Patents by Inventor Matthew De Remer
Matthew De Remer 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).
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Patent number: 11641985Abstract: A modular fluid dispensing system includes a rigid bottle and multiple swappable base units. The modular fluid dispensing system includes a bottle housing to house a rigid bottle, a dispenser to dispense the fluid, and an attachment mechanism to reversibly affix the modular fluid dispensing system to a support structure. The bottle housing includes a threaded fastener to form a seal with the rigid bottle and a puncturing taper to puncture a seal of the rigid bottle. The dispenser includes a pump to initiate flow of the fluid from the rigid bottle and out a nozzle in response to a command signal from a sensor. The dispenser also includes a vacuum break port to allow an external fluid to replace the fluid in the bottle and prevent formation of a vacuum.Type: GrantFiled: April 13, 2021Date of Patent: May 9, 2023Assignee: ALO NEW YORK LLCInventors: Jonathan Bijari, Jason Barlia, Hardeep Singh, Wesley Robinson, Matthew De Remer
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Publication number: 20220322890Abstract: A modular fluid dispensing system includes a rigid bottle and multiple swappable base units. The modular fluid dispensing system includes a bottle housing to house a rigid bottle, a dispenser to dispense the fluid, and an attachment mechanism to reversibly affix the modular fluid dispensing system to a support structure. The bottle housing includes a threaded fastener to form a seal with the rigid bottle and a puncturing taper to puncture a seal of the rigid bottle. The dispenser includes a pump to initiate flow of the fluid from the rigid bottle and out a nozzle in response to a command signal from a sensor. The dispenser also includes a vacuum break port to allow an external fluid to replace the fluid in the bottle and prevent formation of a vacuum.Type: ApplicationFiled: April 13, 2021Publication date: October 13, 2022Applicant: ALO NEW YORK LLCInventors: Jonathan Bijari, Jason Barlia, Hardeep Singh, Wesley Robinson, Matthew De Remer
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Publication number: 20200352155Abstract: Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas.Type: ApplicationFiled: July 30, 2020Publication date: November 12, 2020Inventors: Robert FISHMAN, Robert HAVENER, Ihab Abdel FATTAH, Anas ABDELAZIM, Scott NEWELL, Thomas H. BISHOP, Tamer I. KHAYAL, Stanley KYI, Ronald TAYLOR, JR., Doug HARRIOTT, Matthew DE REMER, Paul MURRAY, John SULLIVAN, Mark ANDERSON, Richard BRINGHAM, Michael VAN DRIEL, Waleed H. HASSANEIN
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Patent number: 10750738Abstract: Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas.Type: GrantFiled: April 8, 2008Date of Patent: August 25, 2020Assignee: TRANSMEDICS, INC.Inventors: Robert Fishman, Robert Havener, Ihab Abdel Fattah, Anas Abdelazim, Scott Newell, Thomas H. Bishop, Tamer Khayal, Stanley Kyi, Ron Taylor, Doug Harriott, Matthew De Remer, Paul Murray, John Sullivan, Mark Anderson, Richard Bringham, Michael Van Driel, Waleed Hassanein
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Patent number: 9814230Abstract: Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas.Type: GrantFiled: April 8, 2008Date of Patent: November 14, 2017Assignee: TRANSMEDICS, INC.Inventors: Robert Fishman, Robert Havener, Ihab Abdel Fattah, Anas Abdelazim, Scott Newell, Tom Bishop, Tamer Khayal, Stanley Kyi, Ron Taylor, Doug Harriott, Matthew De Remer, Paul Murray, John Sullivan, Mark Anderson, Richard Bringham, Michael Van Driel, Waleed Hassanein
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Patent number: 9516875Abstract: Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas.Type: GrantFiled: February 12, 2013Date of Patent: December 13, 2016Assignee: TRANSMEDICS, INC.Inventors: Robert Fishman, Robert Havener, Ihab A. Fattah, Anas Abdelazim, Scott Newell, Thomas H. Bishop, Tamer I. Khayal, Stanley Kyi, Ron Taylor, Jr., Doug Harriott, Matthew De Remer, Paul Murray, John Sullivan, Mark Anderson, Richard Bringham, Michael Van Driel, Waleed H. Hassanein
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Patent number: 9462802Abstract: Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas.Type: GrantFiled: April 8, 2008Date of Patent: October 11, 2016Assignee: TRANSMEDICS, INC.Inventors: Robert Fishman, Robert Havener, Ihab Abdel Fattah, Anas Abdelazim, Scott Newell, Tom Bishop, Tamer Khayal, Stanley Kyi, Ron Taylor, Doug Harriott, Matthew De Remer, Paul Murray, John Sullivan, Mark Anderson, Richard Bringham, Michael Van Driel, Waleed Hassanein
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Patent number: 9247728Abstract: Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas.Type: GrantFiled: April 8, 2008Date of Patent: February 2, 2016Assignee: TRANSMEDICS, INC.Inventors: Robert Fishman, Robert Havener, Ihab Abdel Fattah, Anas Abdelazim, Scott Newell, Tom Bishop, Tamer Khayal, Stanley Kyi, Ron Taylor, Doug Harriott, Matthew De Remer, Paul Murray, John Sullivan, Mark Anderson, Richard Bringham, Michael Van Driel, Waleed Hassanein
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Patent number: 8420380Abstract: Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas.Type: GrantFiled: April 8, 2008Date of Patent: April 16, 2013Assignee: TransMedics, Inc.Inventors: Robert Fishman, Robert Havener, Ihab Abdel Fattah, Anas Abdelazim, Scott Newell, Tom Bishop, Tamer Khayal, Stanley Kyi, Ron Taylor, Doug Harriott, Matthew De Remer, Paul Murray, John Sullivan, Mark Anderson, Richard Bringham, Michael Van Driel, Waleed Hassanein
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Publication number: 20090197292Abstract: Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas.Type: ApplicationFiled: April 8, 2008Publication date: August 6, 2009Inventors: Robert Fishman, Robert Havener, Ihab Abdel Fattah, Anas Abdelazim, Scott Newell, Tom Bishop, Tamer Khayal, Stanley Kyi, Ron Taylor, Doug Harriott, Matthew De Remer, Paul Murray, John Sullivan, Mark Anderson, Richard Bringham, Michael Van Driel, Waleed Hassanein
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Publication number: 20090197324Abstract: Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas.Type: ApplicationFiled: April 8, 2008Publication date: August 6, 2009Inventors: Robert FISHMAN, Robert HAVENER, Ihab Abdel FATTAH, Anas ABDELAZIM, Scott NEWELL, Tom BISHOP, Tamer KHAYAL, Stanley KYI, Ron TAYLOR, Doug HARRIOTT, Matthew DE REMER, Paul MURRAY, John SULLIVAN, Mark ANDERSON, Richard BRINGHAM, Michael VAN DRIEL, Waleed Hassanein
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Publication number: 20090197240Abstract: Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas.Type: ApplicationFiled: April 8, 2008Publication date: August 6, 2009Applicant: TRANSMEDICS, INCInventors: Robert Fishman, Robert Havener, Ihab Abdel Fattah, Anas Abdelazim, Scott Newell, Tom Bishop, Tamer Khayal, Stanley Kyi, Ron Taylor, Doug Harriott, Matthew De Remer, Paul Murray, John Sullivan, Mark Anderson, Richard Bringham, Michael Van Driel, Waleed Hassanein
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Publication number: 20090197325Abstract: Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas.Type: ApplicationFiled: April 8, 2008Publication date: August 6, 2009Inventors: Robert FISHMAN, Robert HAVENER, Ihab Abdel FATTAH, Anas ABDELAZIM, Scott NEWELL, Tom BISHOP, Tamer KHAYAL, Stanley KYI, Ron TAYLOR, Doug HARRIOTT, Matthew DE REMER, Paul MURRAY, John SULLIVAN, Mark ANDERSON, Richard BRINGHAM, Michael VAN DRIEL, Waleed Hassanein
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Publication number: 20090197241Abstract: Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas.Type: ApplicationFiled: April 8, 2008Publication date: August 6, 2009Inventors: Robert Fishman, Robert Havener, Ihab Abdel Fattah, Anas Abdelazim, Scott Newell, Tom Bishop, Tamer Khayal, Stanley Kyi, Ron Taylor, Doug Harriott, Matthew De Remer, Paul Murray, John Sullivan, Mark Anderson, Richard Bringham, Michael Van Driel, Waleed Hassanein
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Patent number: 7119671Abstract: A seat buckle sensor system is provided that provides an output representative of a lock condition of a seat belt buckle. The system includes a magnet on an end of a seat buckle lock pin and a Hall device. The lock pin, and magnet on the end thereof, move between a locked position and an unlocked position relative to the Hall device. The magnet imparts a first magnetic flux on the Hall device in the locked position causing the Hall device to produce a first output. The magnet imparts a second magnetic flux on the Hall device in the unlocked position causing the Hall device to produce a second output.Type: GrantFiled: January 20, 2004Date of Patent: October 10, 2006Assignee: Stoneridge Control Devices, Inc.Inventors: Ronald Frank, Matthew De Remer, Adam Young
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Publication number: 20040227638Abstract: A seat buckle sensor system is provided that provides an output representative of a lock condition of a seat belt buckle. The system includes a magnet on an end of a seat buckle lock pin and a Hall device. The lock pin, and magnet on the end thereof, move between a locked position and an unlocked position relative to the Hall device. The magnet imparts a first magnetic flux on the Hall device in the locked position causing the Hall device to produce a first output. The magnet imparts a second magnetic flux on the Hall device in the unlocked position causing the Hall device to produce a second output.Type: ApplicationFiled: January 20, 2004Publication date: November 18, 2004Inventors: Ronald Frank, Matthew De Remer, Adam Young
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Patent number: D987326Type: GrantFiled: April 13, 2021Date of Patent: May 30, 2023Inventors: Jonathan Bijari, Jason Barlia, Wesley Robinson, Matthew De Remer, Brenton Lacombe
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Patent number: D987435Type: GrantFiled: April 13, 2021Date of Patent: May 30, 2023Inventors: Jonathan Bijari, Jason Barlia, Wesley Robinson, Matthew De Remer, Brenton Lacombe, Hardeep Singh