Peep control in a piston ventilator
First Claim
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1. A patient ventilator comprising:
- a piston and cylinder assembly;
a patient circuit for delivering gas from said piston and cylinder assemblyto a patient during patient inhalation, said patient circuit including;
an exhalation valve including a valve element responsive to a pneumatic signal for shifting between an open position, a closed position, and a range of intermediate positions in corresponding relationship to said pneumatic signal;
a signal conduit in fluidic communication with said exhalation valve for delivering gas to said valve element as said pneumatic signal;
a PEEP valve coupled with said signal conduit for selectively venting gas received by the patient circuit for selectively altering said pneumatic signal;
a pressure sensor coupled with said patient circuit for sensing the pressure therein as the PEEP pressure and for producing a PEEP pressure signal representative thereof;
means positioned upstream of said PEEP valve for creating a pressure differential between the gas pressure in the signal conduit and the gas pressure at the pressure sensor; and
a controller coupled with said pressure sensor for receiving said PEEP pressure signal and comparing said PEEP pressure to a target pressure, and responsive thereto for operating said PEEP valve during patient exhalation in order to vent gas selectively from said signal conduit for altering said pneumatic signal and thereby the position of said exhalation valve and for altering said PEEP pressure to achieve said target pressure.
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Abstract
A piston ventilator is provided which advantageously monitors the positive end expiratory pressure (PEEP) in a patient circuit for supplying breathable gas to a patient, and controls a shiftable valve element in an exhalation valve to regulate the amount of resistance during the exhalation portion of the patient'"'"'s breath. The shiftable element is preferably an inflatable diaphragm which receives a pneumatic signal through a signal conduit. The pressure provided by the signal conduit is controlled by the amount of gas vented by a PEEP valve, wherein the greater the opening of the PEEP valve, the greater the amount of gas from the patient circuit is vented therethrough and consequently the less the restriction is provided in the exhalation valve. The primary source of pressure for the breathable gas is provided by a piston ventilator, with make-up pressurization in the patient circuit provided by a secondary source such as a blower to compensate for leakage and to provide pressurization for the signal conduit during the retraction of the piston within the cylinder and consequent exhalation portion of the patient'"'"'s breath. Supplemental oxygen is provided to the patient circuit during retraction of the piston to ensure adequate oxygen enrichment at the incipient portion of the inhalation portion of the patient'"'"'s breath.
278 Citations
16 Claims
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1. A patient ventilator comprising:
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a piston and cylinder assembly; a patient circuit for delivering gas from said piston and cylinder assembly to a patient during patient inhalation, said patient circuit including; an exhalation valve including a valve element responsive to a pneumatic signal for shifting between an open position, a closed position, and a range of intermediate positions in corresponding relationship to said pneumatic signal; a signal conduit in fluidic communication with said exhalation valve for delivering gas to said valve element as said pneumatic signal; a PEEP valve coupled with said signal conduit for selectively venting gas received by the patient circuit for selectively altering said pneumatic signal; a pressure sensor coupled with said patient circuit for sensing the pressure therein as the PEEP pressure and for producing a PEEP pressure signal representative thereof; means positioned upstream of said PEEP valve for creating a pressure differential between the gas pressure in the signal conduit and the gas pressure at the pressure sensor; and a controller coupled with said pressure sensor for receiving said PEEP pressure signal and comparing said PEEP pressure to a target pressure, and responsive thereto for operating said PEEP valve during patient exhalation in order to vent gas selectively from said signal conduit for altering said pneumatic signal and thereby the position of said exhalation valve and for altering said PEEP pressure to achieve said target pressure. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. In a ventilator for providing gas under pressure to a user for breathing, the ventilator including a primary piston-driven pressurization system and a patient circuit, the improvement comprising:
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a secondary make-up air pressurization system for supplying pressurized air to said patient circuit; and an exhalation control system operatively coupled to said secondary make-up air pressurization system, said exhalation control system including a first sensor for sensing a PEEP pressure value in said patient circuit, a gas-venting valve, a exhalation valve including a diaphragm for providing exhalation resistance, and a conduit for conveying a signal to said diaphragm of said exhalation valve, said conduit operatively connecting said secondary pressurization system to said diaphragm, wherein said first sensor is in operative communication with said gas-venting valve for actuating said gas-venting valve through a range between an open and a closed position in response to said sensed value and thereby control the signal conveyed to said diaphragm through said conduit. - View Dependent Claims (13, 14, 15)
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16. A method of providing breathable gas to a patient comprising the steps of:
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providing a piston ventilator including a patient circuit, a piston and cylinder assembly for providing a primary source of pressurized gas to said patient circuit, a secondary source of pressurized gas in communication with said patient circuit, a pressure sensor in said patient circuit in proximity to said patient, a gas vent valve, a controller, and an exhalation valve having a valve element shiftable between an open position, a closed position and a plurality of intermediate positions; providing a pneumatic signal from said patient circuit to said element of said exhalation valve to control the resistance of the exhalation valve during the exhale portion of the patient'"'"'s breath; sensing the PEEP in the patient circuit by said pressure sensor; providing a signal from said pressure sensor to said controller corresponding to the sensed PEEP; comparing said sensed PEEP to a preselected target PEEP in said controller; providing a signal from said controller to said gas vent valve to adjust the venting characteristics of said gas vent valve and thereby alter said pneumatic signal; delivering said altered pneumatic signal to said element of said exhalation valve to change the resistance of the exhalation valve to patient exhalation.
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Specification
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Current AssigneeNELLCOR PURITAN BENNETT
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Original AssigneeNELLCOR PURITAN BENNETT
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InventorsJones, Michael B., Bailey, Eric, Lura, David B.
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Primary Examiner(s)Weiss, John G.
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Assistant Examiner(s)Anderson, Charles W.
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Application NumberUS09/007,426Time in Patent Office537 DaysField of Search128/205.18, 128/204.21, 128/204.18, 128/205.14, 128/205.15, 128/205.16, 128/205.17, 128/200.14, 128/204.23, 128/204.26US Class Current128/205.18CPC Class CodesA61M 16/00 Devices for influencing the...A61M 16/0072 Tidal volume piston pumpsA61M 16/024 including calculation means...A61M 16/107 in the inspiratory pathA61M 16/202 electrically actuatedA61M 16/205 used for exhalation controlA61M 16/206 Capsule valves, e.g. mushro...A61M 16/208 Non-controlled one-way valv...A61M 16/209 Relief valves
