Abstract: | Bates, Jason H. T., Thomas F. Schuessler, Carrie Dolman, andDavid H. Eidelman. Temporal dynamics of acute isovolume bronchoconstriction in the rat. J. Appl.Physiol. 82(1): 55-62, 1997.The time course oflung impedance changes after intravenous injection of bronchial agonisthave produced significant insights into the mechanisms ofbronchoconstriction in the dog (J. H. T. Bates, A.-M. Lauzon, G. S. Dechman, G. N. Maksym, and T. F. Shuessler. J. Appl.Physiol. 76: 616-626, 1994). We studied the timecourse of acute induced bronchoconstriction in five anesthetizedparalyzed open-chest rats injected intravenously with a bolus ofmethacholine. For the 16 s immediately after injection, we held thelung volume constant while applying small-amplitude flow oscillationsat 1.48, 5.45, and 19.69 Hz simultaneously, which provided us withcontinuous estimates of lung resistance(RL) and elastance(EL) at eachfrequency. This procedure was repeated at initial lung inflationpressures of 0.2, 0.4, and 0.6 kPa. BothRL andEL increased progressively aftermethacholine administration; however, the rate of change ofEL increased dramatically asfrequency was increased, whereas RL remained relativelyindependent of frequency. We interpret these findings in terms of athree-compartment model of the rat lung, featuring two parallelalveolar compartments feeding into a central airway compartment. Modelsimulations support the notions that both central airway shunting andregional ventilation inhomogeneity developed to a significant degree inour constricted rats. We also found that the rates of increase in bothRL andEL were greatly enhanced as theinitial lung inflation pressure was reduced, in accord with the notionthat parenchymal tethering is an important mechanism limiting theextent to which airways can narrow when their smooth muscle isstimulated to contract. |