Bronchial inflammation in mild asthma has been investigated using bronchoscopical techniques. The safety of bronchoscopy in patients with more severe asthma has been questioned. We have used the non-invasive technique of hypertonic saline (HS) inhalation to induced sputum samples for cellular analysis whilst simultaneously yielding a measure of bronchial responsiveness. Ten normal subjects and a heterogenous group of 24 asthmatic patients (range % predicted FEV1 43.3-111.5) underwent HS challenge. Sputum samples induced were analysed. Total and differential cell counts between the two groups were compared. The association between bronchial responsiveness to HS and sputum cell counts was examined in the asthma group. Mean maximum fall in FEV1 for normal subjects was 4.0 (2.1-5.9, 95% CI)% after saline. Geometric mean PD20HS for asthma patients was 7.7 (range 0.68-40.92)ml. Adequate sputum samples were obtained from 9/10 normals and 23/24 asthmatic patients. Sputum from normal subjects contained a median of 3.8 (2.8-8.1, interquartile range)% eosinophils compared with 17.6 (8.9-34.1)% in sputum from asthma patients (P < 0.001). Sputum from asthma patients contained fewer of all other cell types compared with normals, with the difference in macrophages reaching significance. There was no correlation between PD20HS and cell count for any cell type in asthma subjects. Analysis of induced sputum represents a simple, safe, non-invasive and well-tolerated method of assessment of bronchial inflammation, suitable for use in patients with a range of asthma severity. There was no relationship between inflammation, as assessed by sputum cell counts and a measure of 'indirect' bronchial responsiveness.
Idiopathic persistent nonproductive cough (PNPC) is characterized by enhanced cough sensitivity to inhaled capsaicin, suggesting that capsaicin-sensitive afferent airway nerves are either present in increased numbers or functionally upregulated. In 16 patients with idiopathic PNPC and eight healthy control subjects, we measured cough sensitivity to inhaled capsaicin and the anatomic density in bronchial epithelium of nerves immunoreactive for the general nerve-marker protein gene product (PGP)-9.5 and the sensory neuropeptides calcitonin-gene-related-peptide (CGRP) and substance-P (SP). The log concentrations of capsaicin required to elicit at least two (C2) and five (C5) coughs were significantly lower in patients (P) than in control subjects (C) (median [range] log C2, P = 0.3 [-0.3 to 1.2] microM; C = 1.5 [0.9 to 2.1], p < 0.0005; log C5, P = 0.8 [-0.3 to 2.1]; C = 2.6 [1.8 to 3.0], p < 0.0005). In bronchial epithelium taken from the carina of the right upper lobe (RUL) and a subsegmental carina of the right lower lobe (RLL), total nerve density (PGP-9.5 immunoreactivity) was greater in P than C, although this was not significant. CGRP-immunoreactive nerve density was significantly higher in P than in C in the RUL (median [range] P = 1.05% [0.13 to 5.08]; C = 0.02% [0 to 0.24], p = 0.001) and RLL (P = 0.59% [0.04 to 3.14]; C = 0% [0 to 0.50], p < 0.02). SP-immunoreactive nerves were not significantly different in the two groups. Abnormal intraepithelial airway nerves containing increased quantities of CGRP are present in patients with idiopathic PNPC.(ABSTRACT TRUNCATED AT 250 WORDS)
A patient with primary adenocarcinoma with yolk sac and trophoblastic differentiation occurring in Barrett's esophagus is reported. Yolk sac differentiation at this site has not been described previously. The diagnosis of germ cell differentiation initially was suggested by the finding of elevated serum tumor marker levels. The patient experienced disease remission after cytotoxic chemotherapy. Germ cell differentiation may be difficult to identify in small biopsy samples, which may not be representative of the tumor as a whole. The finding of germ cell differentiation defines therapy and predicates for a relatively good prognosis, which is in contrast to adenocarcinoma. Because of the significance of germ cell differentiation in the selection of appropriate therapy, immunostaining for germ cell tumor markers is suggested in all patients with adenocarcinoma who are younger than 50 years.
Respiratory tract nerves have cell bodies outside (sensory, sympathetic) and inside (parasympathetic) the organ and contain bioactive peptides. These include calcitonin gene-related peptide and tachykinins (sensory nerves), vasoactive intestinal polypeptide (parasympathetic nerves), and neuropeptide with tyrosine (sympathetic nerves). Because transplantation interrupts the extrinsic nerve supply to the tissues, we have examined transplanted human respiratory tracts (n = 11) removed at retransplantation 2 to 42 months after the primary transplant in order to determine whether any nerves and peptide synthesis persist. As controls to establish nerve distribution in human respiratory tract, tissues were obtained from 10 lung resections and five autopsies. Cryostat sections were immunostained to demonstrate the general neural marker PGP 9.5, neuropeptides, and the catecholamine-synthesizing enzyme tyrosine hydroxylase. Nerves immunoreactive for PGP 9.5 were detected in all transplanted tissues. They were fewer in number overall than in control tissue, significantly so in epithelium of trachea and bronchus where they were present sparsely in only three cases. Nerves immunoreactive for tyrosine hydroxylase were significantly fewer in the transplants. Peptide-immunoreactive nerves were also reduced in number in the transplants, except for vasoactive intestinal polypeptide, which was only significantly changed in blood vessels in the lung. Ganglion cells immunoreactive for tyrosine hydroxylase and neuropeptide with tyrosine were seen in the transplanted tissues in five cases, but never in the control tissues. We conclude that whereas some nerves and neuropeptide synthesis persist after extrinsic pulmonary denervation, potentially significant changes also occur, including the appearance in intrinsic parasympathetic neurones of immunoreactivity for a catecholamine-synthesizing enzyme and a peptide normally found in sympathetic nerves.
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