Patents by Inventor Donald J. Novkov
Donald J. Novkov has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Publication number: 20240100289Abstract: The present disclosure relates generally to medical devices and, more particularly, to a gas mixing system for a medical ventilator. A gas mixer is provided to adjust the oxygen concentration of environmental air for a blower-based ventilator, by adjusting the mix of air upstream of the ventilator and providing the mixed air to the ventilator's environmental air inlet.Type: ApplicationFiled: December 6, 2023Publication date: March 28, 2024Applicant: Covidien LPInventors: Neil Godara, Matthew J. Phillips, Amand Kasimatis, Donald J. Novkov, Patrick S. Ryan, Amanda Centazzo-Colella, Laurentiu Murtescu, Amanda A. Hartley, Michael J. N. Matsumoto, Jacques L. Vassal, Danian Yang, Randy Yang
-
Publication number: 20240091484Abstract: Methods and systems for increasing oxygen concentration. An example system includes an oxygen valve configured to be coupled to an oxygen source, an oxygen plenum coupled to the valve, and a mixing valve. The mixing valve includes an oxygen inlet coupled to the oxygen plenum, an ambient-air inlet, and an outlet configured to be attached to an inlet of a blower of a ventilator. The system also includes a pressure sensor, coupled to the oxygen plenum, and a control device communicatively coupled to the pressure sensor and the oxygen valve. The control device receives a differential pressure, measured by the pressure sensor, and based on the measured differential pressure, generates a control signal to control the oxygen valve to maintain a target pressure of gas within the oxygen plenum.Type: ApplicationFiled: November 30, 2023Publication date: March 21, 2024Applicant: Covidien LPInventor: Donald J. Novkov
-
Patent number: 11931519Abstract: This disclosure describes systems and methods for humidifying ventilator delivered breathing gases. These systems and methods utilize a hollow cone atomizer (e.g., a pressure swirl atomizer) and/or a heating element associated with a heating circuit and/or a heating tube. In some aspect, the systems and methods utilize received flow, temperature, and/or humidity information to determine an amount of water to add to breathing gases to reach a desired humidity of the breathing gases delivered to the patient. In further aspects, the humidification system can serve as a nebulization system for delivering nebulized medicine.Type: GrantFiled: January 3, 2022Date of Patent: March 19, 2024Assignee: Covidien LPInventor: Donald J. Novkov
-
Patent number: 11883604Abstract: The present disclosure relates generally to medical devices and, more particularly, to a gas mixing system for a medical ventilator. A gas mixer is provided to adjust the oxygen concentration of environmental air for a blower-based ventilator, by adjusting the mix of air upstream of the ventilator and providing the mixed air to the ventilator's environmental air inlet.Type: GrantFiled: April 9, 2021Date of Patent: January 30, 2024Assignee: Covidien LPInventors: Neil Godara, Matthew J. Phillips, Amand Kasimatis, Donald J. Novkov, Patrick S. Ryan, Amanda Centazzo-Colella, Laurentiu Murtescu, Amanda A. Hartley, Michael J. N. Matsumoto, Jacques L. Vassal, Danian Yang, Randy Yang
-
Publication number: 20240024613Abstract: The disclosed technology relates to low-profile humidifiers for humidifying breathing gases from a medical ventilator. In an example, the low-profile humidifier includes a humidifier body that includes a liquid port; a pump in fluid communication with the liquid port; a valve in fluid communication with the pump; a nozzle in fluid communication with the valve; a controller that controls the valve and the pump. The low-profile humidifier also includes a removable flow channel that is removable from the humidifier body. The removable flow channel includes a gas inlet sized for connection to a conduit from a medical ventilator; a gas outlet; a conduit between the gas inlet and the gas outlet; a heated surface within the conduit to vaporize liquid droplets injected by the nozzle; and a through hole to receive the nozzle into the conduit.Type: ApplicationFiled: July 6, 2023Publication date: January 25, 2024Applicant: Covidien LPInventors: Donald J. NOVKOV, Matthew J. PHILLIPS
-
Publication number: 20240024609Abstract: Patient breathing circuits with a boost-heated extension. In an example, a patient breathing circuit includes an outer conduit having a first end connectable to a patient interface and a second end connectable to a humidifier; an inner conduit positioned within the first conduit, wherein a first lumen is defined within an interior of the inner conduit and a second lumen is defined between an exterior of the inner conduit and an interior of the outer conduit; a first heater wire coupled to the inner conduit; and a boost-heated expiratory extension having a first end extending from the outer conduit and a second end connectable to an expiratory port of a ventilator, wherein the boost-heated expiratory extension includes at least one of a second heater wire or a metallic post for heating gases flowing through the boost-heated expiratory extension.Type: ApplicationFiled: July 21, 2023Publication date: January 25, 2024Applicant: Covidien LPInventors: Maurizio LISTO, Stanley B. KAUS, Stefano BORALI, Donald J. NOVKOV, Matthew J PHILLIPS
-
Patent number: 11872349Abstract: Methods and systems for increasing oxygen concentration. An example system includes an oxygen valve configured to be coupled to an oxygen source, an oxygen plenum coupled to the valve, and a mixing valve. The mixing valve includes an oxygen inlet coupled to the oxygen plenum, an ambient-air inlet, and an outlet configured to be attached to an inlet of a blower of a ventilator. The system also includes a pressure sensor, coupled to the oxygen plenum, and a control device communicatively coupled to the pressure sensor and the oxygen valve. The control device receives a differential pressure, measured by the pressure sensor, and based on the measured differential pressure, generates a control signal to control the oxygen valve to maintain a target pressure of gas within the oxygen plenum.Type: GrantFiled: April 7, 2021Date of Patent: January 16, 2024Assignee: Covidien LPInventor: Donald J. Novkov
-
Publication number: 20230201515Abstract: Systems and methods for fluid delivery into a ventilation system are disclosed. In an example, the technology relates to a fluid delivery system for delivery of aerosolized liquid. The fluid delivery system includes an injection tip having a set of orifices configured to aerosolize a liquid having certain properties. The injection tip may be couplable with components of a breathing circuit. For example, the injection tip may be couplable with components at or below a wye component (e.g., at a wye component or between the wye component and a patient), such as at the wye component or at an endotracheal tube multi-port connector. Alternatively, the injection tip may be integrated into a breathing circuit, such as at an endotracheal tube connector or at an endotracheal tube.Type: ApplicationFiled: December 13, 2022Publication date: June 29, 2023Applicant: Covidien LPInventors: Karen Ann PHILLIPS, Matthew J PHILLIPS, Donald J. NOVKOV, Stanley B. KAUS, Gabriel SANCHEZ, Thomas M. RACHLIN, Scott M. SHAVER, Frank M. DREHER, Alexander J. HONEYCUTT
-
Publication number: 20230191068Abstract: A humidification system including a conduit for carrying breathing gases, a pump to pressurize a liquid for injection into breathing gases, a liquid-injection nozzle protruding at least partially into the conduit and configured to inject liquid, pressurized by the pump, into the conduit; and a heated surface protruding into the conduit and positioned to vaporize the liquid injected by the nozzle, wherein the heated surface crosses a flow path of the breathing gases flowing through the conduit.Type: ApplicationFiled: November 23, 2022Publication date: June 22, 2023Applicant: Covidien LPInventors: Donald J. NOVKOV, Matthew J. PHILLIPS
-
Publication number: 20220198219Abstract: The technology relates to methods and systems for recognition of conditions from ventilation data. The methods may include acquiring ventilation data for ventilation of a patient during a time period; generating an image based on the acquired ventilation data; providing, as input into a trained machine learning model, the generated image, wherein the trained machine learning model was trained based on images having a same type as the generated image; and based on output from the trained machine learning model, generating a predicted condition of the patient. The image may be generated by storing ventilatory data as pixel channel values to generate a human-indecipherable image.Type: ApplicationFiled: November 3, 2021Publication date: June 23, 2022Applicant: Covidien LPInventors: Donald J. Novkov, Matthew J. Phillips
-
Publication number: 20220193363Abstract: This disclosure describes systems and methods for humidifying ventilator delivered breathing gases. These systems and methods utilize a hollow cone atomizer (e.g., a pressure swirl atomizer) and/or a heating element associated with a heating circuit and/or a heating tube. In some aspect, the systems and methods utilize received flow, temperature, and/or humidity information to determine an amount of water to add to breathing gases to reach a desired humidity of the breathing gases delivered to the patient. In further aspects, the humidification system can serve as a nebulization system for delivering nebulized medicine.Type: ApplicationFiled: January 3, 2022Publication date: June 23, 2022Applicant: Covidien LPInventor: Donald J. Novkov
-
Publication number: 20220072263Abstract: A humidifier, for a ventilation system, that includes an atomizer configured to deliver water droplets into a flow of breathing gases and a heating element configured to vaporize the water droplets emitted from the atomizer. The humidifier may be configured to set a target inhalation gas temperature based on internal temperature of a patient. Further, based on inspiratory flow and humidity data about breathing gases upstream of the atomizer of the humidifier, the humidifier may calculate and deliver an amount of water in one or more bursts of atomized water. Based on the target inhalation gas temperature, the humidifier may control a temperature of the heating element.Type: ApplicationFiled: September 2, 2021Publication date: March 10, 2022Applicant: Covidien LPInventors: Donald J. Novkov, Matthew J. Phillips, Vafa Jamali, Gabriel Sanchez, Stanley Kaus
-
Patent number: 11247016Abstract: Systems and methods for humidifying ventilator delivered breathing gases are disclosed. These systems and methods utilize a hollow cone atomizer (e.g., a pressure swirl atomizer) and/or a heating element associated with a heating circuit and/or a heating tube. In some aspect, the systems and methods utilize received flow, temperature, and/or humidity information to determine an amount of water to add to breathing gases to reach a desired humidity of the breathing gases delivered to the patient. In further aspects, the humidification system can serve as a nebulization system for delivering nebulized medicine.Type: GrantFiled: May 14, 2019Date of Patent: February 15, 2022Assignee: Covidien LPInventor: Donald J. Novkov
-
Publication number: 20210316105Abstract: The present disclosure relates generally to medical devices and, more particularly, to a gas mixing system for a medical ventilator. A gas mixer is provided to adjust the oxygen concentration of environmental air for a blower-based ventilator, by adjusting the mix of air upstream of the ventilator and providing the mixed air to the ventilator's environmental air inlet.Type: ApplicationFiled: April 9, 2021Publication date: October 14, 2021Applicant: Covidien LPInventors: Neil Godara, Matthew J. Phillips, Amand Kasimatis, Donald J. Novkov, Patrick S. Ryan, Amanda Centazzo-Colella, Laurentiu Murtescu, Amanda A. Hartley, Michael J. N. Matsumoto, Jacques L. Vassal, Danian Yang, Randy Yang
-
Publication number: 20210316104Abstract: Methods and systems for increasing oxygen concentration. An example system includes an oxygen valve configured to be coupled to an oxygen source, an oxygen plenum coupled to the valve, and a mixing valve. The mixing valve includes an oxygen inlet coupled to the oxygen plenum, an ambient-air inlet, and an outlet configured to be attached to an inlet of a blower of a ventilator. The system also includes a pressure sensor, coupled to the oxygen plenum, and a control device communicatively coupled to the pressure sensor and the oxygen valve. The control device receives a differential pressure, measured by the pressure sensor, and based on the measured differential pressure, generates a control signal to control the oxygen valve to maintain a target pressure of gas within the oxygen plenum.Type: ApplicationFiled: April 7, 2021Publication date: October 14, 2021Applicant: Covidien LPInventor: Donald J. Novkov
-
Publication number: 20190344038Abstract: This disclosure describes systems and methods for humidifying ventilator delivered breathing gases. These systems and methods utilize a hollow cone atomizer (e.g., a pressure swirl atomizer) and/or a heating element associated with a heating circuit and/or a heating tube. In some aspect, the systems and methods utilize received flow, temperature, and/or humidity information to determine an amount of water to add to breathing gases to reach a desired humidity of the breathing gases delivered to the patient. In further aspects, the humidification system can serve as a nebulization system for delivering nebulized medicine.Type: ApplicationFiled: May 14, 2019Publication date: November 14, 2019Applicant: Covidien LPInventor: Donald J. Novkov
-
Patent number: 6543449Abstract: A ventilatory system which may be operated in an invasive and a non-invasive mode is provided utilizing a graphical user interface for presenting only those controlled parameters utilized for that specific mode of operation. Volume and pressure ventilatory support parameters are included for invasive ventilation and non-invasive ventilation control parameters are provided for non-invasive ventilatory assistance. The graphical user interface enables an operator to select the desired mode of operation wherein only those parameters related to that specific mode of operation are presented. Furthermore, a blower is provided for providing an air source to the ventilator enabling the ventilator to be self sufficient.Type: GrantFiled: September 18, 1998Date of Patent: April 8, 2003Assignee: Respironics, Inc.Inventors: Paul L. Woodring, Gardner J. Kimm, Robert L. Stephenson, David R. Rogers, Donald J. Novkov, Rebecca A. Mabry, Steve Harrington
-
Publication number: 20030062045Abstract: A ventilatory system which may be operated in an invasive and a non-invasive mode is provided utilizing a graphical user interface for presenting only those controlled parameters utilized for that specific mode of operation. Volume and pressure ventilatory support parameters are included for invasive ventilation and non-invasive ventilation control parameters are provided for non-invasive ventilatory assistance. The graphical user interface enables an operator to select the desired mode of operation wherein only those parameters related to that specific mode of operation are presented. Furthermore, a blower is provided for providing an air source to the ventilator enabling the ventilator to be self sufficient.Type: ApplicationFiled: November 15, 2002Publication date: April 3, 2003Applicant: Respironics, Inc.Inventors: Paul L. Woodring, Gardner J. Kimm, Robert L. Stephenson, David R. Rogers, Donald J. Novkov, Rebecca A. Mabry, Steve Harrington
-
Patent number: 4741252Abstract: A diaphragm particularly for rolling-diaphragm type fluid pressure motors. The invention provides greatly improved service life of the motor, particularly under adverse condition in which conventional diaphragms fail quickly.Type: GrantFiled: September 24, 1986Date of Patent: May 3, 1988Assignee: Allied-Signal Inc.Inventors: James B. Harter, Donald J. Novkov