The purpose of the study was to investigate whether allergen-induced hyperresponsiveness to methacholine and an increase in airway smooth muscle (ASM) in Brown Norway (BN) rats could be mediated by LTD4, an important mediator of allergic airway responses. Male BN rats, 8 to 12 wk of age, were sensitized with ovalbumin (OA). Rats were exposed 2 wk later to aerosols of saline (n = 6), OA (n = 8), or OA after pretreatment with the LTD4 antagonist MK-571 (2 mg/kg intraperitoneally, n = 9), on six occasions at 5-day intervals. Airway responsiveness to methacholine (the concentration required to double pulmonary resistance, EC200 RL) was measured immediately before the first aerosol exposure and 2 days after the last exposure. ASM was quantitated by morphometry, and areas were standardized for size using the epithelial basement membrane length (BM). Following OA challenges EC200 RL decreased from 6.5 to 3.1 mg/ml (p < 0.05) but did not change significantly after saline or OA exposures in MK-571-pretreated animals. ASM/BM2 in the large airways was significantly greater, 3.41 +/- 0.19 x 10(-3), after OA compared with 2.35 +/- 0.22 x 10(-3) for saline exposures (p < 0.01). The ASM/BM2 after OA exposures but with MK-571 pretreatment (2.75 +/- 0.25 x 10(-3)) was intermediate in value. The results indicate that both the increase in airway responsiveness and the increase in ASM following repeated antigen exposures appear to be mediated predominantly by LTD4.
The purpose of this study was to quantitate the structural changes in the airways of sensitized rats after repeated challenge with aerosolized antigen and to examine the relationship between these changes and alterations in responsiveness to methacholine (MCh). We studied 28 Brown Norway rats that were actively sensitized to ovalbumin (OA). Responsiveness to aerosolized MCh was quantitated as the concentration of MCh required to double pulmonary resistance (EC200 RL). The EC200 RL was determined before and 1 and 5 days after three inhalational challenges with OA (n = 17) or saline (n = 11) at 5-day intervals (on Days 14, 19, and 24 after sensitization). Responsiveness to MCh increased after OA; EC200 RL fell from 1.71 to 0.71 mg/ml at 1 day (p less than 0.01) and 0.87 mg/ml at 5 days (p less than 0.02) after OA but did not change after saline challenge. Formalin-fixed lungs from a sample of OA-challenged (n = 12) and saline-challenged (n = 6) animals were paraffin embedded, and 5-microns sections were stained with hematoxylin-phloxin-saffron. Cross-sectional areas of the airway wall and smooth muscle (ASM) were determined for all intrapulmonary membranous airways. There was an approximately twofold increase in the quantity of airway smooth muscle in airways of OA-challenged animals compared with saline-challenged control animals. Airway wall area did not change significantly. There was a correlation (r = 0.618, p less than 0.05) between the quantity of ASM in large airways (basement membrane length 2.00 to 2.99 mm) and change in responsiveness to MCh.
To identify patients with retinoblastoma whose conditions were diagnosed at the age of 1 month or younger and to describe their clinical features (including ocular and patient survival) and the development of second nonocular tumors. Materials and Methods: A retrospective study of 1831 patients. The cumulative incidence of second cancer development was analyzed using the Kaplan-Meier method. Results: Forty-six patients were identified as having a diagnosis of retinoblastoma at the age of 1 month or younger (mean age, 18.5 days). Family history (31 patients [67%]) exceeded leukocoria (6 patients [13%]) as the most common reason for detection. Twenty-six (56%) of the 46 patients were seen with unilateral retinoblastoma, with 22 ultimately developing cancer in the fellow eye. At the initial diagnosis, 81 (85%) of the 95 tumors were detected in zones 1 and 2. Eighty-two (93%) of the 88 subsequent tumors were located in zones 2 and 3. In the 26 patients who had unilateral retinoblastoma, 16 of the initially affected eyes and 21 of the fellow eyes were salvaged. In the 19 (44%) of 20 patients who were seen initially with bilateral retinoblastomas, 31 (82%) of
To evaluate the hypothesis that lymphocyte stimulation can modify the bronchoconstrictive response to inhalational challenge with an allergen, we administered interleukin-2 (IL-2), an important lymphokine in lymphocyte activation and proliferation, to actively sensitized rats. Brown Norway rats received either human recombinant IL-2 (n = 8) or its vehicle (n = 7) twice a day from the ninth to the fourteenth day after active sensitization to ovalbumin (OA) and were challenged with an aerosol of OA. Lung resistance (RL) during the early response increased to a maximum of 698 +/- 230% and 180 +/- 26% of baseline values in the animals receiving IL-2 and vehicle, respectively (p less than 0.025). The late response was threefold greater in IL-2-treated than in vehicle-treated animals (p = 0.01). IL-2 increased OA-specific IgG levels in the serum, but it did not significantly affect total or specific IgE levels. IL-2 caused an inflammatory infiltrate around the airways with significant increases in eosinophils, lymphocytes, and mast cells prior to antigen challenge. Our results indicate that stimulation of cell-mediated immunity can affect airway responsiveness to antigen.
We compared the effect of maturation upon the maximal pulmonary response to inhaled methacholine in rabbits and also assessed whether there was an age-related difference in the quantity of airway smooth muscle. In sedated, paralyzed, and mechanically ventilated rabbits, pulmonary resistance was measured following increasing doses of aerosolized methacholine (0.5 to 256 mg/ml). The six mature rabbits (6 mo) demonstrated a plateau in their dose-response curves whereas only three of six immature animals (1 mo) had a plateau. The immature compared with the mature animals had a greater maximal increase in pulmonary resistance (950% versus 380%). The lungs were examined by light microscopy to determine morphometrically the area of smooth muscle (ASM) in the airway walls. ASM was normalized for airway size by dividing by the ideal airway area. The normalized ASM was different for the two age groups and the immature animals' airways had more smooth muscle. The relationship between airway size and ASM was similar for the two age groups with smaller airways having proportionately more smooth muscle. The differences with age in ASM area were primarily due to the immature animals having a greater number of airways of small size. There was not a significant relationship between the maximal percent increase in pulmonary resistance and the normalized ASM. We conclude that inhaled methacholine produces a greater maximal increase in the pulmonary resistance of immature than mature rabbits and that this difference is unlikely to be caused by a proportionately greater quantity of ASM in the immature than the mature rabbit airways.
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