OBJECTIVE: The object is to design, develop, and test a personal aerosol sampling device consisting of impaction samplers worn just inside the nostrils, driven by the wearer's respiration. The device provides a novel and unique measure of individual exposure to aeroallergens. It was conceived as an integral part of an allergen diagnostic system, in which collected aerosols are immunostained with monoclonal antibodies or the patient's IgE and associated particles positively identified using techniques of image analysis. METHODS: Each sampler comprises a slot impactor with a detachable impaction plate covered with either a specially developed medical adhesive or a protein-binding membrane. Sampler performance has been validated by rig tests of aerodynamic resistance and collection efficiency of different sized particles at various flow rates. There have also been field trials with human subjects which show that the sampler can be comfortably worn for periods of up to 4 hours. This is sufficient to gather a representative sample of inhaled allergens in most environments. RESULTS: The sampler collects an increasing proportion of particles in the inhalable range at and above 5 microm. This includes most bioaerosols of interest to allergists. Sampler prototypes have been built by CNC mill and stereolithography. Batches of samplers have been molded in biocompatible materials for field and clinical trials. CONCLUSIONS: The device successfully collects aeroallergens from a patient's own respiration. While developed specifically as a vehicle for the allergen diagnostic system, it can be adapted for studies of other aspects of air quality or for prophylactic use.
OBJECTIVE: The object is to design, develop, and test a personal aerosol sampling device consisting of impaction samplers worn just inside the nostrils, driven by the wearer's respiration. The device provides a novel and unique measure of individual exposure to aeroallergens. It was conceived as an integral part of an allergen diagnostic system, in which collected aerosols are immunostained with monoclonal antibodies or the patient's IgE and associated particles positively identified using techniques of image analysis. METHODS: Each sampler comprises a slot impactor with a detachable impaction plate covered with either a specially developed medical adhesive or a protein-binding membrane. Sampler performance has been validated by rig tests of aerodynamic resistance and collection efficiency of different sized particles at various flow rates. There have also been field trials with human subjects which show that the sampler can be comfortably worn for periods of up to 4 hours. This is sufficient to gather a representative sample of inhaled allergens in most environments. RESULTS: The sampler collects an increasing proportion of particles in the inhalable range at and above 5 microm. This includes most bioaerosols of interest to allergists. Sampler prototypes have been built by CNC mill and stereolithography. Batches of samplers have been molded in biocompatible materials for field and clinical trials. CONCLUSIONS: The device successfully collects aeroallergens from a patient's own respiration. While developed specifically as a vehicle for the allergen diagnostic system, it can be adapted for studies of other aspects of air quality or for prophylactic use.
Authors: Torie Grant; Ana M Rule; Kirsten Koehler; Robert A Wood; Elizabeth C Matsui Journal: Curr Allergy Asthma Rep Date: 2019-02-12 Impact factor: 4.806
Authors: Diane R Gold; Gary Adamkiewicz; Syed Hasan Arshad; Juan C Celedón; Martin D Chapman; Ginger L Chew; Donald N Cook; Adnan Custovic; Ulrike Gehring; James E Gern; Christine C Johnson; Suzanne Kennedy; Petros Koutrakis; Brian Leaderer; Herman Mitchell; Augusto A Litonjua; Geoffrey A Mueller; George T O'Connor; Dennis Ownby; Wanda Phipatanakul; Victoria Persky; Matthew S Perzanowski; Clare D Ramsey; Päivi M Salo; Julie M Schwaninger; Joanne E Sordillo; Avrum Spira; Shakira F Suglia; Alkis Togias; Darryl C Zeldin; Elizabeth C Matsui Journal: J Allergy Clin Immunol Date: 2017-05-10 Impact factor: 10.793
Authors: Euan R Tovey; Damien Liu-Brennan; Frances L Garden; Brian G Oliver; Matthew S Perzanowski; Guy B Marks Journal: PLoS One Date: 2016-05-18 Impact factor: 3.240