AEROSOL DELIVERY APPARATUS AND METHOD FOR PRESSURE-ASSISTED BREATHING SYSTEMS
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Accused Products
Abstract
A pressure-assisted breathing system is provided that comprises: a pressure-generating circuit for maintaining a positive pressure within the system; a patient interface device coupled to a patient'"'"'s respiratory system; a respiratory circuit for providing gas communication between the pressure-generating circuit and the patient interface device; means for introducing aerosol particles into the gas flow in the respiratory circuit; and means for discontinuing the introduction of aerosol particles into said respiratory circuit gas flow when the patient exhales. In one embodiment, a flow sensor is disposed in an auxiliary circuit in fluid communication with the respiratory circuit and electronically coupled with a nebulizer. The flow sensor is adapted to detect changes in the volumetric flow rate of gas in the auxiliary circuit when the patient exhales and stops exhaling and sends corresponding electronic signals to the nebulizer to turn off and turn on, respectively.
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Citations
40 Claims
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1-22. -22. (canceled)
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23. A pressure-assisted breathing system comprising:
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a patient interface device adapted to be coupled to a patient'"'"'s respiratory system;
a pressure-generating circuit having a gas flow of sufficiently high volume to provide positive pressure to the patient'"'"'s respiratory system through the patient interface device;
and a nebulizer in gas communication with the patient interface device and positioned to deliver aerosol particles to the patient interface device outside the high-volume gas flow in the pressure-generating circuit. - View Dependent Claims (24, 25, 26)
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27. A nebulizer apparatus comprising:
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a light-weight, miniature nebulizer, comprising a reservoir for holding a single dose of liquid medicament to be delivered to a patient'"'"'s respiratory system and a vibrating aperture-type aerosol generator for aerosolizing the liquid medicament; and
a connector adapted to connect the nebulizer to a pressure-assisted breathing system having a pressure-generating circuit, wherein the connector is further adapted to connect to the pressure-assisted breathing system at a location outside the pressure-generating circuit. - View Dependent Claims (28, 29, 30, 31)
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32. A junction device for connecting an inspiratory limb and an expiratory limb of a pressure-assisted breathing system to a patient interface device, said junction device comprising:
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a tubular main body member having a substantially straight longitudinal lumen extending its entire length for conducting a first flow of pressurized gas carrying aerosol particles from a first tube attached to one end of the longitudinal lumen to a second tube attached to the opposite end of the longitudinal lumen, wherein the first tube comprises the inspiratory limb and the second tube comprises a respiratory circuit connected to the patient interface device;
a tubular branch member in fluid communication with the longitudinal lumen at one end of the branch member and attached to a third tube comprising the expiratory limb at the opposite end of the branch member for conducting a second flow of gas substantially free of said aerosol particles into or out of the longitudinal lumen;
a nebulizer port for attaching a nebulizer to the main body member so as to introduce said aerosol particles into the first flow of gas; and
a vibrating aperture-type nebulizer having a vibrating aperture plate positioned completely within the nebulizer port and in close proximity to, but not extending through the longitudinal lumen so as avoid any protrusion into the longitudinal lumen that would cause turbulence in the first flow of gas and the resulting deposition of aerosol particles on said internal surface wall.
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33. A ventilator system comprising:
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an inspiratory tube and an expiratory tube joined together to form a ventilator circuit;
a respiratory tube connecting the ventilator circuit to a patient interface device to form a respiratory circuit;
at least one or both of a first and second nebulizer, the first nebulizer positioned in the respiratory circuit and the second nebulizer positioned in the ventilator circuit. - View Dependent Claims (34, 35)
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36. A method of delivering an aerosol to a patient'"'"'s respiratory system comprising the steps of:
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generating a first gas flow in a first conduit that connects a gas flow generator to a pressure-regulating device;
connecting one end of a second conduit to the first conduit and the opposite end of the second conduit to a patient interface device so that inhalation by the patient draws a second gas flow from the first gas flow into the patient'"'"'s respiratory system; and
introducing aerosol particles into the second gas flow and thereby into the patient'"'"'s respiratory system.
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37. A method of increasing the amount of aerosol particles delivered to a patient'"'"'s respiratory system through one or more circuits of a pressure-assisted breathing system wherein at least one circuit has a gas flow of sufficiently high volume to provide positive pressure to the patient'"'"'s respiratory system through a patient interface device, comprising the step of introducing the aerosol particles into the system at a point outside the high volume gas flow to avoid dilution of the aerosol particles.
- 38. A method of increasing the amount of aerosol particles delivered to a patient'"'"'s respiratory system through one or more circuits of a pressure-assisted breathing system, comprising the step of eliminating any sharp angles or corners encountered by the flow of aerosol particles in said circuits.
Specification