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Query: UMLS:C0206061 (interstitial pneumonia)
 6,105 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In 3 male patients, chronic pulmonary sequelae followed influenza virus infection at 5, 24, and 42 months of age. Varying degrees of interstitial fibrosis, bronchial and bronchiolar erosions and metaplasia, obliterative bronchiolitis, and interstitial chronic inflammatory infiltrates were found on lung biopsy. Influenza A/Hong Kong/68 (H3N2) virus was isolated from the lung tissue of one patient 8 weeks after the onset of illness. This is the longest persistence of infectious virus in lung tissue yet reported. Persistent radiographic abnormalities included peribronchial thickening, interstitial densities, bronchiectasis, obliterative bronchiolitis, and segmental atelectasis. Pulmonary function tests showed an obstructive restrictive pattern, with mild improvement after bronchodilation and with deterioration after exercise. These observations suggest that influenza virus infection may be more serious in infants and young children than has been previously recognized and may contribute to the pathogenesis of unexplained interstitial pneumonitis, pulmonary fibrosis, obliterative bronchiolitis, and bronchiectasis.
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PMID:Chronic pulmonary complications of early influenza virus infection in children. 30 85

Previous research has demonstrated that 4-ipomeanol toxicosis can enhance the severity of para-influenza virus-induced pneumonia in mice. The objectives of this study were to determine whether calves are susceptible to 4-ipomeanol-induced enhancement of parainfluenza type 3 viral pneumonia and to determine whether 4-ipomeanol alters pulmonary replication of parainfluenza virus. Male Holstein calves were injected with either 4-ipomeanol (3 mg/kg) or vehicle (polyethylene glycol) 3 days prior to intratracheal inoculation with either parainfluenza virus or sham inoculum of culture medium. Calves in the four treatment groups (ipomeanol-parainfluenza, ipomeanol-medium, vehicle-parainfluenza, and vehicle-medium) were necropsied at 5 days after inoculation with parainfluenza virus or medium. The lungs were studied by correlated methods of light and electron microscopy, digitizing morphometry and pulmonary lavage to quantitate the severity of pneumonia. Pulmonary viral titers were determined, and viral antigen was identified in the lung by immunoperoxidase technique. The calves in the ipomeanol-virus treatment group had over a 9-fold higher (P less than 0.05) volume density of virus-induced interstitial pneumonia than did the calves in the other three treatment groups. This 4-ipomeanol-enhanced viral pneumonia was associated with significantly greater (P less than 0.05) numbers of pulmonary macrophages and neutrophils in the lavage fluid and higher (P less than 0.05) pulmonary titers of pulmonary infectious parainfluenza virus. Four-ipomeanol-enhanced viral pneumonia was characterized in part by extensive hyperplasia of type II alveolar epithelial cells and by dense aggregates of macrophages and neutrophils in alveolar spaces and interalveolar septa. The results indicate that 4-ipomeanol exacerbates interstitial pneumonia in calves induced by bovine parainfluenza type 3 virus.
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PMID:Effects of 4-ipomeanol on bovine parainfluenza type 3 virus-induced pneumonia in calves. 166 Oct 42

The type of lung disease caused by metal compounds depends on the nature of the offending agent, its physicochemical form, the dose, exposure conditions and host factors. The fumes or gaseous forms of several metals, e.g. cadmium (Cd), manganese (Mn), mercury (Hg), nickel carbonyl (Nl(CO)4, zinc chloride (ZnCl2), vanadium pentoxide (V2O5), may lead to acute chemical pneumonitis and pulmonary oedema or to acute tracheobronchitis. Metal fume fever, which may follow the inhalation of metal fumes e.g. zinc (Zn), copper (Cu) and many others, is a poorly understood influenza-like reaction, accompanied by an acute self-limiting neutrophil alveolitis. Chronic obstructive lung disease may result from occupational exposure to mineral dusts, including probably some metallic dusts, or from jobs involving the working of metal compounds, such as welding. Exposure to cadmium may lead to emphysema. Bronchial asthma may be caused by complex platinum salts, nickel, chromium or cobalt, presumably on the basis of allergic sensitization. The cause of asthma in aluminium workers is unknown. It is remarkable that asthma induced by nickel (Ni) or chromium (Cr) is apparently infrequent, considering their potency and frequent involvement as dermal sensitizers. Metallic dusts deposited in the lung may give rise to pulmonary fibrosis and functional impairment, depending on the fibrogenic potential of the agent and on poorly understood host factors. Inhalation of iron compounds causes siderosis, a pneumoconiosis with little or no fibrosis. Hard metal lung disease is a fibrosis characterized by desquamative and giant cell interstitial pneumonitis and is probably caused by cobalt, since a similar disease has been observed in workers exposed to cobalt in the absence of tungsten carbide. Chronic beryllium disease is a fibrosis with sarcoid-like epitheloid granulomas and is presumably due to a cell-mediated immune response to beryllium. Such a mechanism may be responsible for the pulmonary fibrosis occasionally found in subjects exposed to other metals e.g. aluminium (Al), titanium (Ti), rare earths. The proportion of lung cancer attributable to occupation is around 15%, with exposure to metals being frequently incriminated. Underground mining of e.g. uranium or iron is associated with a high incidence of lung cancer, as a result of exposure to radon. At least some forms of arsenic, chromium and nickel are well established lung carcinogens in humans. There is also evidence for increased lung cancer mortality in cadmium workers and in iron or steel workers.
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PMID:Metal toxicity and the respiratory tract. 217 66

The isolation of measles virus in primary Rhesus monkey kidney cells (PRMK) in patients with documented giant-cell pneumonia who have presented without a rash is limited. The diagnosis usually is made by cytologic examination of nasal or bronchial secretions in which characteristic multinucleated giant cells with intranuclear and intracytoplasmic inclusion bodies are observed. The diagnosis of giant-cell pneumonia has been associated with measles virus but not exclusively. Canine distemper, herpes group viruses, and parainfluenza infections have been associated with these cells. In addition, vitamin A deficiency also has been cytologically associated with multinucleated giant cells. The authors describe the isolation of measles virus from bronchial washing and sputum in PRMK cells at 4 days from an 11-year-old child with acute interstitial pneumonia who was in remission for acute lymphocytic leukemia. Classic cytopathologic effect (CPE) consisting of syncytial and hole formation on the PRMK monolayer was apparent. In addition, a foamy appearance of the monolayer was noted in an otherwise clean lot of monkey cells. Confirmatory testing with measles antibody of the infected areas of the monolayer by indirect immunofluorescence (IFA) was positive for measles antigen and negative for mumps, parainfluenza (types I, II, and III) and influenza A and B virus. Serologic studies for measles antibody revealed an IFA IgG titer of greater than 1:10,240, and an IgM titer of 1:128. Cytologic examination of the same bronchial fluid revealed the typical giant cells with characteristic inclusions associated with measles virus. Because this disease usually is severe, and often fatal, prompt recognition of this virus is essential, not only to the patient, who can be treated with immunoglobulin and/or antiviral therapy, but also to prevent the spread of the virus to other patients and medical personnel. These findings also support direct evidence for the etiologic role of measles virus in giant-cell pneumonia that has been detected either histologically or cytologically and in tissue culture at autopsy.
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PMID:Isolation of measles virus in primary rhesus monkey cells from a child with acute interstitial pneumonia who cytologically had giant-cell pneumonia without a rash. 222 Jun 74

Oxidant exposure following chemically induced lung injury exacerbates the tendency to develop pulmonary fibrosis. Influenza virus pneumonitis causes severe acute lung damage that, upon resolution, is followed by a persistent alveolitis and parenchymal changes characterized by patchy interstitial pneumonia and collagen deposition in the affected areas. To determine whether oxidant exposure exacerbates the virus-induced alveolitis and residual lung damage, mice were infected by aerosol inhalation with influenza A virus and continuously exposed to 0.5 ppm ozone or ambient air. Noninfected control mice were exposed to either ambient air or ozone. On various days during the first month after infection, groups of mice were sacrificed and their lungs assessed for acute injury (lung lavage albumin, total and differential cell counts, wet/dry ratios, and morphometry). At 30, 60, 90, and 120 days after infection, groups of mice were sacrificed for total and differential lavage cell counts, lung hydroxyproline content, and morphometric analysis. Ozone exposure did not alter the proliferation of virus in the lungs as quantitated by infectious virus titers of lung homogenates at 1, 4, 7, 10, and 15 days after virus infection but mitigated the virus-induced acute lung injury by approximately 50%. After Day 30 a shift in the character of the pulmonary lesions was observed in that continuous exposure to ozone potentiated the postinfluenzal alveolitis and structural changes in the lung parenchyma. Additional studies suggest that the mechanism for the enhanced postinfluenzal lung damage may be related to the oxidant impairing the repair process of the acute influenzal lung damage. These data demonstrate that ozone exposure mitigates acute virus-induced lung injury and potentiates residual lung damage.
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PMID:Influenza virus infection, ozone exposure, and fibrogenesis. 233 49

Previous studies of influenza virus infections have focused on the acute pathologic manifestations associated with the virus pneumonia; however, there is evidence suggestive of persistent pathologic processes with possible long-term consequences. Herein we have examined the long-term outcome of virus pneumonia in mice infected by aerosol inhalation of a sublethal dose of influenza A/PR8/34 virus. At 3, 5, 7, 9, 15, 30, 60, 90, 120 days, and a year thereafter, the lavageable lung cell populations and differential counts were quantitated. Consistent with previous studies we demonstrated an inflammatory cellular response during the acute phase of the infection. However, this inflammatory response did not completely resolve, the pulmonary leukocytosis remaining stable from Day 30 through a year after virus infection. For example, on Day 30, virus-infected lungs yielded 12.4 +/- 0.9 X 10(5) cells per lavage of which 15 +/- 3% were polymorphonuclear leukocytes, 18 +/- 4% were lymphocytes, and 67 +/- 5% were alveolar macrophages. In contrast, 7.2 +/- 0.5 X 10(5) cells per lavage were obtained from uninfected lungs of which more than 98% were alveolar macrophages. Histopathologic examination of virus-infected lungs showed an ongoing inflammatory response resulting in patchy mononuclear interstitial pneumonia, deposition of collagen in the affected areas, and marked hyperplasia of bronchial-associated lymphoid tissue. Infectious virus could not be recovered after Day 9. However, in contrast to loss of infectivity, viral antigen persisted at high concentrations in the lung. We conclude that influenza virus infection induced a long-term alveolitis that is associated with persistence of viral antigen. These data open the possibility that influenza virus infections may play a role in interstitial lung disease.
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PMID:Alveolitis induced by influenza virus. 662 51

In two patients a documented Texas A2 influenza infection was associated with the development of interstitial pulmonary disease. One patient had an acute fulminating process resulting in respiratory failure and necessitating ventilatory assistance. Open lung biopsy revealed a histologic picture consistent with usual interstitial pneumonia (UIP). The other patient had a subacute course, and the pulmonary histology showed UIP with features of desquamative interstitial pneumonia. The influenza virus may have had an etiologic role in the development of the interstitial lung disease in our two patients.
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PMID:Usual interstitial pneumonia following Texas A2 influenza infection. 694 80

To evaluate the possibility that viral infections can trigger acute exacerbations of idiopathic interstitial pneumonia (IIP), we analyzed data from 105 patients with IIP. Acute exacerbation was defined as an increase in dyspnea, a decrease in PaO2 by more than 10 Torr, and worsening of chest radiographic findings within one month. Viral infection was said to be involved when patients had more than a 4-fold change in viral antibody titer or viral inclusion bodies in sputum during the acute exacerbation. Of the 105 patients with IIP, 30 had acute exacerbations. Among these 30 patients, viral infection was said to be involved in 11 (37%). Presumptive viruses were influenza virus (n = 6), parainfluenza virus (n = 1), herpes simplex virus (n = 1), RS virus (n = 1), and cytomegalovirus (n = 2). The levels of serum immunoglobulin A (IgA) before acute exacerbations were significantly lower (p < 0.05) in patients in whom viral infection was said to be involved. These results suggest that viral infection associated with a low value of serum IgA is an important trigger of acute exacerbations of IIP.
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PMID:[Role of viral infections in acute exacerbation of idiopathic interstitial pneumonia]. 756 97

Five-week-old specific-pathogen-free chickens were inoculated intravenously with one of 16 low-pathogenicity type A influenza virus isolates; 14 were of wild duck origin, and two were of turkey origin. Tubulointerstitial nephritis was the most frequent specific histopathologic change. The frequency and severity of kidney lesions were independent of the virus hemagglutinin-neuraminidase subtype or titer of the challenge virus. Influenza nucleoprotein was most frequently demonstrated in the kidney and was consistently localized to necrotic proximal and/or distal renal tubule epithelium. Common nonspecific histopathologic changes were lymphoid hyperplasia of the spleen and cecal tonsils, as well as lymphocyte depletion in the cloacal bursa. Uncommon histopathologic changes, in decreasing order of frequency, were interstitial pneumonia, lymphoid follicular hyperplasia in the myocardium, and lymphocytic tracheitis. Histopathologic changes were rare or absent in the jejunum, duodenum, pancreas, and brain. The low-pathogenicity avian-origin type A influenza virus isolates were epitheliotropic in chickens, primarily nephrotropic. Such findings were dissimilar from findings with highly pathogenic avian-origin type A influenza virus isolates both in severity and in tissue distribution of histopathologic changes and influenza viral antigen.
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PMID:Comparative pathology of intravenously inoculated wild duck- and turkey-origin type A influenza viruses in chickens. 779 94

Non-specific interstitial pneumonia (NIP) occurs frequently in patients with HIV-infection. To elucidate the etiology of this pulmonary disorder, we searched for 13 different microorganisms in transbronchial biopsies from 15 patients with NIP, 15 patients with Pneumocystis carinii pneumonia (PCP) and 20 patients with lung diseases not related to HIV-infection using monoclonal antibodies and the APAAP- or PAP-technique for immunostaining. Chlamydia trachomatis and parainfluenza III were detected frequently and in great number. Adenovirus, influenza B, varicella zoster and cytomegalovirus were also found frequently, but not in great number. Measles virus, respiratory syncytial virus, influenza A and herpesviruses 1&2 were not found. Also not found were parainfluenza I, mycoplasma pneumoniae and coronavirus. In seven out of fifteen NIP patients at least one organism was shown, compared to nine out of fifteen patients with PCP and eight out of twenty patients in the control group.
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PMID:Non-specific interstitial pneumonia (NIP): immunohistologic screening of etiologic agents. 789 90


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