ABSTRACT
The possibilities for using acoustical analysis as a noninvasive measure of the degree of obstruction created by an enlarged pharyngeal tonsil (adenoid) are discussed. The method capitalizes on the relationship which exists between a specific obstruction of the respiratory tract and the resulting respiratory sound. Results indicate that as the adenoid increases in size relative to the size of the nasopharynx, the dominant components of the respiratory sound spectrum shift towards a higher frequency range. Furthermore, the correlation found between the assessments of the obstruction due to various sizes of the adenoid by radiological methods and acoustical analyses supports the theoretical prediction that information on the size of the constriction is carried by the respiratory sound. Therefore, careful analyses of the acoustic patterns in the respiratory sound can assist in identifying constrictions and monitoring the constriction changes in the upper respiratory tract.
