We assessed the effects of neurokinin (tachykinin) depletion by capsaicin (CAP) treatment on airway inflammation induced by repeated ovalbumin (OA) aerosol exposures (twice a week for 4 wk) in guinea pigs. The animals were then anesthetized, tracheostomized, mechanically ventilated and challenged with ovalbumin aerosol. Maximal values of respiratory system resistance and elastance after antigen challenge were significantly lower in capsaicin-treated guinea pigs than in intact animals (p < 0.001). Morphometric analysis of noncartilaginous airways revealed less intense bronchoconstriction (p < 0.001) and peribronchiolar edema (p < 0.001) in capsaicin-treated guinea pigs. Chronic antigen exposure resulted in a significant increase in lymphocytes and eosinophils both in bronchoalveolar lavage (BAL) fluid and airway wall. Immunohistochemistry with monoclonal antibodies revealed that most of the lymphocytes present in airway wall were CD4+ T cells. Capsaicin treatment resulted in values of CD4+ T cells in airway wall significantly lower than non-capsaicin-treated guinea pigs (p < 0.005). This difference was not observed in eosinophil recruitment. Our results suggest that neurokinin release by sensory nerve terminals results in an amplification of the pulmonary inflammatory changes induced by chronic antigen exposure. In addition, neurokinins play a role in T-cell recruitment induced by chronic allergen exposure.
In 16 anesthetized paralyzed mechanically ventilated rats, respiratory system mechanics and rib cage dimensions were determined both before and after wide abdominal opening. In eight animals the end-inflation occlusion method disclosed statistically significant postoperative increases in respiratory system elastance (from 4.84 to 6.49 cmH2O.ml-1) and resistance (from 0.224 to 0.300 cmH2O.ml-1.s); the latter resulted from a rise of its uneven component (from 0.161 to 0.209 cmH2O.ml-1.s). In the remaining rats, rib cage morphometry at functional residual capacity after surgery showed significant decreases in lower rib cage circumference and anteroposterior and lateral diameters, whereas there was an increase in upper rib cage circumference and a fall in its lateral diameter. When these parameters were measured at end-inspiratory lung volume, the difference between intact and open abdomen were less striking; only lower rib cage circumference and upper rib cage lateral diameter significantly decreased postoperatively. Because surgery induced an expiratory volume of only 0.1 ml, it can be concluded that abdominal opening redistributed regional volumes within the lung, leading to increased unevenness in the system.
We studied the effects of selective depletion of neurokinins in sensory nerve fibers by capsaicin treatment on the airway and pulmonary tissue responses to methacholine. Dose-response curves to aerosolized methacholine were performed on anesthetized and mechanically ventilated Wistar rats. Capsaicin (50 mg/kg sc) was administered to 2-day-old rats, and the animals were studied after 12 wk. The response to each dose of methacholine was determined by measuring changes in airway resistance (R(aw)), dynamic pulmonary elastance (Edyn), and pulmonary tissue resistance (Rtis). We calculated sensitivity (Kx) as the concentration of methacholine required for a one-half maximal response and reactivity as the relationship between the maximum response and Kx. Capsaicin treatment resulted in significantly greater values of Kx and lower values of reactivity for R(aw), Edyn, and Rtis compared with control rats. Morphometric analysis of airways showed similar values of the area occupied by smooth muscle but a significantly lower (P < 0.02) area of airway epithelium in capsaicin-treated rats. Our results suggest that methacholine requires capsaicin-sensitive nerves for part of its airway and lung tissue effects.
In six sedated, anesthetized, paralyzed, and mechanically ventilated guinea pigs, total respiratory system (RT,rs), lung, and chest wall resistances and respiratory system (Est,rs), lung, and chest wall (Est,w) elastances were determined before and after longitudinal laparotomy. Furthermore the resistances were also split into their initial and difference components, with the former reflecting the Newtonian resistances and the latter representing the viscoelastic/inhomogeneous pressure dissipations in the system. For such purpose the end-inflation occlusion during constant inspiratory flow method was used. During laparotomy, a statistically significant increase in respiratory system difference resistance (from 0.086 to 0.101 cmH2O.ml-1.s) significantly augmented RT,rs (from 0.157 to 0.167 cmH2O.ml-1.s). The former was entirely secondary to a significant increase in chest wall difference resistance (0.019 to 0.034 cmH2O.ml-1.s), which naturally raised chest wall total resistance (from 0.030 to 0.047 cmH2O.ml-1.s). Est,rs and Est,w also increased (14.7 and 13.1%, respectively) after abdominal incision. It can be concluded that the midline xiphipubic laparotomy accompanied by the bilateral ventrodorsal infracostal incision increases RT,rs as a consequence of augmented chest wall difference resistance and Est,rs as a result of higher Est,w.
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