Tuberc Respir Dis.  1998 Feb;45(1):99-106. 10.4046/trd.1998.45.1.99.

Early Bronchoconstriction After Allergen Challenge of Nonanesthetized Guinea Pigs

Affiliations
  • 1Department of Internal Medicine, College of Medicine, Korea University, Seoul, Korea.

Abstract

BACKGROUND: Bronchial asthma is a complex disease, which is characterized by spontaneous exacerbations of airway obstruction and persistent bronchial hyperresponsiveness. Animal models have fallen short of reproducing the human disease, particularly in mimicking the spontaneous and persistent airflow obstruction that characterized in asthma. In animals, airflow obstruction is usually assessed by measuring airflow resistance during tidal breathing under such invasive technique as tracheostomy and anesthesia. A noninvasive technique for measuring pulmonary function in small animals is needed to evaluate long-term changes in lung function during the course of experimentally produced disease without sacrificing the animal. PURPOSE: The purpose of this study was to evaluate early bronchoconstrcition after allergen challenge and airway responsiveness (AR) to inhaled methacholine in nonanethetized, unrestrained guinea pigs. METHOD: Guinea pig model of asthma was sensitized by subcutaneous injection with ovalbumin and challenged by inhalation of aerosolized ovalbumin(1% wt/vol ovlabumin). Airflow obstruction of conscious guinea pig was measured as specific airway resistance (airway resistance x thoracic gas volume). Airway resistance and thoracic gas volume of conscious guinea pig were assessed by body plethysmography before challenge and at regular intervals for as long as 30 minutes after challenge. AR to aerosolized methacholine of asthma group was compared with that of control group in body plethysmography. RESULT: Asthma models developed in 13(65%) among 20 guinea pigs, in which early responses occurred in the airways after the exposure to inhalation with ovalbumin. Airway challenge with ovalbumin caused increase in specific airway resistance, which peaked at 6 minutes and amounted to a 231.5+/-30.4% increase from baseline. AR to aerosolized methacholine of asthma model increased significanfly compared with control group.
CONCLUSION
These results have showed a useful animal model to evaluate early bronchoconstrcition after allergen challenge and airway responsiveness in nonanethetized, unrestrained guinea pigs.

Keyword

Animal asthma model; Specific airway resistance; Animal body plethysmography

MeSH Terms

Airway Obstruction
Airway Resistance
Anesthesia
Animals
Asthma
Bronchoconstriction*
Guinea Pigs*
Guinea*
Humans
Inhalation
Injections, Subcutaneous
Lung
Methacholine Chloride
Models, Animal
Ovalbumin
Plethysmography
Respiration
Tracheostomy
Methacholine Chloride
Ovalbumin
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