Abstract: An inhaler (1) for the delivery of a dose of powdered medicament for inhalation by a user comprising a housing (2) containing a cylinder (5) defining a chamber (5a) and a piston (6) movably received in the cylinder to enable a user to generate a charge of compressed air in the chamber to entrain a dose when the charge is released, wherein the cylinder and the piston include co-operating means (8, 9) thereon operable to draw the piston into the cylinder to compress a charge of air in the chamber in response to rotation of the piston.

Abstract: In a method and device for reducing the carbon dioxide content in a dead volume intended for connection to the respiratory system of a patient, and an anesthesia apparatus embodying such a device, a flow of gas is generated from an outlet associated with the dead volume and the gas is conducted through a carbon dioxide absorber, and the gas after passing through the carbon dioxide absorber is returned to an inlet associated with the dead volume.

Abstract: A conventional respiratory nebulizer has an emergency medication dose storage system delivering the stored medication dose directly to the nebulizing chamber with a single impulse of manual force to a simple mechanical delivery system, thereby making the nebulizer useable in two steps: (a) opening the medication capsule with a simple opening action; and (b) inhaling the nebulized medication. The nebulizer can be operated without disassembling the nebulizer housing so as to expose the nebulizing chamber and without manually opening the liquid medication container and, without spillage and without manual pouring of the liquid medication directly into the nebulizing chamber, and without reassembling the nebulizer housing before positioning the inhaler mouthpiece in the mouth so as to inhale the nebulized medication. The delivery system includes a slicing blade to sever the capsule and a looped paddle follower to move the severed portion out of the way of fluid flow.

Abstract: A conventional respiratory nebulizer has an emergency medication dose storage system conveniently useable in an emergency to deliver the stored medication dose directly to the nebulizing chamber quickly, reliably, and with a single impulse of manual force to a simple mechanical delivery system, thereby making the nebulizer useable in two steps: (a) opening the medication capsule with a simple opening action; and (b) inhaling the nebulized medication. The nebulizer can be operated without disassembling the nebulizer housing so as to expose the nebulizing chamber and without manually opening the liquid medication container and, without spillage and without manual pouring of the liquid medication directly into the nebulizing chamber, and without reassembling the nebulizer housing before positioning the inhaler mouthpiece in the mouth so as to inhale the nebulized medication.

Abstract: A combination artificial airway device and esophageal obturator (10) includes a esophageal cuff (16) and supraglottic cuff (14) that are inflated in a sequence to provide quick isolation of the esophagus relative to the tracheal air passage. The supraglottic cuff is asymmetrical in shape with a wedge like or cone like shape that is ergonomically shaped for providing less trauma to the pharyngeal tissues. A pressure indicator (25) surrounds a pilot balloon (28) for continuous monitoring of the internal pressure within the cuffs (14 & 16).

Abstract: A method includes advancing a distal end of a tubular nasopharyngeal airway device through a nostril opening and into a nasal passageway of a patient, the nasopharyngeal airway device having a proximal end that is larger than the nostril opening. At least a terminal tip of a resiliently flexible elongated locking protrusion that projects from the proximal end of the nasopharyngeal airway device is inserted into the same nostril opening in which the nasopharyngeal airway device is disposed so that the locking protrusion biases against the lining of the nasal passageway, thereby securing the nasopharyngeal airway device within the nasal passageway.

Abstract: The present invention provides a drug delivery device having a housing that includes a ventilator interface module and a base module removeably coupled to the ventilator interface module. An aerosol generator is disposed in the base module to nebulize a drug solution provided in the housing. The ventilator interface module has an outlet port through which nebulized particles of the drug solution can be communicated to a user, and an inlet port through which the housing receives intake gas. The housing has a flow path defined therein that directs intake gas from the inlet port to the outlet port such that the nebulized drug solution particles formed in the housing are motivated toward the outlet port when the base module is coupled to the ventilator interface module. A seal arrangement substantially seals the inlet port and outlet port from ambient atmosphere when the base module is uncoupled from the ventilator interface module, such that intake gas can be communicated from the inlet port to the outlet port.

Abstract: Some embodiments and aspects presented herein provide methods and apparatus for vaporizing and/or mixing medication with air or other gases for oral delivery to a patient. Some methods and apparatus may include breaking liquid medications down to particle sizes no larger than about 1.0 to 3.0 micrometers in diameter. Such small particle diameters can be introduced directly to a patient's bloodstream via the lungs by crossing the alveoli membranes.

Abstract: The system of the present invention reduces hydrostatic imbalances acting on the diaphragm of a diver's open-circuit breathing apparatus' regulator. In general, the system applies a flexing force to the diaphragm based on the position of the diver's head relative to gravity when the mouthpiece is in the diver's mouth. The system can be realized by a simple mechanical pendulum assembly attached to the regulator.

Abstract: An HME Filter is provided having with an integral housing having minimal components which eliminating components at the circuit “Y” connector. A closed circuit gas flow is maintained whether an internal filter material is or is not engaged, and with or without a nebulizer aerosolizing medications. The HME SHUTTLE continues to maintain the same closed circuit gas flow during the HME filter materials insertion into the HME SHUTTLE, throughout the course of the HME filter's use in the closed gas flow circuit and during the HME filter materials removal from the HME SHUTTLE. The placement for optimal patient care is to be located between the connection of inhalation and exhalation sides of mechanical ventilator circuit and endotracheal tube of an intubated patient. The HME SHUTTLE also accommodates the docking port for the use of an external nebulizer.

Abstract: Dry powder inhalers for dispensing pharmaceutical grade formulations of inhalable dry powder include: an inhaler housing having a mouthpiece associated therewith; and a slidably extendable forward member that is movable between retracted and extended positions, held by the inhaler housing adjacent the mouthpiece. In the extended position, the forward member extends outward a distance beyond a forwardmost portion of the mouthpiece, and in the retracted position, a forwardmost portion of the forward member is positioned rearward of the forwardmost portion of the mouthpiece with an access portion of the mouthpiece accessible by a user.

Abstract: The present apparatus includes a metered dose inhaler (MDI) portion housed with a heat and moisture exchanger (HME) portion. The MDI portion and the HME portion share an inlet. The MDI portion and the HME portion share an outlet. The MDI portion and the HME portion are in parallel to each other and are immediately lateral of one another. The present MDI/HME apparatus includes a valve to direct fluid flow to or away from the HME portion and to or away from the MDI portion. The present MDI/HME apparatus includes a valve arm to communicate to the caregiver whether fluid is passing through the MDI portion or the HME portion and to structurally close off an MDI port when the valve is open relative to the HME portion. The valve is structured such that fluid flow to the patient is never obstructed.