Abstract: This invention relates to a new technology that enables administration of Cannabis to patients for medical purposes. In one embodiment, this invention is a component of a system of technologies, processes and concepts that creates a new method of producing, delivering, administering and regulating the use of medical cannabis.

Abstract: A limb for a breathing circuit manufactured from very thin walled polymer materials has an elongate axial reinforcing spine lying freely inside the conduit and fixed to each end connector. The spine is laterally compliant but axially stiff. The spine provides resistance to tensile and compressive loads on the conduit, including that induced by prevailing internal pressures.

Abstract: Apparatus and methods for delivering humidified breathing gas to a patient are provided. The apparatus includes a humidification system configured to deliver humidified breathing gas to a patient. The humidification system includes a vapor transfer unit and a base unit. The vapor transfer unit includes a liquid passage, a breathing gas passage, and a vapor transfer device positioned to transfer vapor to the breathing gas passage from the liquid passage. The base unit includes a base unit that releasably engages the vapor transfer unit to enable reuse of the base unit and selective disposal of the vapor transfer unit. The liquid passage is not coupled to the base unit for liquid flow therebetween when the vapor transfer unit is received by the base unit.

Abstract: A breathing assistance apparatus and method of controlling a breathing assistance apparatus is disclosed. Particularly, the breathing assistance apparatus is controlled such that it has a drying cycle to enable drying of the tubing that supplies gases to a user and prevent the harboring of pathogens within the tube. The drying cycle is preferably operated automatically by internal controllers in the apparatus. However, it may be manually activated by pressing a button on the apparatus. The drying cycle is preferably activated at the end of a user's treatment session.

Abstract: Devices disclosed herein relate to humidification systems for making humidified ventilator air. The humidification system provides an elongated air path that increases both the surface area and time for air-water interaction, and thus increases efficiency of humidification. The humidification system also enables even distribution of heat and inhibition of bacterial growth within the system, thus improves comfort and safety for patients receiving respiratory therapy. Device disclosed herein also relates to tubing for delivering humidified ventilator air. The tubing includes an air passage and a heat blanket that envelops and warms up the air passage. The tubing thus prevents or decreases water condensation and loss of humidity of humidified air.

Abstract: A warming vapor pad to treat respiratory syncytial virus infections in babies, children and adults includes a fabric impregnated with a topical ointment providing medicated vapors to enhance nasal inhalation, with the fabric being superimposed on an elastic thermal wrap for application as a single integrated unit placed on a sitting or reclining user's chest.

Abstract: Breathing devices deliver at least one treatment to a subject and include at least two components comprising at least one of a ventilation unit for supplying a gas to the subject, a humidification unit for humidifying a gas supplied to the subject, a nebulizer unit for supplying a medication to the subject, a suction unit for suctioning a portion of an airway of the subject, and a cough assist unit for simulating a cough within the subject. Methods of providing a treatment to a subject may be provided with a breathing device.

Abstract: The present invention relates to a humidifier for humidifying medical gases, comprising a humidification module including a control unit, wherein the humidification module is adapted for receiving a humidification chamber. Furthermore, the humidification module is further adapted to sense and/or receive information upon connection of the humidification chamber and/or additional equipment such as hoses, power supply pack.

Abstract: A respiration humidifier (1), including a humidifying chamber (21), an inlet (10) for feeding breathing air (5) to be humidified into the humidifying chamber (21), an outlet (11) for releasing the humidified breathing air (9) from the humidifying chamber (21), a bottom (19) limiting the humidifying chamber (21) for receiving water (18) to be evaporated, water (4), which is received by the bottom (19) in the humidifying chamber (21) and is to be evaporated for humidifying the breathing air (5) and at least one distributor (2) with capillary and/or suction action, which is arranged in the humidifying chamber (21) such that this is in contact with the water (4) to take up water (4) in the distributor (2) and is in contact with the breathing air in the humidifying chamber (21) for evaporating the water (4) taken up on the surface of the distributor (2) into the breathing air (5). The respiration humidifier allows a high evaporating capacity to be reached with homogeneous air-vapor mixture at a low design effort.

Abstract: A humidifier includes a tub configured to hold a supply of water. The tub includes a tub lid and a tub base adapted to be coupled to the tub lid. The tub further includes a base plate formed of a heat conducting material and adapted to be coupled to the tub base and a seal positioned between the base plate and the tub base. The tub also includes a retaining mechanism with at least one projection that projects from the tub base and is configured to force the base plate against the seal so that the seal is secured against the tub base.

Abstract: A respiratory treatment apparatus provides respiratory treatment with improved power management control to permit more efficient power consumption and power supply units, such as battery powered operation. In one embodiment, power management prioritizes the flow generator (104) over other accessories such as the heating elements (111, 135) of a humidifier (112) and/or a delivery tube. The flow generator may control operations of the heating elements as a function of a detected respiratory cycle. For example, the timing of operation of the heating elements may be interleaved with the portion of an inspiratory phase of the respiratory cycle to permit the flow generator to operate during a peak power operation without a power drain or with a lower power drain from these components. Operations of distinct sets of components of the system (e.g., different heating elements) may also be interleaved to prevent simultaneous peak power operations.

Abstract: A preheating device is installed to the pipeline connecting between an air pressure source and a humidifier to increase the temperature of the gas entering the humidifier and to reduce the relative humidity. The gas can fully mix with vapor generated by a heated water carrier within a short time, thereby preventing the humidifier from excessively outputting condensed water.

Abstract: An ejection liquid capable of being stably ejected based on a system using thermal energy even if the liquid contains at least one selected from the group consisting of proteins and peptides, and a method and an apparatus for ejecting the liquid containing at least one selected from the group consisting of proteins and peptides using this system are provided. The applicability of the liquid for use in an inkjet system using thermal energy is improved by adding at least one selected from the group consisting of amino acids and salts thereof and a surfactant to an aqueous solution containing at least one selected from the group consisting of proteins and peptides.

Abstract: The invention relates to an inhaler component for forming a vapour-air mixture and/or condensation aerosol by vaporizing a liquid material and optionally condensing the vapour formed, including: a heating element for vaporizing a portion of the liquid material; a wick for automatically supplying the liquid material to the heating element, wherein the wick comprises at least two end sections arranged apart from each other; a first capillary gap for automatically supplying the liquid material to the wick, wherein a first end section of the wick projects into the first capillary gap. In order that the heating element can be supplied more quickly and ore reliably with the liquid material, a second capillary gap is provided, which receives therein the second end section of the wick.

Abstract: An anesthetic vaporizer and a temperature compensation unit are disclosed. The temperature compensation unit, which cooperates with a vaporizing chamber having a bottom wall, includes a first device connected to the bottom wall of the vaporizing chamber for contacting with liquid anesthetic agent in the vaporizing chamber and changing in length according to temperature change of the liquid anesthetic agent, and a second device connected to the vaporizing chamber. A gas flow gap through which a gas flow passes is formed between the first and second devices. The gas flow gap becomes larger as temperature of the liquid anesthetic agent rises and smaller as the temperature of the liquid anesthetic agent drops.

Abstract: A vaporizer system that supplies clean, heated air to vaporizable material by directing ambient air from an area surrounding the vaporizer system through a secure air passageway that leads the air through a pump, a heat source, and then onto the vaporizable material. The air passageway prevents the interaction of the air with possibly emissive components. The heated air drives out active ingredients from the vaporizable material, which may be subsequently captured in a removable container or inhaled directly. The vaporizer system includes an air chamber surrounding the receptacle for receiving the material to be vaporized which isolates the material from environmental disturbances. The removable container attaches to a valve, which attaches to the top of the vaporizer system. The valve is configured to be operable between three positions with the use of only one finger and a thumb of one hand.

Abstract: An apparatus is disclosed for administering a volatilizable medicament, comprising a thermally stable, chemically inert, highly porous matrix media, preferably fused or sintered quartz wool, housed in a small container, which can be heated to high temperatures to volatilize the active ingredients for inhalation by a user.

Abstract: A humidifier includes a tub configured to hold a supply of water. The tub includes a tub lid and a tub base adapted to be coupled to the tub lid. The tub further includes a base plate formed of a heat conducting material and adapted to be coupled to the tub base and a seal positioned between the base plate and the tub base. The tub also includes a retaining mechanism with at least one projection that projects from the tub base and is configured to force the base plate against the seal so that the seal is secured against the tub base.

Abstract: Systems and methods are provided for humidifying ventilation gas. Systems and methods may include a nasal interface apparatus for receiving ventilation gas from gas delivery tubing and for humidifying ventilation gas. The nasal interface apparatus may have one or more channels within the nasal interface to deliver gas from a gas delivery circuit to a patient's nose; one or more structures in fluid communication with the one or more channels to direct ventilation gas to the patient's nose; and a hygroscopic material within the nasal interface in the flow path of the ventilation gas.

Abstract: A humidification canister for humidifying a breathing gas, the humidification canister includes a fluid supply configured to supply a fluid and a first gas flow path in fluid communication with the fluid supply. A first gas flow path is configured to humidify the breathing gas with the fluid. A second gas flow path at least partially surrounds the first gas flow path. A method of insulating a breathing gas in a humidification canister using a gas is also disclosed.

Abstract: An air humidifier (90) for generating humidified breathing air for a patient includes a boiling pot (92) for receiving a defined water volume (91). The air humidifier (90) has a partition (93), the partition having at least one perforation (97). The partition with perforation (93) is designed to be arranged above a water surface of the defined water volume in the boiling pot.

Abstract: A fluid preconditioning apparatus used to pretreat fluids for an air disbursement machine. A first portion includes a first outlet for a treated gas, a second outlet for a treated liquid, a third outlet for a hose and a cover. A second portion includes a first inlet to receive a gas, a second inlet to receive liquid, a gas treatment chamber, a gas flow generator for moving the gas from the first inlet through the gas treatment chamber and the first outlet. The second portion also includes a liquid treatment chamber that connects to the second inlet, and a liquid flow generator for moving the liquid from the second inlet through the liquid treatment chamber and the second outlet. The gas treatment chamber treats gas by filtering and disinfecting the gas and the liquid treatment chamber creates the treated liquid by filtering and disinfecting the liquid.

Abstract: A therapeutic vaporizer inhalation bag attachment system with an integrated valve is disclosed. The attachment system includes a body having a lumen extending between the two openings of the body, a bag coupling, and a valve positioned within the lumen. A method of using the inhalation bag attachment system is also disclosed.

Abstract: A method of regulating a temperature within a vaporizer heating assembly includes providing a vaporizer heating assembly that includes a vapor inhalation device shaped to contain a vapor and deliver the vapor to a user's mouth without expelling the vapor into the atmosphere, an airflow chamber mechanically coupled to the vapor inhalation device, a heating chamber disposed within the airflow chamber, a fan in fluid communication with an air passageway defined by an interior surface of the airflow chamber and an exterior surface of the heating chamber, a temperature probe disposed proximate, but not in direct physical contact with the airflow chamber, and a temperature controller thermally coupled to the temperature probe and communicatively coupled to the heating chamber, the temperature controller operable to control a temperature output of the heating chamber in response to temperature information received from the temperature probe.

Abstract: A portable hand-held vaporizer assembly that has a body shaped to fit substantially within a standard-sized clothing pocket with the body including an airflow chamber defining an airflow passage and having a proximal end and a distal end, opposite to the proximal end, defining a distal opening that places the airflow passage in fluid communication with an outside environment, the airflow chamber being at least partially encapsulated within the body. The body further having a convection-based heating element assembly with a heating element having a portion thermally coupled to the airflow passage, a herb placement zone in fluid communication with the airflow passage, and a conductive conduit that places the airflow passage in fluid communication with the outside environment, with a first position where a distal end of the conduit is substantially recessed within the body and second position where the distal end extends a length away from the body.

Abstract: A vaporizer heating assembly includes an airflow chamber having a proximal end, a distal end opposite the proximal end, and a glass body connecting the proximal end to the distal end. A heating chamber is located within the airflow chamber and includes an elongated glass body and a heating element located within the elongated glass body of the heating chamber. A fan is in fluid communication with the proximal end of the airflow chamber and an attachment adapter is mechanically coupled to the distal end of the airflow chamber in a sealing arrangement, where the attachment adapter forms an attachment port for a vapor receiving element.

Abstract: A blower unit for use as part of an integrated blower/humidification system is described. The blower unit has an outer casing, which encloses and forms part of the blower unit, the casing including an air inlet vent. The blower unit further includes a humidifier compartment for receiving a humidifier unit with a separate gases inlet and outlet, the compartment having a heater base for heating the contents of the humidifier unit. The compartment also has a blower inlet port which aligns with the humidifier unit inlet in use, the blower providing a gases path through the casing between the inlet vent and the inlet port. The blower unit also includes a fan for providing a pressurised gases stream along the gases path, and a power supply unit for powering the fan. The gases path is routed over the power supply unit in order to provide a cooling air flow.

Abstract: A ventilation tube (20, 120, 220) is disclosed. The ventilation tube (20, 120, 220) comprises an inner wall (22, 122, 222) that defines a fluid passageway for 5 ventilation gases, an outer wall (24,124,224) that surrounds the inner wall (22, 122, 222) and has a greater thickness than the inner wall (22, 122, 222), a helical separator member (26, 126, 226) interposed between the inner and outer walls (22, 122, 222, 24, 124, 224) so as to define an insulation chamber between the inner and outer walls (22, 122, 222, 24, 124, 224), and a heating element (28, 128, 228) disposed within the insulation chamber.

Abstract: A humidifier for humidifying a flow of breathable gas to be delivered to a patient includes a chamber configured to receive the flow of breathable gas; a tub configured to contain a supply of water, the tub being configured to be inserted into the chamber; a lid provided on the chamber and being movable between an open position and a closed position; and a seal provided on the lid, the seal being configured to seal the chamber such that the flow of breathable gas pressurizes the chamber. The humidifier may be connectable to a flow generator configured to generate the flow of breathable gas. A tube for delivering the humidified flow may be connected to the humidifier. The tube may be a heated or non-heated tube. A respiratory apparatus for delivering a flow of breathable gas to a patient may include the humidifier and the flow generator and/or the tube.

Abstract: An atomizing electronic cigarette has an atomizing core component and a liquid storage component, including an electric heater. The electric heater may have a through hole aligned with a channel passing through the liquid storage component. The cigarette can heat and uniformly vaporize liquid from the liquid storage component, with the user inhaling the vaporized liquid. The vapor generated by the atomizing process may be cooled as it flows through the channel.

Abstract: A respiratory humidification system having a capillary passage in communication with a ventilator, the ventilator adapted to deliver an air stream, a heater operable to at least partially vaporize water in the capillary passage, a pumping unit adapted to supply water to the capillary passage, wherein the water upon heating is at least partially vaporized to form an aerosol stream. The aerosol stream is combined with the air stream to form a humidified air stream.

Abstract: An ambulatory or stationary device for delivery of a therapeutic amount of nitric oxide to an individual's lungs.

Abstract: A patient treatment system and method comprising a patient circuit, a pressurizing flow module disposed in the patient circuit, a humidifier disposed in the patient circuit, a monitor, sensors within the patient circuit, and a processor. The patient circuit delivers a flow of gas from a gas source to an airway of a patient. The pressurizing flow module elevates the pressure of the gas within the patient circuit. The humidifier elevates the humidity of the gas in the patient circuit to a circuit humidity level. The monitor monitors at least one parameter of the gas from the gas source. The sensors generate corresponding signals that can be processed to estimate a rate at which vapor is added to the gas in the patient circuit. The processor determines the humidity level of the gas in the patient circuit downstream from the humidifier based on the signals generated by the sensors and the at least one parameter of the gas in the gas source.

Abstract: A respiratory humidifier chamber for use with a breathing assistance apparatus is described. The chamber includes a water-tight vessel having an inlet for receiving gases from the breathing assistance apparatus, and an outlet through which heated humidified gases exit the vessel for delivery to a patient. The chamber has a partition which divides the chamber into upstream and downstream sub-chambers. The sub-chambers are separated by the partition except for an aperture which passes through the partition and allows gaseous communication between the sub-chambers. The downstream sub-chamber includes a heater base which heats a volume of water contained within it. The aperture is located above the volume of water. The upstream sub-chamber contains an internal heater which heats gases passing through it from the inlet to the aperture. At least part of the internal heater is located immediately adjacent the aperture.

Abstract: A respiratory apparatus comprising a base and removable chamber, wherein the chamber is configured to hold a supply of water and include a blower arrangement adapted to provide a supply of pressurized air or gas to the supply of water. In certain embodiments the respiratory apparatus includes a split motor, wherein the stationary components are located within a base and the rotating portions are located within a chamber.

Abstract: The invention relates to an inhaler component for forming a vapour-air mixture and/or condensation aerosol by vaporising a liquid material and optionally condensing the vapour formed, comprising: a heating element for vaporising a portion of the liquid material; a wick for automatically supplying the liquid material to the heating element, wherein the wick comprises at least two end sections arranged apart from each other; a first capillary gap for automatically supplying the liquid material to the wick, wherein a first end section of the wick projects into the first capillary gap. In order that the heating element can be supplied more quickly and more reliably with the liquid material, a second capillary gap is provided, which receives therein the second end section of the wick.

Abstract: A method is described comprising: providing a first heated volume flow of pressurized gas, a second volume flow of pre-heated dilution gas, and a third volume flow of fluid. A concentrated first aerosol is generated by exhausting at least a part of the first volume flow of pressurized gas and the third volume flow of fluid through a nozzle. A fourth volume flow of gas of opposite direction to the concentrated first aerosol is generated such that the concentrated first aerosol is arrested. Evaporation of the aerosol solvent is augmented with infrared radiation. The arrested first aerosol is then mixed with the second volume flow of dilution gas for generating a second aerosol that has been diluted. This aerosol is then concentrated with a virtual impactor.

Abstract: An inhaler device for administering medicaments through the respiratory tracts comprises a disposable or single-use assembly including a heat source which can be actuated by a user for vaporizing a liquid medicament held near the heat source.

Abstract: In an anesthesia vaporizer for vaporizing an anesthetic agent liquid and a method of vaporizing an anesthetic agent liquid in an vaporizer, an evaporation unit evaporates the anesthetic agent, a delivery unit intermittently adds a volume of said liquid to the evaporation unit in order to evaporate at least a portion of the volume of the liquid from the evaporation unit. A heat energy storage unit includes a phase change material (PCM) and is thermally coupled to at least a portion of the evaporation unit. The PCM has a phase shift temperature that is higher than the evaporation temperature of the anesthetic agent. The PCM in the heat energy storage unit is preferably at least partly liquid at an operative temperature of the vaporizer.

Abstract: A heat and moisture exchange unit for use with a patient breathing circuit. The unit includes a housing, an MDI port assembly and a heat and moisturizing medium. The housing forms a patient-side port, a ventilator-side port, and a containment region between the patient-side port and the ventilator-side port. The MDI port assembly includes a frame projecting into the containment region and configured to receive a portion of a metered dose dispenser. The frame terminates at an outlet end, forming a flow passage. The heat and moisturizing medium is maintained within the containment region so as to define a medium face most proximate the outlet end of the MDI port assembly. The unit is characterized by the absence of a body between the outlet end and the medium face.

Abstract: Nebulizer assemblies and systems are disclosed. A nebulizer assembly includes a reservoir and a nebulizer for producing an aerosolized gas. An aerosolized gas outlet passes the aerosolized gas. A breathing gas mixing chamber is coupled to an outlet port of the nebulizer to entrain nebulized medication into a breathing gas. A system and method of heating medication in a reservoir and adding medication to a gas flow is also provided.

Abstract: The invention concerns an apparatus for supplying a respiratory gas, a humidifying apparatus, a respiratory gas tube and a connecting apparatus therefor. The apparatus of the invention includes a blowing device for delivering the respiratory gas, a housing device which has a bottom region, a top surface region and a side region extending upwardly between the top surface region and the cover region, as well as a connecting device for connecting a humidifying apparatus for humidifying the respiratory gas, wherein the connecting device is arranged in the side region of the apparatus in such a way that the humidifying apparatus can be laterally coupled thereto. The humidifying apparatus according to the invention is distinguished by a partial amount discharge device for passing a partial amount of the liquid pre-stored in a liquid storage space into a humidifying region.

Abstract: Humidifier apparatus for a respiratory apparatus includes a housing providing a gas flow path, a heater apparatus, and a water supply distribution member configured and arranged to deliver water vapor to the gas flow path. The water distribution member is provided to the housing and in thermal communication with the heater apparatus.

Abstract: A respiratory component coupled with a breathing circuit, the respiratory component including at least one groove disposed upon a surface of the respiratory component, wherein the respiratory component is not a heater wire.

Abstract: A positive airway pressure (PAP) device for supplying a flow of breathable gas to a patient includes a first housing; a flow generator provided in the first housing, the flow generator configured to generate a flow of breathable gas; a second housing configured to be connected to the first housing, the second housing including a channel having an inlet configured to receive the flow of breathable gas and an outlet configured to discharge the flow of breathable gas, wherein the first housing is provided on top of the second housing such that a footprint of the PAP device is not substantially increased beyond a footprint of the second housing.

Abstract: A portable hand-held vaporizer assembly that has a body shaped to fit substantially within a standard-sized clothing pocket with the body including an airflow chamber defining an airflow passage and having a proximal end and a distal end, opposite to the proximal end, defining a distal opening that places the airflow passage in fluid communication with an outside environment, the airflow chamber being at least partially encapsulated within the body. The body further having a convection-based heating element assembly with a heating element having a portion thermally coupled to the airflow passage, a herb placement zone in fluid communication with the airflow passage, and a conductive conduit that places the airflow passage in fluid communication with the outside environment, with a first position where a distal end of the conduit is substantially recessed within the body and second position where the distal end extends a length away from the body.

Abstract: A pressure support device configured to provide pressure support therapy includes a humidifier that holds an enhanced amount of liquid without significantly mitigating sensitivity of respiratory event detection. The humidifier includes a chamber configured to hold liquid, and a partition that divides the chamber such that the volume of the chamber through which a flow of gas generated by the pressure support device flows is reduced. The reduction in the volume of the chamber through which the flow of gas flows preserves respiratory event detection sensitivity.

Abstract: A device and a process for controlling a respirator with inclusion of an oxygen saturation value (34) for compensating a device-dependent time response (15), a physiological time response (16) and a measuring method-dependent time response (17) are described. The device-dependent time response (15), the physiological time response (16) and the measuring method-dependent time response (17) are determined in a continuous sequence and a run time of a change in the oxygen concentration from the metering means (9) in the respirator to the patient (4) is determined and taken into account in regulating the oxygen concentration.

Abstract: A personal airway humidification apparatus includes means for generating a heated air laden with gaseous (molecular) water. The personal airway humidification apparatus further includes an accumulator coupled to the generating means for retaining a volume of the gaseous water-laden heated air prior to being delivered by natural breathing to a user and a delivery tube coupled to the accumulator. The delivery tube has a sufficiently large diameter bore to enable the user's natural breathing to draw the gaseous water-laden heated air from the accumulator and through the delivery tube. The personal airway humidification apparatus also includes a one-way valve coupled to the delivery tube for venting exhalations of the user to atmosphere and preventing the exhalations from being exhaled back into the delivery tube and an interface device by which the gaseous water-laden heated air enters the user's mouth from the delivery tube.

Abstract: A humidifier includes a base configured to retain a body of liquid therein, a top cover, and a seal disposed between the top cover and the base. At least a portion of the base is constructed of a heat conducting material. The top cover defines both an inlet and an outlet communicated with an interior of the base. The inlet is configured to receive pressurized breathable gas and the outlet is configured to deliver the pressurized breathable gas with added humidity.