Abstract: The invention relates to a regenerative absorber device (20) for the removal of CO2 from expiration gases during anesthesia. The device comprises a container (38) having an inlet (39) for said expiration gases, and an outlet (41) for output gases, the CO2 content of which having been substantially removed therefrom. The device is provided with an ion exchanger (42) having the capability to absorb CO2, disposed in said container (38) such that the gases flow through said ion exchanger from said inlet (39) to said outlet (41). A novel method of anesthesia comprises use of a CO2 absorber device according to the invention.
Abstract: The invention relates to a vaporizing having a vaporizing chamber which includes a gas inlet and a gas outlet. The vaporizing chamber accommodates a porous liquid delivery device which communicates with an external liquid source via liquid supplier. Liquid to be vaporized is exposed to the by-passing gas through the medium of the liquid delivery device. According to the invention, the liquid is exposed to the gas exclusively via the pores in the liquid delivery device and the liquid supplier are controllable. The vaporizer is intended for use in the treatment of patients, preferably for administering an anaesthetic. The present invention also relates to a vaporizing method applied with the aid of the inventive vaporizer.
Abstract: A moisture-heat exchange arrangement which is intended for connection to a patient to humidify and heat the air inhaled by the patient, wherein the arrangement includes a moisture-heat exchanger unit (5) and a humidifier means (11, 12) that connects with the unit (5) to increase the humidity of the inhalation air. The humidifying means includes a casing (3) which is connected with the moisture-heat exchanger unit (5) and which has a first opening (9) that communicates with the moisture-heat exchanger unit and an opposing opening (6) that communicates with the patient. The inner surface of the casing has provided thereon a water-absorbing and/or water-vapour permeable material (11) which delivers moisture to the air inhaled by the patient.