Patent application number | Description | Published |
20130192595 | Apparatus and Method for Monitoring Nitric Oxide Delivery - Described is an apparatus for monitoring nitric oxide delivery, wherein such apparatus comprises a display that provides a visual and/or numeric indication of the calculated dose of nitric oxide. Also described is a method of monitoring nitric oxide delivery, wherein the breathing gas flow rate and therapeutic gas flow rate are measured and used to determine the calculated dose of nitric oxide, which is then displayed. In some embodiments, an alert is provided when the calculated dose rises above or falls below a predetermined level or range. | 08-01-2013 |
20140261415 | Therapeutic Gas Delivery Device With Pulsed And Continuous Flow Control - Described are methods and devices for therapeutic or medical gas delivery that utilize at least one proportional control valve and at least one binary control valve. The proportional control valve may be in series with the binary control valve to provide a valve combination capable of pulsing therapeutic gas at different flow rates, depending on the setting of the proportional control valve. Alternatively, the proportional control valve and binary control valve may be in parallel flow paths. | 09-18-2014 |
20140275901 | Devices and Methods For Monitoring Oxygenation During Treatment With Delivery Of Nitric Oxide - The present invention provides devices and methods for calculating and monitoring oxygenation parameters during treatment with delivery of nitric oxide. The devices and methods of the present invention can calculate the oxygenation index based on measurements of mean airway pressure, saturation of oxygen and fraction of inspired oxygen derived from components of the present invention. Also described is a nitric oxide delivery device that incorporates a proximal pressure transducer. | 09-18-2014 |
20140283828 | Therapeutic Gas Delivery Device With Pulsed And Continuous Flow Control - Described are methods and devices for therapeutic or medical gas delivery that utilize at least one proportional control valve and at least one binary control valve. The proportional control valve may be in series with the binary control valve to provide a valve combination capable of pulsing therapeutic gas at different flow rates, depending on the setting of the proportional control valve. Alternatively, the proportional control valve and binary control valve may be in parallel flow paths. | 09-25-2014 |
20150075522 | Clinical Decision Support System and Methods - The present invention provides clinical decision support that can be used with non-portable and portable systems when delivering and/or monitoring delivery of a therapeutic gas comprising nitric oxide to a patient. Further, clinical decision support can be used with non-portable and portable systems during delivery and/or monitoring of delivery of therapeutic gas when nebulized drugs may and/or may not be being delivered to a patient (e.g., when nebulizers are delivered upstream in the inspiratory limb of the breathing circuit, into a breathing gas delivery system, etc.). | 03-19-2015 |
20150233879 | Systems And Methods For Compensating Long Term Sensitivity Drift Of Electrochemical Gas Sensors Exposed To Nitric Oxide - Described are systems and methods for compensating long term sensitivity drift of catalytic type electrochemical gas sensors used in systems for delivering therapeutic nitric oxide (NO) gas to a patient by compensating for drift that may be specific to the sensors atypical use in systems for delivering therapeutic nitric oxide gas to a patient. In at least some instances, the long term sensitivity drift of catalytic type electrochemical gas sensors can be addressed using calibration schedules, which can factor in the absolute change in set dose of NO being delivered to the patient that can drive one or more baseline calibrations. The calibration schedules can be used reduce the amount of times the sensor goes offline. Systems and methods described may factor in in actions occurring at the delivery system and/or aspects of the surrounding environment, prior to performing a baseline calibration, and may postpone the calibration and/or rejected using the sensor's output for the calibration. | 08-20-2015 |
20150258299 | Gas Delivery Device And System For Use In Magnetic Resonance Imaging - The present invention relates to a device and method of delivering inhaled Nitric Oxide (iNO) to a patient situated in a Magnetic Resonance Imaging (MRI) suite. | 09-17-2015 |
20150273175 | Systems And Method For Delivery Of Therapeutic Gas To Patients In Need Thereof Using Enhanced Breathing Circuit Gas (BCG) Flow Measurement - The present invention generally relates to systems and method for delivery of therapeutic gas to patients in need thereof using enhanced breathing circuit gas (BCG) flow measurement. At least some of these enhanced BCG flow measurements can be used to address some surprising phenomena that may, at times, occur when wild stream blending therapeutic gas into breathing gas that a patient receives from a breathing circuit affiliated with a ventilator. Utilizing at least some of these enhanced BCG flow measurements the dose of therapeutic gas wild stream blended into breathing gas that the patient receives from a ventilator can at least be more accurate and/or over delivery of therapeutic gas into the breathing gas can be avoided and/or reduced. | 10-01-2015 |
20150273176 | Systems And Method For Delivery Of Therapeutic Gas To Patients In Need Thereof Using Enhanced Breathing Circuit Gas (BCG) Flow Measurement - The present invention generally relates to systems and method for delivery of therapeutic gas to patients in need thereof using enhanced breathing circuit gas (BCG) flow measurement. At least some of these enhanced BCG flow measurements can be used to address some surprising phenomena that may, at times, occur when wild stream blending therapeutic gas into breathing gas that a patient receives from a breathing circuit affiliated with a ventilator. Utilizing at least some of these enhanced BCG flow measurements the dose of therapeutic gas wild stream blended into breathing gas that the patient receives from a ventilator can at least be more accurate and/or over delivery of therapeutic gas into the breathing gas can be avoided and/or reduced. | 10-01-2015 |