Abstract: Current methods of drug administration to the lungs are inefficient. ‘Endotracheal Tube with Aerosol Delivery Apparatus III’ is specifically designed for uniform intrapulmonary delivery of aerosolized medication in patients on mechanical ventilation. As opposed to the current methods of drug delivery where aerosol particles are generated at the proximal end of the ETT, with majority of the particles adhering to the endotracheal tube during delivery, this invention bypasses the endotracheal tube by generating aerosol particles at its distal end. The invention consists of two coaxial hollow tubes fused to each other. The inner coaxial tube and/or one or more secondary cannulation(s) in the wall of the outer coaxial tube terminate at proximal and as MDI adapters and at the distal tip as a single or multiple micrometric orifices.

Abstract: According to one aspect of the present invention, an aerosol inhalation system including an accessory is defined by a first conduit member for delivering medication in the form of aerosol particles to a patient, as well as a first holding chamber for holding the aerosol particles prior to deliver to the first conduit member. The accessory includes a valve mechanism associated with the first conduit member and including a first valve assembly and a second valve assembly. The aerosol inhalation system includes at least one device in fluid communication with the first holding chamber for producing the aerosol particles. For example, the device can be either an MDI, a nebulizer or both devices can be used simultaneously. According to one exemplary embodiment of the present invention, the aerosol inhalation system is a closed system and is therefore capable of delivering a fixed concentration of the medication to the patient, thereby overcoming the above deficiencies that are associated with the prior art devices.

Abstract: An endotracheal tube for insertion into a patient's trachea includes a drug delivery feature and is formed of an elongated body having a proximal end for connection to a ventilator device and an opposing distal end with a bore formed therein and terminating in at least one ventilation opening. The tube also has at least one drug delivery conduit formed in the elongated body and terminating at one end with a proximal opening and at an opposite end with a distal opening. The proximal opening is adapted to be fluidly connected to a drug delivery device adapter, wherein the at least one drug delivery conduit is separated from the bore along its entire length thereof from the proximal opening to the distal opening. The distal opening is formed at the distal end of the elongated body and is located closer to the distal end than the ventilation opening.

Abstract: An endotracheal tube for insertion into a patient's trachea includes a drug delivery feature and is formed of an elongated body having a proximal end for connection to a ventilator device and an opposing distal end with a bore formed therein and terminating in at least one ventilation opening. The tube also has at least one drug delivery conduit formed in the elongated body and terminating at one end with a proximal opening and at an opposite end with a distal opening. The proximal opening is adapted to be fluidly connected to a drug delivery device adapter, wherein the at least one drug delivery conduit is separated from the bore along its entire length thereof from the proximal opening to the distal opening. The distal opening is formed at the distal end of the elongated body and is located closer to the distal end than the ventilation opening.

Abstract: According to one aspect of the present invention, an aerosol inhalation system including an accessory is defined by a first conduit member for delivering medication in the form of aerosol particles to a patient, as well as a first holding chamber for holding the aerosol particles prior to deliver to the first conduit member. The accessory includes a valve mechanism associated with the first conduit member and including a first valve assembly and a second valve assembly. The aerosol inhalation system includes at least one device in fluid communication with the first holding chamber for producing the aerosol particles. For example, the device can be either an MDI, a nebulizer or both devices can be used simultaneously. According to one exemplary embodiment of the present invention, the aerosol inhalation system is a closed system and is therefore capable of delivering a fixed concentration of the medication to the patient, thereby overcoming the above deficiencies that are associated with the prior art devices.

Abstract: A multipurpose aerosol medication delivery apparatus that includes a collapsible/expandable, or a fixed volume, or a combination of partially fixed volume and partially collapsible/expandable holding chamber for use with a metered dosed inhaler (MDI) and/or any standard small volume nebulizer. The holding chamber is designed to deliver-aerosol medication particles generated by an MDI; aerosol medication particles generated by a nebulizer; a single gas or a mixture of gases; a single gas or a mixture of gases that can yield a gas density that will enhance aerosol delivery of medication with both MDI and nebulizer; a single gas or a mixture of gases that will yield and deliver an oxygen concentration to a patient ranging from room air concentration to 100%. The device includes a reservoir that stores nebulized aerosol generated during exhalation to be inhaled during the next breath.

Abstract: Current methods of drug administration to the lungs are inefficient. ‘Endotracheal Tube with Aerosol Delivery Apparatus III’ is specifically designed for uniform intrapulmonary delivery of aerosolized medication in patients on mechanical ventilation. As opposed to the current methods of drug delivery where aerosol particles are generated at the proximal end of the ETT, with majority of the particles adhering to the endotracheal tube during delivery, this invention bypasses the endotracheal tube by generating aerosol particles at its distal end. The invention consists of two coaxial hollow tubes fused to each other. The inner coaxial tube and/or one or more secondary cannulation(s) in the wall of the outer coaxial tube terminate at proximal and as MDI adapters and at the distal tip as a single or multiple micrometric orifices.

Abstract: Current methods of drug administration to the lungs are inefficient. ‘Endotracheal Tube with Aerosol Delivery Apparatus II’ is specifically designed for uniform intrapulmonary delivery of aerosolized medication in patients on mechanical ventilation. As opposed to the current methods of drug delivery where aerosol particles are generated at the proximal end of the ETT, with majority of the particles adhering to the endotracheal tube during delivery, this invention bypasses the endotracheal tube by generating aerosol particles at its distal end. This invention incorporates 1 to 6 (preferably 4 to 6) secondary cannulations in the wall of the ETT with pinhole terminal orifices at the distal tip of the ETT arranged symmetrically. The secondary cannulations continue proximally as semi-flexible tubules that terminate as MDI adapters to fit the nozzle of MDI canister. This device generates 1-6 aerosol plumes.

Abstract: Current methods of drug administration to the lungs are inefficient. ‘Endotracheal Tube with Aerosol Delivery Apparatus’ is specifically designed for uniform intrapulmonary deposition of aerosolized medication in patients on mechanical ventilation. As opposed to the current methods of drug delivery where aerosol particles are generated at the proximal end of the ET tube, with majority of the particles adhering to the endotracheal tube during delivery, this invention bypasses the endotracheal tube by generating aerosol particles at its distal end. This invention incorporates an external adapter designed to perfectly fit the nozzle of the conventional metered dose inhaler at it's proximal end. From the distal end of this adapter originates a secondary cannula with a pinhole inner diameter that enter the ET tube at its proximal end and continues distally within the wall of the ET tube to terminate as a pinhole opening, where aerosol particles are generated.

Abstract: Current methods of drug administration to the lungs are inefficient. ‘Aerosol Delivery Apparatus’ in specifically designed for uniform intrapulmonary deposition of aerosolized medication in patients on mechanical ventilation. As opposed to the current methods of drug delivery where aerosol particles are generated at the proximal end of the ET tube, with majority of the particles adhering to the endotracheal tube during delivery, this invention bypasses the endotracheal tube by generating aerosol particles at its distal end. This invention incorporates a medicament dispenser with an adapter (MDA) to perfectly fit the nozzle of a conventional metered dose inhaler and an L-shaped ventilator connector with adapter (VCA) to fit MDA. From the distal end of MDA adapter originates a semi-rigid cannula with a narrow lumen that terminates as a pinhole opening distally where aerosol particles are generated on actuation of MDI valve.