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公开(公告)号:US10058668B2
公开(公告)日:2018-08-28
申请号:US14221210
申请日:2014-03-20
CPC分类号: A61M16/0427 , A61B5/082 , A61B5/085 , A61B5/0873 , A61B5/0878 , A61B5/097 , A61B5/6853 , A61B5/6858 , A61M16/0003 , A61M16/042 , A61M16/0434 , A61M16/0465 , A61M16/0475 , A61M16/0486 , A61M2016/0021 , A61M2016/0027 , A61M2016/003 , A61M2016/0036 , A61M2016/102 , A61M2205/3306 , A61M2205/332 , A61M2205/3375 , A61M2230/43 , A61M2230/65
摘要: Methods and systems are provided for intra-airway breath sensors where intra-airway breath sensors are not located within a ventilation gas delivery circuit, but are exposed to spontaneous respiration airflow from a patient. Furthermore, methods and systems of the present invention may be used to protect an intra-airway breath sensor from contacting tissue or accumulating debris that may impair abilities of the intra-airway breath sensors.
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公开(公告)号:US12048813B2
公开(公告)日:2024-07-30
申请号:US17388397
申请日:2021-07-29
发明人: Todd Allum , Joey Aguirre , Joseph Cipollone , Darius Eghbal , Gregory Kapust , Anthony Wondka
CPC分类号: A61M16/0666 , A61M16/00 , A61M16/0051 , A61M16/024 , A61M16/0605 , A61M16/0672 , A61M16/0677 , A61M16/0833 , A61M16/085 , A61M16/0858 , A61M16/127 , A61M2016/0021 , A61M2016/0024 , A61M2016/0027 , A61M16/0057 , A61M16/0063 , A61M16/0683 , A61M2016/1025 , A61M16/1045 , A61M16/16 , A61M16/161 , A61M2202/0208 , A61M2202/03 , A61M2205/0216 , A61M2205/0238 , A61M2205/3561 , A61M2205/42 , A61M2230/42 , A61M2230/432 , A61M2230/63 , A61M2230/65 , A61M2202/0208 , A61M2202/0007
摘要: Systems and methods may include a gas source, a gas delivery circuit, and a nasal interface allowing breathing ambient air through the nasal interface. A gas flow path through the nasal interface may have a distal gas flow path opening. A nozzle may be associated with a proximal end of the nasal interface a distance from the distal end gas flow path opening. At least a portion of an entrainment port may be between the nozzle and the distal end gas flow opening. The nozzle may deliver gas into the nasal interface to create a negative pressure area in the gas flow path at the entrainment port. The nasal interface and the nozzle may create a positive pressure area between the entrainment port and the distal end gas flow path opening. Gas from the gas delivery source and air entrained through the entrainment port may increase airway pressure or lung pressure or provide ventilatory support.
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公开(公告)号:US20240342419A1
公开(公告)日:2024-10-17
申请号:US18746683
申请日:2024-06-18
发明人: Todd Allum , Joey Aguirre , Joseph Cipollone , Darius Eghbal , Gregory Kapust , Anthony Wondka
CPC分类号: A61M16/0666 , A61M16/00 , A61M16/0051 , A61M16/024 , A61M16/0605 , A61M16/0672 , A61M16/0677 , A61M16/0833 , A61M16/085 , A61M16/0858 , A61M16/127 , A61M2016/0021 , A61M2016/0024 , A61M2016/0027 , A61M16/0057 , A61M16/0063 , A61M16/0683 , A61M2016/1025 , A61M16/1045 , A61M16/16 , A61M16/161 , A61M2202/0208 , A61M2202/03 , A61M2205/0216 , A61M2205/0238 , A61M2205/3561 , A61M2205/42 , A61M2230/42 , A61M2230/432 , A61M2230/63 , A61M2230/65
摘要: Systems and methods may include a gas source, a gas delivery circuit, and a nasal interface allowing breathing ambient air through the nasal interface. A gas flow path through the nasal interface may have a distal gas flow path opening. A nozzle may be associated with a proximal end of the nasal interface a distance from the distal end gas flow path opening. At least a portion of an entrainment port may be between the nozzle and the distal end gas flow opening. The nozzle may deliver gas into the nasal interface to create a negative pressure area in the gas flow path at the entrainment port. The nasal interface and the nozzle may create a positive pressure area between the entrainment port and the distal end gas flow path opening. Gas from the gas delivery source and air entrained through the entrainment port may increase airway pressure or lung pressure or provide ventilatory support.
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公开(公告)号:US20210353884A1
公开(公告)日:2021-11-18
申请号:US17388397
申请日:2021-07-29
发明人: Todd Allum , Joey Aguirre , Joseph Cipollone , Darius Eghbal , Gregory Kapust , Anthony Wondka
摘要: Systems and methods may include a gas source, a gas delivery circuit, and a nasal interface allowing breathing ambient air through the nasal interface. A gas flow path through the nasal interface may have a distal gas flow path opening. A nozzle may be associated with a proximal end of the nasal interface a distance from the distal end gas flow path opening. At least a portion of an entrainment port may be between the nozzle and the distal end gas flow opening. The nozzle may deliver gas into the nasal interface to create a negative pressure area in the gas flow path at the entrainment port. The nasal interface and the nozzle may create a positive pressure area between the entrainment port and the distal end gas flow path opening. Gas from the gas delivery source and air entrained through the entrainment port may increase airway pressure or lung pressure or provide ventilatory support.
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公开(公告)号:US11154672B2
公开(公告)日:2021-10-26
申请号:US16376161
申请日:2019-04-05
发明人: Todd Allum , Joey Aguirre , Joseph Cipollone , Darius Eghbal , Gregory Kapust , Anthony Wondka
摘要: Systems and methods may include a gas source, a gas delivery circuit, and a nasal interface allowing breathing ambient air through the nasal interface. A gas flow path through the nasal interface may have a distal gas flow path opening. A nozzle may be associated with a proximal end of the nasal interface a distance from the distal end gas flow path opening. At least a portion of an entrainment port may be between the nozzle and the distal end gas flow opening. The nozzle may deliver gas into the nasal interface to create a negative pressure area in the gas flow path at the entrainment port. The nasal interface and the nozzle may create a positive pressure area between the entrainment port and the distal end gas flow path opening. Gas from the gas delivery source and air entrained through the entrainment port may increase airway pressure or lung pressure or provide ventilatory support.
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公开(公告)号:US10265486B2
公开(公告)日:2019-04-23
申请号:US14795539
申请日:2015-07-09
发明人: Todd Allum , Joey Aguirre , Joseph Cipollone , Darius Eghbal , Gregory Kapust , Anthony Wondka
摘要: Systems and methods may include a gas source, a gas delivery circuit, and a nasal interface allowing breathing ambient air through the nasal interface. A gas flow path through the nasal interface may have a distal gas flow path opening. A nozzle may be associated with a proximal end of the nasal interface a distance from the distal end gas flow path opening. At least a portion of an entrainment port may be between the nozzle and the distal end gas flow opening. The nozzle may deliver gas into the nasal interface to create a negative pressure area in the gas flow path at the entrainment port. The nasal interface and the nozzle may create a positive pressure area between the entrainment port and the distal end gas flow path opening. Gas from the gas delivery source and air entrained through the entrainment port may increase airway pressure or lung pressure or provide ventilatory support.
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7.发明申请METHODS, SYSTEMS AND DEVICES FOR NON-INVASIVE VENTILATION INCLUDING A NON-SEALING VENTILATION INTERFACE WITH AN ENTRAINMENT PORT AND/OR PRESSURE FEATURE 审中-公开用于非入网通风的方法,系统和设备,包括带有入口端口和/或压力特征的非密封通风接口公开(公告)号:US20150314098A1
公开(公告)日:2015-11-05
申请号:US14795539
申请日:2015-07-09
发明人: Todd Allum , Joey Aguirre , Joseph Cipollone , Darius Eghbal , Gregory Kapust , Anthony Wondka
CPC分类号: A61M16/00 , A61M16/0051 , A61M16/0063 , A61M16/024 , A61M16/0605 , A61M16/0672 , A61M16/0677 , A61M16/0833 , A61M16/085 , A61M16/0858 , A61M16/1045 , A61M16/127 , A61M16/16 , A61M16/161 , A61M2016/0024 , A61M2016/0027 , A61M2016/1025 , A61M2202/0208 , A61M2202/03 , A61M2205/0216 , A61M2205/0238 , A61M2205/3561 , A61M2205/42 , A61M2230/42 , A61M2230/432 , A61M2230/63 , A61M2202/0007
摘要: Systems and methods may include a gas source, a gas delivery circuit, and a nasal interface allowing breathing ambient air through the nasal interface. A gas flow path through the nasal interface may have a distal gas flow path opening. A nozzle may be associated with a proximal end of the nasal interface a distance from the distal end gas flow path opening. At least a portion of an entrainment port may be between the nozzle and the distal end gas flow opening. The nozzle may deliver gas into the nasal interface to create a negative pressure area in the gas flow path at the entrainment port. The nasal interface and the nozzle may create a positive pressure area between the entrainment port and the distal end gas flow path opening. Gas from the gas delivery source and air entrained through the entrainment port may increase airway pressure or lung pressure or provide ventilatory support.
摘要翻译: 系统和方法可以包括气体源,气体输送电路和允许呼吸环境空气通过鼻接口的鼻接口。 通过鼻部界面的气体流路可以具有远端气体流动路径开口。 喷嘴可以与鼻接口的近端与远端气体流动通道开口相距一定距离。 夹带口的至少一部分可以在喷嘴和远端气体流动开口之间。 喷嘴可以将气体输送到鼻接口中,以在夹带端口处的气体流动路径中产生负压区域。 鼻接口和喷嘴可以在夹带口和远端气体流动通道开口之间产生正压区域。 来自气体输送源的气体和夹带通过夹带口的空气可增加气道压力或肺压力,或提供通气支持。
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