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公开(公告)号:US20180347759A1
公开(公告)日:2018-12-06
申请号:US15609518
申请日:2017-05-31
申请人: Liji Huang , Chih-Chang Chen
发明人: Liji Huang , Chih-Chang Chen
CPC分类号: F17C13/02 , A61M16/1005 , A61M16/16 , A61M2016/0033 , A61M2202/0208 , A61M2205/0244 , A61M2205/3334 , A61M2205/3584 , A61M2205/50 , F17C13/04 , F17C2201/0109 , F17C2201/032 , F17C2205/0329 , F17C2205/0338 , F17C2221/011 , F17C2250/032 , F17C2250/034 , F17C2250/0426 , F17C2250/0443 , F17C2250/0491 , F17C2250/0495 , F17C2265/06 , F17C2270/025 , F17C2270/05 , G01F1/6845 , G01F1/696
摘要: The design and structure of a regulated digital dispense apparatus is exhibited in this disclosure. The MEMS mass flow meter embedded with a Bluetooth communication device and powered by a battery pack is designed to replace the mechanical low pressure gauge in a conventional gas dispense regulator such that the dispensed gas flowrate as well as totalized dispensed gas volume in each session or in consequent sessions can be continuously and precisely registered. The measured data are further relayed to local users via the local display or physical data port as well as via a paired smart device running a customized APP that can further relay the data to a designated cloud for cloud data processing, and the data can be streamed reversely. This disclosure shall assist and realize the ultimate optimized management for the users, distributors and/or gas manufacturers in the gas dispensing industry.
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公开(公告)号:US20180320275A1
公开(公告)日:2018-11-08
申请号:US15389395
申请日:2016-12-22
申请人: HSIN YUNG LIN
发明人: HSIN YUNG LIN
CPC分类号: C25B1/10 , A61M16/1005 , A61M16/12 , A61M2202/0208 , A61M2205/18 , A61M2205/3327
摘要: The preferred embodiment of the invention provides a gas generator comprising an ion membrane electrolytic cell and an atomized/volatile gas mixing tank. The ion membrane electrolytic cell comprises an ion exchange membrane, a cathode chamber and an anode chamber. An anode electrode is set in the anode chamber, and a cathode electrode is set in the cathode chamber. The ion exchange membrane is set between the anode chamber and the anode chamber. When water is electrolyzed by the ion membrane electrolytic cell, oxygen is generated by the anode electrode and hydrogen is generated by the cathode electrode. The atomized/volatile gas mixing tank coupled to the ion membrane electrolytic cell accepts the hydrogen generated from the ion membrane electrolytic cell and generates an atomized gas to mix with the hydrogen for generating a healthy gas.
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公开(公告)号:US20180318582A1
公开(公告)日:2018-11-08
申请号:US15965587
申请日:2018-04-27
发明人: Steve Lee , Dipen Makadia , Amy Fisher , Youngjae Lee , Timothy Marcum
CPC分类号: A61N1/3601 , A61B5/0531 , A61B5/0826 , A61B5/083 , A61B5/0833 , A61B5/0836 , A61B5/097 , A61B5/1135 , A61B5/14551 , A61B5/4818 , A61B5/4836 , A61B5/681 , A61B5/6816 , A61B5/6823 , A61B5/6826 , A61B5/6831 , A61B5/7405 , A61B5/7455 , A61B5/746 , A61M16/1005 , A61M2205/054 , A61M2230/205 , A61M2230/42 , A61M2230/432 , A61M2230/63 , A61N1/0456 , A61N1/321 , A61N1/36014 , G16H10/00 , A61M2230/005
摘要: There is provided a system including a controller, a breathing sensor securable to a patient to determine breathing data of the patient, a pulse oximetry sensor securable to the patient to sense pulse oximetry data of the patient, and a stimulator securable to the patient to stimulate the patient. The controller configured to execute instructions to obtain the breathing data from the breathing sensor, obtain the pulse oximetry data from the pulse oximetry sensor, determine, based on the breathing data of the patient and the pulse oximetry data of the patient, whether the patient is to be stimulated, and deliver, using the stimulator, stimulations to the patient, in response to determining that the patient is to be stimulated.
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4.发明申请公开(公告)号:US20180243518A1
公开(公告)日:2018-08-30
申请号:US15901114
申请日:2018-02-21
发明人: Jack B. SING , Nookarajesh Varma SANGADI , Michael M. FRONDORF , Pratheep K. MAHALINGAM , Suresha VENKATARAYA , Yue WANG , Chau Chong YE , Joel Preetham FERNANDES , Cong JIANG , Wei T. TAN , Eugene KUNG , Siew Ying KOH , Tak Wei David TEO , Leah NOAEILL
CPC分类号: A61M11/02 , A61M11/00 , A61M11/005 , A61M11/06 , A61M15/0085 , A61M16/0006 , A61M16/0009 , A61M16/0066 , A61M16/024 , A61M16/0488 , A61M16/06 , A61M16/0605 , A61M16/0683 , A61M16/0816 , A61M16/0833 , A61M16/0858 , A61M16/1005 , A61M16/1055 , A61M16/106 , A61M16/14 , A61M16/202 , A61M2016/0027 , A61M2016/0036 , A61M2202/0208 , A61M2205/14 , A61M2205/502 , A61M2205/52 , A61M2205/75 , A61M2205/7581 , A61M2205/8206 , A61M2206/11 , A61M2206/16 , A61M2209/08 , A61M2230/20 , A61M2202/0007
摘要: A nebulizer assembly for a respiratory device is provided having a housing defining a chamber. The housing also has a nebulizer port configured to receive a nebulizer to discharge atomized medication into the chamber. An outlet of a handle is coupled to the inlet of the housing. A hose is coupled to an inlet of the handle. A patient interface is coupled to the outlet of the housing. Air flows from the hose to the patient interface via the handle and the housing. The air mixes with the atomized medication within the chamber.
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公开(公告)号:US09981097B2
公开(公告)日:2018-05-29
申请号:US15277253
申请日:2016-09-28
发明人: Craig R. Tolmie , Jeff Milsap , Jaron M. Acker
IPC分类号: A61M16/00 , G01N33/00 , A61M16/20 , A61M16/12 , A61M16/10 , A61M16/08 , G01N27/416 , A61M16/16
CPC分类号: A61M16/0051 , A61M16/0003 , A61M16/024 , A61M16/085 , A61M16/1005 , A61M16/12 , A61M16/16 , A61M16/201 , A61M2016/102 , A61M2016/1035 , A61M2202/0275 , A61M2205/18 , A61M2205/27 , A61M2205/33 , A61M2205/502 , A61M2205/52 , A61M2205/581 , A61M2205/583 , A61M2205/70 , A61M2205/702 , G01N27/4163 , G01N33/0006 , G01N33/0008 , G01N33/0037 , Y02A50/245 , A61M2202/0007
摘要: 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. The long term sensitivity drift of catalytic type electrochemical gas sensors may 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 to reduce the amount of times the sensor goes offline.
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公开(公告)号:US09974479B2
公开(公告)日:2018-05-22
申请号:US15186726
申请日:2016-06-20
申请人: Richard J. Melker
发明人: Richard J. Melker
IPC分类号: A61B5/08 , A61B5/00 , A61M16/00 , A61M16/10 , A61B5/1455 , A61B5/0205 , A61B5/107 , A61B5/024 , A61B5/085
CPC分类号: A61B5/4884 , A61B5/0205 , A61B5/02416 , A61B5/08 , A61B5/085 , A61B5/1073 , A61B5/14551 , A61B5/14552 , A61B5/411 , A61B5/4836 , A61B2560/0223 , A61M16/0069 , A61M16/1005 , A61M2205/3303 , A61M2205/3306 , A61M2205/502 , A61M2230/205
摘要: Provided according to embodiments of the invention are methods of monitoring air obstruction in an individual that include obtaining at least one calibration photoplethysmography (PPG) signal stream from the individual while the individual spontaneously breathes through at least one resistor having a known resistance; using a processing device to determine changes in the at least one calibration PPG signal stream in response to an increase in resistance to the individual's breathing; obtaining a monitoring PPG signal stream from the individual during spontaneous breathing; and using the monitored PPG signal stream to determine a calibrated resistance value, and using the calibrated resistance value to determine a level of obstruction of the individual's breathing. Related devices are also provided herein.
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公开(公告)号:US09956364B2
公开(公告)日:2018-05-01
申请号:US15341142
申请日:2016-11-02
发明人: Craig R. Tolmie , Jeff Milsap , Jaron M. Acker
IPC分类号: A61M16/00 , G01N33/00 , G01N27/416 , A61M16/08 , A61M16/12 , A61M16/20 , A61M16/16 , A61M16/10
CPC分类号: A61M16/0051 , A61M16/0003 , A61M16/024 , A61M16/085 , A61M16/1005 , A61M16/12 , A61M16/16 , A61M16/201 , A61M2016/102 , A61M2016/1035 , A61M2202/0275 , A61M2205/18 , A61M2205/27 , A61M2205/33 , A61M2205/502 , A61M2205/52 , A61M2205/581 , A61M2205/583 , A61M2205/70 , A61M2205/702 , G01N27/4163 , G01N33/0006 , G01N33/0008 , G01N33/0037 , Y02A50/245 , A61M2202/0007
摘要: 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 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.
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公开(公告)号:US20180104435A1
公开(公告)日:2018-04-19
申请号:US15562604
申请日:2016-04-01
发明人: Sabine Häussermann , Peter Forsberg
CPC分类号: A61M16/1005 , A61M16/022 , A61M16/0672 , A61M16/10 , A61M2016/0039 , A61M2202/0007 , A61M2202/0208 , A61M2205/3303 , A61M2205/3334 , A61M2205/3569 , A61M2205/825 , A61M2205/8256 , A61M2230/005 , A61M2230/205
摘要: A clinical oxygen supply device (100) adapted to supply supplemental oxygen to a patient, comprising an oxygen inlet section (110) with a first coupling unit (111) adapted to be releasably coupled to a standardized oxygen wall outlet (1), an oxygen outlet section (120) with a second coupling unit (121) adapted to be releasably coupled to an oxygen dispensing device (2) attached to a patient (3), and an oxygen flow control section (130) with a regulation unit (132) adapted to regulate an oxygen flow between the oxygen inlet section (110) and the oxygen outlet section (120) on the basis of a control signal is provided. Display means adapted to indicate at least one operating parameter of the clinical oxygen supply device, an energy conversion section (140) adapted to generate electrical energy from pressure energy of oxygen supplied to the oxygen inlet section (110), and an energy supply section (150) adapted to provide the electrical energy generated by the energy conversion section (140) to the oxygen flow control section (130) and the display means are provided. The clinical oxygen supply device (100) is configured as a battery-less device. A clinical oxygen supply system (1) and a method of clinical oxygen supply are also part of the present invention.
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公开(公告)号:US09919118B2
公开(公告)日:2018-03-20
申请号:US15341584
申请日:2016-11-02
发明人: Craig R. Tolmie , Jeff Milsap , Jaron M. Acker
IPC分类号: A61M16/00 , G01N33/00 , A61M16/20 , A61M16/12 , A61M16/10 , A61M16/08 , G01N27/416 , A61M16/16
CPC分类号: A61M16/0051 , A61M16/0003 , A61M16/024 , A61M16/085 , A61M16/1005 , A61M16/12 , A61M16/16 , A61M16/201 , A61M2016/102 , A61M2016/1035 , A61M2202/0275 , A61M2205/18 , A61M2205/27 , A61M2205/33 , A61M2205/502 , A61M2205/52 , A61M2205/581 , A61M2205/583 , A61M2205/70 , A61M2205/702 , G01N27/4163 , G01N33/0006 , G01N33/0008 , G01N33/0037 , Y02A50/245 , A61M2202/0007
摘要: 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. 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 reduce the amount of times the sensor goes offline. Systems and methods may factor 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.
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10.发明授权公开(公告)号:US09895101B2
公开(公告)日:2018-02-20
申请号:US15369644
申请日:2016-12-05
发明人: Ivan Osorio
IPC分类号: A61B5/00 , A61N1/36 , A61B5/042 , A61B5/0205 , A61B5/04 , A61B5/0476 , A61M16/10 , A61B5/145 , A61B5/11 , A61B5/024 , A61B5/08 , A61B5/0452 , A61B5/021 , A61B5/026 , A61B5/0488
CPC分类号: A61B5/4094 , A61B5/0205 , A61B5/02055 , A61B5/021 , A61B5/024 , A61B5/02405 , A61B5/026 , A61B5/04012 , A61B5/042 , A61B5/0452 , A61B5/0476 , A61B5/0488 , A61B5/08 , A61B5/11 , A61B5/1117 , A61B5/1118 , A61B5/14503 , A61B5/14539 , A61B5/14542 , A61B5/4836 , A61B5/4848 , A61B5/486 , A61B5/686 , A61B5/7246 , A61B5/7264 , A61B5/7267 , A61B5/7275 , A61B5/7282 , A61B5/742 , A61B5/743 , A61B5/746 , A61B2560/0242 , A61B2560/0475 , A61M16/1005 , A61M2202/0208 , A61M2205/3303 , A61N1/36064 , A61N1/36135 , G06F19/00
摘要: A method for identifying changes in an epilepsy patient's disease state, comprising: receiving at least one body data stream; determining at least one body index from the at least one body data stream; detecting a plurality of seizure events from the at least one body index; determining at least one seizure metric value for each seizure event; performing a first classification analysis of the plurality of seizure events from the at least one seizure metric value; detecting at least one additional seizure event from the at least one determined index; determining at least one seizure metric value for each additional seizure event, performing a second classification analysis of the plurality of seizure events and the at least one additional seizure event based upon the at least one seizure metric value; comparing the results of the first classification analysis and the second classification analysis; and performing a further action.
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