[Amiloride hydrochloride nebulized by oxygen in the treatment of mucoviscidosis]. / Etude d'un nébulisat de chlorhydrate d'amiloride véhiculé par de l'oxygène dans la mucoviscidose.

Bronchial inhalation of amiloride chlorhydrate has been suggested for a number of years in the treatment of the pulmonary disease in cystic fibrosis. However, physiotherapy remains invaluable in the struggle in containing pulmonary infections in this disorder. Physiotherapy may lead to a transient fall in the arterial oxygen as can sessions of nebuliser therapy which precedes physiotherapy. The originality of the system studied and proposed here for the administration of medication depends on an electronic control which guarantees that there is the nebulisation of a constant volume of medication with each inspiration. Triggered by inspiration the active principle nebulised is perfectly co-ordinated to the inspiratory cycle. A comparative chromatography carried out in this slides of silica-gel have enabled us to verify the absence of any degradation of the active principle contained in the nebuliser solution during the ten minutes period of aerosol therapy. Thus a quantification of the administered dose of Amiloride Chlorhydrate is made possible. In association with oxygen it enables an efficacious preparation of respiratory physiotherapy to children. As the expiratory tubing ends in a filter the fraction of the oxygen inhaled by the patient remains very high; 80% (V/V) of the medication is emitted in the form of liquid particles whose diameter lies between 0.5 and 5 micrometers. In practice in order to humidify the sputum and to restore the oximetry before the physiotherapy sessions, it seemed to us an interesting possibility to administer Amiloride Chlorhydrate and oxygen simultaneously. This is achieved in hospital by using wall-mounted oxygen (at a gas pressure of 3.5 bars).(ABSTRACT TRUNCATED AT 250 WORDS)

[An automatic gas scanning device, technical improvement for obtaining a favourable atmosphere for in vitro culture of anaerobic bacteria]. / Balayage gazeux à l'aide d'un automate, une amélioration technique d'obtention d'une atmosphère propice à la culture en jarre des bactéries anaérobies.

All methods for growth of anaerobic bacteria on solid media depend on the elimination of atmospheric O2 through use of a palladium catalyst (Deoxo-Catalyst), active in presence of at least 5% H2 with resultant formation of water. Anaerobic chambers and jars are the two conventional methods employed. Both are based on the elimination of air by means of a pump and its replacement with gas from a cylinder (evacuation-replacement technique). An alternative chemical technique for use in anaerobic jars consists of adding internal gas-generating sachets. The former techniques are more efficient but the trend, particularly in the clinical laboratories, is to use the simpler chemical system that has two inconveniences: a slow establishment of anaerobiosis, and a high cost. We propose a new system that does not require a vacuum pump and consists in flushing anaerobic jars with a convenient gas mixture (H2, CO2, N2: 4.5; 5; 90.5 v/v) by means of an automaton regulating both time and gas flow. Gas-liquid chromatography analysis of the gas inside the jar shows a rapid elimination of gaseous O2, whose residual concentration is low enough to permit growth of all anaerobes of clinical interest, including those which are more O2-sensitive. Comparative qualitative and quantitative data obtained with all available techniques demonstrate the advantages of the new system.