A new ventilator for monitoring lung mechanics in small animals

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A new ventilator for monitoring lung mechanics in small animals

G. A. Volgyesi, L. N. Tremblay, P. Webster, N. Zamel, and A. S. Slutsky

Department of Medicine, Samuel Lunenfeld Research Institute, Mount Sinai Hospital, University of Toronto, Toronto, Canada M5G 1X5

Researchers investigating the genetic component of various disease states rely increasingly on murine models. We have developeda ventilator to simplify respiratory research in small animalsdown to murine size. The new ventilator provides constant-flowinflation and tidal volume delivery independent of respiratoryparameter changes. The inclusion of end-inspiratory and end-expiratorypauses simplifies the measurement of airway resistance and complianceand allows the detection of dynamic hyperinflation (auto-positiveend-expiratory pressure). After bench testing, we performed intravenousmethacholine challenge on two strains of mice (A/J and C57bl/bj)known to differ in their responses by using the new ventilator.Dynamic hyperinflation and a decrease in compliance developedduring methacholine challenge whenever respiratory rates of 60-120breaths/min were employed. In contrast, if dynamic hyperinflationwas prevented by lengthening expiratory time, (respiratory rate= 20 breaths/min), static compliance remained constant. More importantly,the coefficient of variation of the results decreased when lungvolume shifts were prevented. In conclusion, airway challengestudies have greater precision when dynamic hyperinflation isprevented.

mouse; airway challenge; methacholine; airway resistance; total compliance; animal models; asthma

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