Patents by Inventor Anthony D. Wondka

Anthony D. Wondka 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: 20240139453
    Abstract: A system for reducing airway obstructions of a patient may include a ventilator, a control unit, a gas delivery circuit with a proximal end in fluid communication with the ventilator and a distal end in fluid communication with a nasal interface, and a nasal interface. The nasal interface may include at least one jet nozzle, and at least one spontaneous respiration sensor in communication with the control unit for detecting a respiration effort pattern and a need for supporting airway patency. The system may be open to ambient. The control unit may determine more than one gas output velocities. The more than one gas output velocities may be synchronized with different parts of a spontaneous breath effort cycle, and a gas output velocity may be determined by a need for supporting airway patency.
    Type: Application
    Filed: January 5, 2024
    Publication date: May 2, 2024
    Inventors: Gregory Kapust, Todd Allum, Anthony D. Wondka, Joseph Cipollone, Anthony Gerber, Darius Eghbal, Joey Aguirre, George Kassanis
  • Patent number: 11896766
    Abstract: A system for reducing airway obstructions of a patient may include a ventilator, a control unit, a gas delivery circuit with a proximal end in fluid communication with the ventilator and a distal end in fluid communication with a nasal interface, and a nasal interface. The nasal interface may include at least one jet nozzle, and at least one spontaneous respiration sensor in communication with the control unit for detecting a respiration effort pattern and a need for supporting airway patency. The system may be open to ambient. The control unit may determine more than one gas output velocities. The more than one gas output velocities may be synchronized with different parts of a spontaneous breath effort cycle, and a gas output velocity may be determined by a need for supporting airway patency.
    Type: Grant
    Filed: July 27, 2021
    Date of Patent: February 13, 2024
    Assignee: BREATHE TECHNOLOGIES, INC.
    Inventors: Gregory Kapust, Todd Allum, Anthony D. Wondka, Joseph Cipollone, Anthony Gerber, Darius Eghbal, Joey Aguirre, George A. Kassanis
  • Patent number: 11707591
    Abstract: A non-invasive ventilation system may include at least one outer tube with a proximal lateral end of the outer tube adapted to extend to a side of a nose. The at least one outer tube may also include a throat section. At least one coupler may be located at a distal section of the outer tube for impinging at least one nostril and positioning the at least one outer tube relative to the at least one nostril. At least one jet nozzle may be positioned within the outer tube at the proximal lateral end and in fluid communication with a pressurized gas supply. At least one opening in the distal section may be adapted to be in fluid communication with the nostril. At least one aperture in the at least one outer tube may be in fluid communication with ambient air. The at least one aperture may be in proximity to the at least one jet nozzle.
    Type: Grant
    Filed: May 8, 2020
    Date of Patent: July 25, 2023
    Assignee: Breathe Technologies, Inc.
    Inventors: Gregory Kapust, Todd Allum, Anthony D. Wondka, Joseph Cipollone, Joey Aguirre, Darius Eghbal, Anthony Gerber, Lutz Freitag
  • Publication number: 20220167872
    Abstract: Apparatuses are described to accurately determine a gas concentration of a sample of a patient's breath. The apparatuses may include a sample compartment, a breath speed analyzer, a gas analyzer, and a processor. The sample compartment includes an inlet that receives the breath. The breath speed analyzer determines the speed of a portion of the breath. The gas analyzer determines a gas concentration. The processor includes an algorithm that determines a degree of non-homogeneity of the sample based on the speed, and a corrected gas concentration based on the degree of non-homogeneity. In some variations, the gas correction is determined independently of patient cooperation. Apparatuses may be tuned based on the intended population's expected breathing pattern ranges such that the sample compartment is filled with a homogenous end-tidal gas sample regardless of an individual's breathing pattern. These apparatuses are useful, for example, for end-tidal CO analysis. Methods are also described.
    Type: Application
    Filed: July 9, 2021
    Publication date: June 2, 2022
    Inventors: Anthony D. WONDKA, Anish BHATNAGAR
  • Patent number: 11331004
    Abstract: Methods and systems are described to obtain and analyze one or more gas samples from the breath of a person, and organizing the samples in a sample registry for subsequent analysis. This technique solves the various problems that are associated with targeting an individual breath for analysis, and allows for additional versatility and options in the analysis process.
    Type: Grant
    Filed: February 15, 2018
    Date of Patent: May 17, 2022
    Assignee: CAPNIA, INC.
    Inventors: Elvir Causevic, Anthony D. Wondka, Anish Bhatnagar
  • Publication number: 20220008673
    Abstract: A system for reducing airway obstructions of a patient may include a ventilator, a control unit, a gas delivery circuit with a proximal end in fluid communication with the ventilator and a distal end in fluid communication with a nasal interface, and a nasal interface. The nasal interface may include at least one jet nozzle, and at least one spontaneous respiration sensor in communication with the control unit for detecting a respiration effort pattern and a need for supporting airway patency. The system may be open to ambient. The control unit may determine more than one gas output velocities. The more than one gas output velocities may be synchronized with different parts of a spontaneous breath effort cycle, and a gas output velocity may be determined by a need for supporting airway patency.
    Type: Application
    Filed: July 27, 2021
    Publication date: January 13, 2022
    Inventors: Gregory Kapust, Todd Allum, Anthony D. Wondka, Joseph Cipollone, Anthony Gerber, Darius Eghbal, Joey Aguirre, George A. Kassanis
  • Patent number: 11191449
    Abstract: A breath parameter measuring device is described which takes into account breathing patterns which historically have been incompatible with accurate measurements. In particular, during fast breathing patterns, the sensor performing the measurement may not be able to respond quickly enough to provide the true reading. The disclosure may be useful for example in the case of neonatal breath carbon dioxide measurements.
    Type: Grant
    Filed: August 29, 2014
    Date of Patent: December 7, 2021
    Assignee: CAPNIA, INC.
    Inventors: Anthony D. Wondka, Anish Bhatnagar, Pedro E. De La Serna
  • Patent number: 11103667
    Abstract: A system for reducing airway obstructions of a patient may include a ventilator, a control unit, a gas delivery circuit with a proximal end in fluid communication with the ventilator and a distal end in fluid communication with a nasal interface, and a nasal interface. The nasal interface may include at least one jet nozzle, and at least one spontaneous respiration sensor in communication with the control unit for detecting a respiration effort pattern and a need for supporting airway patency. The system may be open to ambient. The control unit may determine more than one gas output velocities. The more than one gas output velocities may be synchronized with different parts of a spontaneous breath effort cycle, and a gas output velocity may be determined by a need for supporting airway patency.
    Type: Grant
    Filed: March 5, 2019
    Date of Patent: August 31, 2021
    Assignee: Breathe Technologies, Inc.
    Inventors: Gregory Kapust, Todd Allum, Anthony D. Wondka, Joseph Cipollone, Anthony Gerber, Darius Eghbal, Joey Aguirre, George A. Kassanis
  • Patent number: 11065407
    Abstract: Resuscitation apparatuses and methods for assisted ventilation are described herein. The apparatuses may include functional elements that allow the manual delivery of a prescribed volume to an adult or an infant lung. Furthermore, the apparatuses may inform and assure an emergency worker that an appropriate volume is being delivered and therefore lessen the possibility of barotrauma from over-delivery, or ventilatory distress from under-delivery. In some embodiments, the apparatuses include biomechanical and ergonomic functional elements that allow an adult hand to hold it in place during operation, while at the same time, allowing the user to actuate the apparatus to deliver only the necessary amount of volume suitable for an infant lung. In other embodiments, a volume-controlled design is applied to pediatric and adult resuscitation.
    Type: Grant
    Filed: December 2, 2016
    Date of Patent: July 20, 2021
    Assignee: SOLENO THERAPEUTICS, INC.
    Inventors: Constantine Andrew Gillespie, Otho Newman Boone, Pedro E. De La Serna, Anthony D. Wondka
  • Patent number: 11058324
    Abstract: Apparatuses are described to accurately determine a gas concentration of a sample of a patient's breath. The apparatuses may include a sample compartment, a breath speed analyzer, a gas analyzer, and a processor. The sample compartment includes an inlet that receives the breath. The breath speed analyzer determines the speed of a portion of the breath. The gas analyzer determines a gas concentration. The processor includes an algorithm that determines a degree of non-homogeneity of the sample based on the speed, and a corrected gas concentration based on the degree of non-homogeneity. In some variations, the gas correction is determined independently of patient cooperation. Apparatuses may be tuned based on the intended population's expected breathing pattern ranges such that the sample compartment is filled with a homogenous end-tidal gas sample regardless of an individual's breathing pattern. These apparatuses are useful, for example, for end-tidal CO analysis. Methods are also described.
    Type: Grant
    Filed: July 25, 2018
    Date of Patent: July 13, 2021
    Assignee: CAPNIA, INC.
    Inventors: Anthony D. Wondka, Anish Bhatnagar
  • Publication number: 20210015424
    Abstract: Methods for administering immune globulin and devices for use thereof. The methods may generally include measuring a patient's hemolysis levels and determining whether the patient is suitable for immune globulin treatment, determining whether immune globulin treatment should be continued, and/or determining if the dose needs to be changed.
    Type: Application
    Filed: February 24, 2020
    Publication date: January 21, 2021
    Inventors: Anish BHATNAGAR, Anthony D. WONDKA
  • Publication number: 20200405993
    Abstract: A non-invasive ventilation system may include at least one outer tube with a proximal lateral end of the outer tube adapted to extend to a side of a nose. The at least one outer tube may also include a throat section. At least one coupler may be located at a distal section of the outer tube for impinging at least one nostril and positioning the at least one outer tube relative to the at least one nostril. At least one jet nozzle may be positioned within the outer tube at the proximal lateral end and in fluid communication with a pressurized gas supply. At least one opening in the distal section may be adapted to be in fluid communication with the nostril. At least one aperture in the at least one outer tube may be in fluid communication with ambient air. The at least one aperture may be in proximity to the at least one jet nozzle.
    Type: Application
    Filed: May 8, 2020
    Publication date: December 31, 2020
    Inventors: Gregory Kapust, Todd Allum, Anthony D. Wondka, Joseph Cipollone, Joey Aguirre, Darius Eghbal, Anthony Gerber, Lutz Freitag
  • Publication number: 20200360643
    Abstract: A non-invasive ventilation system may include a nasal interface. The nasal interface may include a left outer tube with a distal end adapted to impinge a left nostril, at least one left opening in the left distal end in pneumatic communication with the left nostril, and a left proximal end of the left outer tube in fluid communication with ambient air. The left proximal end of the left outer tube may curve laterally away from a midline of a face. A right outer tube may be similarly provided. One or more left jet nozzles may direct ventilation gas into the left outer tube, and one or more right jet nozzles may direct ventilation gas into the right outer tube. The jet nozzles may be in fluid communication with the pressurized gas supply.
    Type: Application
    Filed: May 18, 2020
    Publication date: November 19, 2020
    Inventors: Anthony D. Wondka, Todd Allum, Joseph Cipollone, Gregory Kapust, Darius Eghbal, Joey Aguirre, Anthony Gerber
  • Publication number: 20200305729
    Abstract: Methods and systems are described to obtain and analyze a gas sample from a desired section of the breath of a person, while accounting for erratic, episodic or otherwise challenging breathing patterns that may otherwise make the capturing of a gas sample from the desired section of breath difficult. These techniques may provide more reliable, accurate and adequate samples of gas such as end-tidal gas, and ultimately an accurate analysis of the sample captured.
    Type: Application
    Filed: November 8, 2019
    Publication date: October 1, 2020
    Inventors: Anthony D. WONDKA, Anish BHATNAGAR, Scott J. GILBERT
  • Patent number: 10709864
    Abstract: A non-invasive ventilation system may include at least one outer tube with a proximal lateral end of the outer tube adapted to extend to a side of a nose. The at least one outer tube may also include a throat section. At least one coupler may be located at a distal section of the outer tube for impinging at least one nostril and positioning the at least one outer tube relative to the at least one nostril. At least one jet nozzle may be positioned within the outer tube at the proximal lateral end and in fluid communication with a pressurized gas supply. At least one opening in the distal section may be adapted to be in fluid communication with the nostril. At least one aperture in the at least one outer tube may be in fluid communication with ambient air. The at least one aperture may be in proximity to the at least one jet nozzle.
    Type: Grant
    Filed: September 29, 2015
    Date of Patent: July 14, 2020
    Assignee: Breathe Technologies, Inc.
    Inventors: Gregory Kapust, Todd Allum, Anthony D. Wondka, Joseph Cipollone, Joey Aguirre, Darius Eghbal, Anthony Gerber, Lutz Freitag
  • Patent number: 10695519
    Abstract: A non-invasive ventilation system may include a nasal interface. The nasal interface may include a left outer tube with a left distal end adapted to impinge a left nostril, at least one left opening in the left distal end in pneumatic communication with the left nostril, and a left proximal end of the left outer tube in fluid communication with ambient air. The left proximal end of the left outer tube may curve laterally away from a midline of a face. A right outer tube may be similarly provided. One or more left jet nozzles may direct ventilation gas into the left outer tube, and one or more right jet nozzles may direct ventilation gas into the right outer tube. The jet nozzles may be in fluid communication with the pressurized gas supply.
    Type: Grant
    Filed: April 2, 2010
    Date of Patent: June 30, 2020
    Assignee: Breathe Technologies, Inc.
    Inventors: Anthony D. Wondka, Todd Allum, Joseph Cipollone, Gregory Kapust, Darius Eghbal, Joey Aguirre, Anthony Gerber
  • Publication number: 20200179635
    Abstract: A system for reducing airway obstructions of a patient may include a ventilator, a control unit, a gas delivery circuit with a proximal end in fluid communication with the ventilator and a distal end in fluid communication with a nasal interface, and a nasal interface. The nasal interface may include at least one jet nozzle, and at least one spontaneous respiration sensor in communication with the control unit for detecting a respiration effort pattern and a need for supporting airway patency. The system may be open to ambient. The control unit may determine more than one gas output velocities. The more than one gas output velocities may be synchronized with different parts of a spontaneous breath effort cycle, and a gas output velocity may be determined by a need for supporting airway patency.
    Type: Application
    Filed: March 5, 2019
    Publication date: June 11, 2020
    Inventors: Gregory Kapust, Todd Allum, Anthony D. Wondka, Joseph Cipollone, Anthony Gerber, Darius Eghbal, Joey Aguirre, George A. Kassanis
  • Patent number: 10568568
    Abstract: Methods for administering immune globulin and devices for use thereof. The methods may generally include measuring a patient's hemolysis levels and determining whether the patient is suitable for immune globulin treatment, determining whether immune globulin treatment should be continued, and/or determining if the dose needs to be changed.
    Type: Grant
    Filed: August 27, 2015
    Date of Patent: February 25, 2020
    Assignee: CAPNIA, INC.
    Inventors: Anish Bhatnagar, Anthony D. Wondka
  • Publication number: 20200046254
    Abstract: Methods and systems are described to automatically obtain and analyze a lung airway gas sample from the breath of a person for compositional analysis. These techniques may provide an improved method for example for accurately and reliably measuring nitric oxide for asthma assessment in young children and non-cognizant patients.
    Type: Application
    Filed: April 16, 2019
    Publication date: February 13, 2020
    Inventors: Anthony D. WONDKA, Anish BHATNAGAR
  • Patent number: 10499819
    Abstract: Methods and systems are described to obtain and analyze a gas sample from a desired section of the breath of a person, while accounting for erratic, episodic or otherwise challenging breathing patterns that may otherwise make the capturing of a gas sample from the desired section of breath difficult. These techniques may provide more reliable, accurate and adequate samples of gas such as end-tidal gas, and ultimately an accurate analysis of the sample captured.
    Type: Grant
    Filed: January 8, 2014
    Date of Patent: December 10, 2019
    Assignee: CAPNIA, INC.
    Inventors: Anthony D. Wondka, Anish Bhatnagar, Scott J. Gilbert