a 'one for all' approach to disease management and drug development. Indeed, individual heterogeneity in the immune response can have a big impact on the likelihood to respond to therapy. Because of the complexity of immune responses in the individual and within the population, it has not been possible thus far to define the parameters (genetic or environmental) that define the immune system of allergic patients and its natural occurring variability. Thanks to the efforts that have been made in the framework of the Labex "Milieu Intérieur" study genetic, immunological and environmental factors have been identified that can be linked to the heterogeneity of immune responses in healthy individuals. By comparing these already available data from healthy individuals to a novel cohort of patients with defined severe allergic manifestations, we will be able to identify for the first time immunological and environmental parameters that are common to patients with severe allergies and identify those parameters that distinguish allergic patients from the healthy donor cohort. This analysis will thus open new perspectives on deregulated immune pathways in allergic patients allowing to orient future treatment approaches. Furthermore, comparing immune responses before and after allergen-specific immunotherapy will help understanding, which changes in immune responses are causal to a successful treatment. Importantly, this analysis will shed light on the individual differences that may predict the outcome of treatment approaches and propose novel markers of its success.
Detailed Description
Severity of allergic reactions are highly variable from one individual to another, they can range from absent to life threatening. Allergic manifestations and specifically those of anaphylactic reactions are generally attributed to an IgE-dependent activation of mast cells and/or basophils followed by the release of histamine. Recently however evidence accumulated that other pathways might similarly contribute or even trigger anaphylaxis. Moreover, while the variance in human populations is an important subject to scientific research, medical practices and public health policies typically take a 'one for all' approach to disease management and drug development. Indeed, individual heterogeneity in the immune response can have a big impact on the likelihood to respond to therapy. Because of the complexity of immune responses in the individual and within the population, it has not been possible thus far to define the parameters (genetic or environmental) that define the immune system of allergic patients and its natural occurring variability. Thanks to the efforts that have been made in the framework of the Labex "Milieu Intérieur" study genetic, immunological and environmental factors have been identified that can be linked to the heterogeneity of immune responses in healthy individuals. By comparing these already available data to a novel cohort of patients with defined severe allergic manifestations, we will be able to identify for the first time immunological and environmental parameters that are common to patients with severe allergies and identify those parameters that distinguish allergic patients from the healthy donor cohort. This analysis will thus open new perspectives on deregulated immune pathways in allergic patients allowing to orient future treatment approaches. Furthermore, comparing immune responses before and after allergen-specific immunotherapy will help understanding, which changes in immune responses are causal to a successful treatment. Importantly, this analysis will shed light on the individual differences that may predict the outcome of treatment approaches and propose novel markers of its success. Hence, it will give important insights for the individually adapted treatment of patients.
Investigators
Eligibility Criteria
Inclusion Criteria
- •Allergic subjects having done either an allergic reaction at least of grade 3 according to Müller1 or a quincke edema in response to a wasp sting or penicillin intake, otherwise considered as healthy by the investigator based on medical history, clinical examination and laboratory results (blood sampling for laboratory assessments should be done at V0 and only after signed informed consent).
- •Subjects who, according to the investigator, can and will comply with the requirements of the protocol and are available for all scheduled visits at the investigational site.
- •Wasp or penicillin allergic but otherwise healthy male and female aged between 20 and 69 years.
- •18.5 \<= BMI \>= 32 kg/m2
- •Ability to give their consent in writing
- •Must understand spoken and written French
- •Affiliated to the French social security or assimilated regimes
Exclusion Criteria
- •Subjects who cannot participate according to their status on the registry mentioned at Art L.1121-16 of the French Public Health Code
- •Participation in another Clinical study in the last 3 months in which the subject has been exposed to an investigational product (pharmaceutical product or placebo or medical device) or concurrent participation in another clinical study during the study period
- •Travel in (sub-)tropical countries within the last 3 months
- •For women: pregnant or breastfeeding or intending to become pregnant or peri-menopausal
- •Any physical exercise within the last 8 hours before inclusion (V1) and before (V2)
- •Presence of evidence of neurological or psychiatric diagnoses which, although stable, are deemed by the investigator to render the potential patient unable/unlikely to participate in the study satisfactorily.
- •Severe/chronic/recurrent pathological conditions,
- •Chronic administration (defined as more than 14 days) of immunosuppressants or other immune-modifying drugs within the 6 months prior to the V0, V1 or V
- •For corticosteroids, this will mean a dose equivalent to 20 mg/day of prednisone or equivalent for \> 2 weeks (inhaled and topical steroids allowed)
- •Chronic administration of NSAIDs, including aspirin: prolonged intake (\> 2 weeks) within 6 months before \[exception for low dose aspirin: maximum 250mg/daily, see 5.1\]
Outcomes
Primary Outcomes
Immune phenotype of allergic patients
Time Frame: 3 years
Determination of the immune phenotype of allergic patients through flow cytometric analysis of major blood cell populations
Immune phenotype of allergic patients by determination of cytokine/chemokine levels
Time Frame: 3 years
Measurement of cytokine/chemokine levels in whole bood following stimulation with 6 immune stimulators.
Secondary Outcomes
- Differences in immune responses before and after immunotherapy measured by flow cytometric analysis.(3 years)
- Differences in immune responses before and after immunotherapy(3 years)
- Antibody repertoire determination measured by antigen specific ELISA.(3 years)