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Query: UMLS:C0242706 (
hyperoxia
)
5,219
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Otitis media represents a continuum of inflammatory stages frequently in association with bacteria and/or endotoxin. Furthermore, the disease is often treated with insertion of ventilation tubes, which causes
hyperoxia
relative to the physiological state in the tympanic cavity. The present study was undertaken to quantitate the interaction between endotoxin and relative
hyperoxia
in cultures of rabbit
middle ear
fibroblasts incubated in normal
middle ear
gas and atmospheric air, respectively. Growth was monitored by determination of DNA, cell protein and cell division. The synthetic activity was estimated by collagen production. The antioxidant defense was determined by measuring the intra-and extracellular concentrations of superoxide dismutase (SOD). The results demonstrated that
hyperoxia
significantly impaired the growth of
middle ear
fibroblasts, which was compensated for by addition of endotoxin stimulating the growth. The collagen synthesis increased significantly in atmospheric air with a synergistic effect of endotoxin.
Hyperoxia
induced intracellular SOD formation, while endotoxin tended to reduce the synthesis. Finally, exposure to atmospheric air caused significantly larger amounts of reducing agents extracellularly in cultures without endotoxin compared to endotoxin incubated cultures. It is suggested that endotoxin possess both synergistic and antagonistic potential as regards the effects of relative
hyperoxia
, and that the interaction between endotoxin and
hyperoxia
may be an important factor in otitis media.
...
PMID:The influence of endotoxin upon middle ear fibroblasts cultured in normal middle ear gas and atmospheric air. 782 3
Middle ear negative pressure and effusions, decreased
middle ear
compliance, and abnormal tympanometry results have been described after diving on oxygen. Middle ear gas
hyperoxia
has been shown to down-regulate the eustachian tube ventilatory function (ETVF). The purpose of the present study was to investigate to what extent systemic
hyperoxia
in the face of air-equivalent
middle ear
gas composition might interfere with the ETVF. ETVF was investigated in four young adult female cynomolgus monkeys by the forced-response and inflation-deflation tests using air while the animals breathed either room air or 100% normobaric oxygen. Higher opening, closing, and steady-state pressures were observed under systemic
hyperoxia
. The percentage of the applied pressure equalized, and the maximal pressure change on a single swallow in the deflation test were both lower under hyperoxic conditions. The results show that systemic
hyperoxia
might impair ETVF. This observation adds to our understanding of the pathophysiology of
middle ear
dysfunction observed after diving on oxygen.
...
PMID:Effects of systemic hyperoxia on eustachian tube ventilatory function. 933 22
The oxygen partial pressure of
middle ear
gas increases more than 3-fold upon insertion of ventilation tubes, while the carbon dioxide partial pressure decreases. Whereas the
middle ear
gas is normally equilibrated to venous gases and has an oxygen partial pressure of 43 mmHg, 138 mmHg is measured in ventilated ears. The present study was undertaken to compare the effects of these oxygen tensions on in vitro growth and glycoprotein secretion of rabbit
middle ear
epithelium and for comparison auditory meatal epithelium. Cultures were incubated in atmospheres of 7, 21 or 75% O2 in 5% CO2 and the remnant N2. The cell layer protein mass, [3H]thymidine-incorporation, DNA content and [3H]glucosamine-incorporation was measured in identical subcultures every third day during a 15-day period. In
middle ear
epithelium the DNA content, DNA synthesis and cell layer protein mass were significantly higher at 7% oxygen compared to 21% and 75%. In conclusion
hyperoxia
leads to decreased growth of
middle ear
epithelium in vitro. If applicable to in vivo conditions, this might contribute to the mechanism of action of ventilation tubes. Moreover the proliferation rate of auditory meatal epithelium exceeds that of
middle ear
epithelium both at 7 and 21% oxygen, an interesting point with regards to cholesteatoma pathogenesis.
...
PMID:Influence of hyperoxia on in vitro growth of rabbit middle ear epithelium and auditory meatal epithelium. 935 Apr 87
The purpose of the present study was to compare the effect of 24 h of exposure to 7% O2 (normal
middle ear
physiological conditions) vs. 21% O2 (found in the
middle ear
after ventilation tube placement) on transepithelial Na+ absorption and Cl- secretion in cultured gerbil
middle ear
epithelial cell monolayers. Although no difference in apical Na+ absorption was identified, the UTP-induced stimulation of apical Cl- secretion in the presence of apical Na+ channel blockade with amiloride was significantly enhanced after exposure to 21% O2 compared with 7% O2 exposure. In the presence of a calcium-activated Cl- channel inhibitor, DIDS, UTP-induced stimulation of Cl- secretion after 21% O2 exposure was decreased, suggesting a role for calcium-activated Cl- channels in
middle ear
Cl- secretion in response to relative
hyperoxia
.
...
PMID:The effect of changes in ambient oxygen concentration on the bioelectric properties of middle ear mucosa. 1276 Sep 6
