Development of a Multi-Frequency Jet Ventilator for use Under Battlefield Conditions

Abstract

The primary objective of the Phase I study was to investigate the effectiveness of ultra-high frequency jet ventilation in sustaining wounded with penetrating chest injuries. To this effect, an experimental program was undertaken to simulate such injuries on animals by creating a reproducible wound in the laboratory. A bronchopleural cutaneous fistula was surgically induced in ten pigs and their progress with three different modes of ventilation: conventional, conventional jet and ultra-high frequency jet, were monitored. Blood gases and vital signs were taken and the flow through the fistula was measured. The data obtained in these experiments demonstrate a significant benefit in oxygen loading as evidenced by an improved a/A ratio during ultra- high frequency jet ventilation as compared to either conventional jet or conventional ventilation. There was also a marked decrease in the gas flow through the bronchopleural fistula in ultra-high frequency jet ventilation as compared to the other two modes. Statistical analyses confirm that the observed differences were statistically significant. These results indicate that ultra- high frequency jet ventilation offers significant advantages and benefits in ventilating lungs in which a large bronchopleural fistula has formed. A secondary objective was to investigate methods for measuring the resonant frequency of the lung system in conjunction with jet ventilation. Results demonstrated the feasibility of the proposed approach.

Document Details

Document Type

Technical Report

Publication Date

Jun 12, 1987

Accession Number

ADA260320

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