Abstract

We have developed a new immunodiagnostic system whichmeasures personal allergen exposure and which can beused to identify allergens.Personal exposure is directly sampled using inertialimpaction filters which fit just inside the nose andcollect particles (mainly >5 µm) inhaled duringnormal respiration. These samplers provide both anindex of personal exposure as well as being aninexpensive and portable sampling system.The particles are captured on adhesive tapes which arethen laminated with a protein-binding membrane. Theallergens eluting from the particles are bound by the membrane in theperiphery of each particle. The systemthen uses either allergen-specific monoclonalantibodies or the subject's IgE as primary probes toimmuno-label the `halo' of allergen around individualallergen-containing particles. Such an assay is verysensitive and can detect a single particle carryingallergens. In addition, the system providesinformation on the size, shape and allergen content ofthe particles. Because the particles carryingallergens can be seen, high resolution video images ofpollen grains and fungal spores can be subjected to atraditional morphological study or a range of featureextraction routines. This information can be comparedto a database of some known allergenic pollen grainsand fungal spores which we have also assembled tofacilitate their identification. When using monoclonal antibodies as the probe, thesystem determines the amount of allergen the subjectis exposed to and the characteristics of the particles(size, shape, etc). When using the subject's IgE as theprobe, the system allows visualisation of the allergensources that an individual is allergic to. The systemmay have clinical applications in quantifying personalexposure as well as identifying allergens anddetermining exposure to unsuspected allergens.

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