Abstract
Severe respiratory disorder induced by pulmonary inflammation is one of the causes of acute respiratory distress syndrome, which still has high mortality. It is crucial to remove causative substances and inflammatory mediators early in order to inhibit the progression of pulmonary inflammation. Total alveolar lavage (TAL) may avert the inflammatory response by eliminating causative substances in certain inflammatory lung diseases. We developed an efficient TAL system and examined the efficacy of short-term TAL treatment performed for acute lung injury models of rats. In the first experiment with a severe lung injury model, 15 rats were divided into 3 groups: sham group, mechanical gas ventilation (MGV) treatment group, and TAL treatment group. The treatments were conducted for 5 min, 20 min after the provocation of inflammation. Two days after treatment, the TAL and MGV treatment groups exhibited significant differences in blood oxygen levels, mean arterial pressure, weight-loss ratio, and inflammatory cytokine levels in the lungs. In contrast, almost no differences were observed between the TAL treatment and sham groups. In the second experiment with a lethal lung injury model, the TAL treatment dramatically improved the survival rate of the rats compared to the MGV treatment groups (p = 0.0079). Histopathological analysis confirmed pronounced differences in neutrophil accumulation and thickening of the interstitial membrane between the TAL and MGV treatment groups in both experiments. These results indicate that as little as 5 min of TAL treatment can protect rats from acute lung injury by removing causative substances from the lungs.
Highlights
Severe respiratory disorder induced by pulmonary inflammation is one of the causes of acute respiratory distress syndrome, which still has high mortality
Blood oxygenation levels in the LPS + Total alveolar lavage (TAL) and phosphatebuffered saline (PBS) + mechanical gas ventilation (MGV) groups were within the normal range whereas that in the LPS + MGV group indicated severe hypoxemia
There were no significant differences in arterial carbon dioxide partial pressure (PaCO2) among all groups, a few rats in the LPS + MGV and LPS + TAL groups showed a slightly acidic blood condition (Fig. 1C)
Summary
Severe respiratory disorder induced by pulmonary inflammation is one of the causes of acute respiratory distress syndrome, which still has high mortality. Histopathological analysis confirmed pronounced differences in neutrophil accumulation and thickening of the interstitial membrane between the TAL and MGV treatment groups in both experiments These results indicate that as little as 5 min of TAL treatment can protect rats from acute lung injury by removing causative substances from the lungs. The characteristics of ARDS are diffuse alveolar damage, intra-alveolar infiltration of inflammatory cells, oversecretion of cytokines, and thickening of the interstitial membrane[2] Since these pathological alterations may result in irreversible respiratory failure, it is crucial to remove the causative substances and protect patients from the inflammatory progression at an early phase. Some patients displayed ventilatory impairment and fever; respiratory management after the treatment was challenging These reports summarised that lung lavage was effective for the symptoms induced by secretion accumulation or alveolar blockage, but not for those caused by structural failure[5,6,9]
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