Penelope A. Hansen scite author profile

Eosinophilic bronchopneumopathy was diagnosed in 23 young dogs. Clinical signs included cough, gagging, and retching in all dogs, dyspnea in 21 dogs (91%), and nasal discharge in 12 dogs (52%). The most common radiographic findings were a moderate to severe bronchointerstitial pattern (68%, 13 of 19 dogs). Bronchoscopic findings included the presence of abundant yellow-green mucus or mucopurulent material (70%, 16 of 23 dogs) and severe mucosal thickening with an irregular or polypoid appearance (52%, 12 of 23 dogs), with partial airway closure during expiration in 3 dogs (13%). Peripheral blood eosinophilia was noted in 14 of 23 dogs (61%). Inflammatory cells in brush or bronchoalveolar lavage fluid cytologic preparations comprised more than 50% eosinophils in 14 of 23 dogs (61%), and 20-50% eosinophils in 6 dogs (26%). Eosinophilic infiltration of the bronchial mucosa was observed in biopsies from 19 dogs and was graded as mild (37%, 7 dogs), moderate (32%, 6 dogs), or severe (32%, 6 dogs). The mean serum immunoglobulin A concentration was almost double that of a population of 20 healthy dogs of various breeds. Oral glucocorticoids were administered on alternate days with progressive tapering of the dose; the dosage at maintenance varied between 0.1 and 1.0 mg/kg every other day. No relationship was found between the duration of clinical signs and the maintenance dosage or the cytologic and histopathologic grades.

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Eosinophilic Bronchopneumopathy in Dogs

Clercx

Peeters

Snaps

et al. 2000

Veterinary Internal Medicne

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Eosinophilic bronchopneumopathy was diagnosed in 23 young dogs. Clinical signs included cough, gagging, and retching in all dogs, dyspnea in 21 dogs (91%), and nasal discharge in 12 dogs (52%). The most common radiographic findings were a moderate to severe bronchointerstitial pattern (68%, 13 of 19 dogs). Bronchoscopic findings included the presence of abundant yellow‐green mucus or mucopurulent material (70%, 16 of 23 dogs) and severe mucosal thickening with an irregular or polypoid appearance (52%, 12 of 23 dogs), with partial airway closure during expiration in 3 dogs (13%). Peripheral blood eosinophilia was noted in 14 of 23 dogs (61%). Inflammatory cells in brush or bronchoalveolar lavage fluid cytologic preparations comprised more than 50% eosinophils in 14 of 23 dogs (61%), and 20–50% eosinophils in 6 dogs (26%). Eosinophilic infiltration of the bronchial mucosa was observed in biopsies from 19 dogs and was graded as mild (37%, 7 dogs), moderate (32%, 6 dogs), or severe (32%, 6 dogs). The mean serum immunoglobulin A concentration was almost double that of a population of 20 healthy dogs of various breeds. Oral glucocorticoids were administered on alternate days with progressive tapering of the dose; the dosage at maintenance varied between 0.1 and 1.0 mg/kg every other day. No relationship was found between the duration of clinical signs and the maintenance dosage or the cytologic and histopathologic grades.

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Use of pituitary cells in primary culture to study the regulation of gonadotropin hormone (GtH) secretion in rainbow trout: Setting up and validating the system as assessed by its responsiveness to mammalian and salmon gonadotropin releasing hormone

Weil

Hansen

Hyam

et al. 1986

General and Comparative Endocrinology

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To study the regulation of gonadotropin secretion in rainbow trout in vitro, a method for preparing primary cultures of dispersed pituitary cells is described. Cells were dispersed by collagenase 0.1% in Hank's saline solution for 20 hr at 12 degrees and a high yield of viable cells was obtained. Attempts to improve cell functioning were made by varying culture conditions (density of cells initially plated, age of the culture). Cell functioning was assessed by their ability to respond to increasing doses of mammalian and salmon GnRH. Pituitaries were collected from spermiating males whose pituitaries are known to be sensitive to mammalian GnRH in vivo. Using 96-well plates, optimal conditions for good biological activity, are initial plating with 6.2 X 10(4) cells, incubation with GnRH for 24 hr on the third day after plating. In these conditions mammalian analog and salmon GnRH induced an increase in GtH release for doses ranging from 10(-9) to 10(-6) M. The GtH released during the GnRH incubation period does not decrease the sensitivity of the system since addition of 20 ng of GtH at the beginning of incubation does not modify the response profile.

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An Immunologic Investigation of Canine Eosinophilic Bronchopneumopathy

Clercx

Peeters

German

et al. 2002

Veterinary Internal Medicne

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Immunologic variables in dogs with eosinophilic bronchopneumopathy (EBP) have not been extensively evaluated. The aim of this study was to determine immunoglobulin (Ig) concentrations and to perform phenotypic subtyping of lymphocytes in the bronchoalveolar lavage fluid (BALF) and peripheral blood (PB) of 12 dogs with EBP at the time of diagnosis (TD) and to compare these data with those obtained in healthy dogs, as well as in EBP dogs after antibiotic therapy (TAB) and during corticosteroid treatment (TM). Matched samples of serum and BALF were used to determine Ig concentrations (IgG, IgM, and IgA) by capture enzyme-linked immunosorbent assay (ELISA), from which a secretory index (SI) was calculated. Lymphocyte subpopulations were studied in the BALF and PB by flow cytometry. Log values of BALF IgM and IgA were significantly higher (0.64 Ϯ 0.05 and 1.06 Ϯ 0.13, respectively) in EBP dogs at TD than in controls and then tended to decrease at TM (0.55 Ϯ 0.03 and 1.02 Ϯ 0.17, respectively). A calculated SI for IgA was not significantly increased. In the BALF of dogs with EBP, the CD4 : CD8 was significantly (P Ͻ .05) higher (22.6 Ϯ 30.3) than in controls (3.2 Ϯ 1.9), due to significantly higher CD4 ϩ T cells and lower CD8 ϩ T cells. At TM, the BALF T-cell percentages returned to normal (2.4 Ϯ 0.6). We propose that the influx of eosinophils into the airway of dogs with EBP is at least in part mediated by cytokines derived from CD4 ϩ T cells. Further studies of canine cytokines and chemokines will help determine whether canine EBP involves type I hypersensitivity mechanisms regulated by Th2 lymphocytes.

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