Effects of long-term nitrogen dioxide exposure on rat lung: morphological observations.

Kubota, Kentaro; Murakami, Masataka; Takenaka, Shinji; Kawai, Kunihiro; Kyono, Hiroko

doi:10.1289/ehp.8773157

Cited by 44 publications

(12 citation statements)

References 25 publications

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“…Dogs exposed to 1.2 ppm NO 2 for 36 mo showed air-space enlargement and an increase in the number and size of alveolar pores (Hyde et al, 1978). However, Wistar rats exposed to 4 ppm NO 2 for 27 mo did not develop emphysema (Kubota et al, 1987). These results suggest that the pulmonary effects of air pollutants may differ between species.…”

Section: Destruction Of the Alveolar Wallmentioning

confidence: 73%

Morphological Changes in Rat Lung After Long-Term Exposure to Diesel Emissions

Kato

Nagai²,

Kagawa³

2000

Inhalation Toxicology

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Wistar rats were exposed for 24 mo to diesel emissions containing a low (0.2 ppm, 0.21 mg/m(3)), medium (1.04 ppm, 1.18 mg/m(3)), or high (2.96 ppm, 3.05 mg/m(3)) concentration of NO(2) and particles, or diesel emissions containing a medium (1.12 ppm, 0.01 mg/m(3)) concentration of NO(2) without particles. At 6-mo intervals during the exposure period, rats were autopsied, and their lungs were prepared for light- and electron-microscopic examination. Morphological evaluations included examination for hyperplasia of airway goblet cells, shift in the types of glycoprotein of intracellular mucus granules in goblet cells, infiltration of inflammatory cells in the airways, enlargement of the cross-sectional area of an alveolus as a parameter of air space enlargement, and development of alveolar holes, which is considered to be an early hallmark of alveolar destruction. The number of goblet cells with acid-form mucus granules increased with the exposure concentration and time; however, goblet cells did not show any hyperplastic changes. Furthermore, inflammatory cells such as alveolar macrophages, mast cells, plasma cells, neutrophils, and lymphocytes infiltrated the airways and the alveoli, and showed some cell-to-cell contact. Although no significant enlargement of the air space of the lungs was seen in any exposure group, the number of alveolar holes was significantly higher in the high-concentration group in comparison with the control group at each exposure time, and also increased in other exposure groups, even in the low-concentration group at certain exposure times. Morphological changes in the lungs were mild even in the animals exposed to the highest levels of diesel emissions for 24 mo. Elimination of particles from diesel emissions led to reduced morphological changes such as a decreased shift in the types of glycoprotein of mucus granules in goblet cells, decreased infiltration of inflammatory cells in the lungs, and reduced anthracosis.

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Section: Destruction Of the Alveolar Wallmentioning

confidence: 73%

Morphological Changes in Rat Lung After Long-Term Exposure to Diesel Emissions

Kato

Nagai²,

Kagawa³

2000

Inhalation Toxicology

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“…Oxidant air pollutants, such as ozone, have been shown to cause persistent structural alterations in the lungs of adults (8,16,21,28,30,37), but the effects of air pollutants on children have not been well studied. Biochemical endpoints suggest that neonates are less susceptible to ozone than adults; for example, neonatal rats have fewer alterations in pulmonary enzymes and markedly reduced cellular injury in the central acinus versus results shown in adults (4,10,41,49).…”

Section: Discussionmentioning

confidence: 99%

Cyclic exposure to ozone alters distal airway development in infant rhesus monkeys

Fanucchi¹,

Plopper²,

Evans³

et al. 2006

American Journal of Physiology-Lung Cellular and Molecular Phys

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Inner city children exposed to high levels of ozone suffer from an increased prevalence of respiratory diseases. Lung development in children is a long-term process, and there is a significant period of time during development when children growing up in urban areas are exposed to oxidant air pollution. This study was designed to test whether repeating cycles of injury and repair caused by episodes of ozone exposure lead to chronic airway disease and decreased lung function by altering normal lung maturation. We evaluated postnatal lung morphogenesis and function of infant monkeys after 5 mo of episodic exposure of 0.5 parts per million ozone beginning at 1 mo of age. Nonhuman primates were chosen because their airway structure and postnatal lung development is similar to those of humans. Airway morphology and structure were evaluated at the end of the 5-mo exposure period. Compared with control infants, ozone-exposed animals had four fewer nonalveolarized airway generations, hyperplastic bronchiolar epithelium, and altered smooth muscle bundle orientation in terminal and respiratory bronchioles. These results suggest that episodic exposure to environmental ozone compromises postnatal morphogenesis of tracheobronchial airways.

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“…Proliferation and replacement by type 2 cells causes a thickened air-blood barrier. Chronic exposure may result in alterations in lung architecture resembling those of emphysema [Haydon et al, 1965;Glasgow et al, 1987;Kubota et al, 1987]. Studies on ozone described inflammatory and biochemical changes in the airways following ozone exposure [Sletzer et al, 1986;Koren et al, 1989;Chang et al, 1998].…”

Section: Discussionmentioning

confidence: 99%