The European respiratory journal : official journal of the European Society for Clinical Respiratory Physiology
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An L-arginine-dependent pathway, metabolising L-arginine to citrulline and nitrogen oxides, has been described in many cell types in different species, including man. Two subtypes of this nitric oxide synthase have been reported: a constitutive enzyme type, releasing nitric oxide after stimulation, is typically found in endothelial and neural cells; another subtype can be induced in macrophages after cytokine treatment. This review summarizes the literature on the known and proposed roles of this L-arginine-dependent nitric oxide production in different pulmonary processes. ⋯ The details of the role and distribution of nitric oxide synthase in the (human) lung and airways are not yet completely understood. Nitric oxide is believed to play a role in various pulmonary physiological processes, such as bronchodilation and the cytotoxic action of certain cells. The modulation of nitric oxide release will therefore, most probably lead to application of novel therapies in diseases such as asthma and inflammatory pulmonary diseases.
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Comparative Study
Force-frequency relationships of in vivo human and in vitro rat diaphragm using paired stimuli.
Supramaximal stimuli, with time intervals of 100 ms (10 Hz) to 10 ms (100 Hz), were delivered in pairs to the phrenic nerves, bilaterally, in five seated normal subjects, while transdiaphragmatic pressure swings (Pdi,s) were recorded at relaxed end-expiratory lung volume with airways closed. In fresh diaphragms, Pdi,s increased between 10-20 Hz and reached a plateau between 20-30 Hz. Diaphragmatic fatigue decreased Pdi,s at all frequencies. ⋯ The ratio of T2 at 10 Hz over 100 Hz (T2(10/100)) thus decreased from 1.33 +/- 0.05 before fatigue to 0.97 +/- 0.12 after fatigue, and to 0.81 +/- 0.06 after 15 min rest. Similar results were obtained in isolated rat diaphragmatic strips stimulated and fatigued in vitro, from which we found a highly linear relationship (r = 0.94, p < 0.001) between the ratio of T2(10/100) and that of tetanic force at 10 Hz over 100 Hz (P10/100). We conclude that phrenic nerve paired twitches provide similar information when obtained from phrenic tetanic stimulation in terms of diaphragmatic contractility, and the decrease in T2(10/100) ratio indicates diaphragm low frequency fatigue.
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We wished to study how pleural effusion affects dynamic mechanics of the lung and the chest wall. We also determined if these changes could be reversed by deep lung inflations. Pleural effusion was produced by saline infusion into the pleural space. ⋯ Dynamic elastance and resistance of the chest wall were little affected by these procedures. Thus, pleural effusion can have significant effects on dynamic elastance and resistance of the respiratory system (ERS, RRS). The transient nature of the change in lung parameters after deep inflation suggests that therapies based on periodic lung inflations may be of little benefit to patients with this condition.