Abstract:
Medical techniques include systems and methods for administering a positive pressure ventilation, a positive end expiratory pressure, and a vacuum to a person. Approaches also include treating a person with an intrathoracic pressure regulator so as to modulate or upregulate the autonomic system of the person, and treating a person with a combination of an intrathoracic pressure regulation treatment and an intra-aortic balloon pump treatment.
Abstract:
A system includes a guidance device that provides feedback to a user to compress a patient's chest at a rate of between about 90 and 110 compressions per minute and at a depth of between about 4.5 centimeters to about 6 centimeters. The system includes a pressure regulation system having a pressure-responsive valve that is configured to be coupled to a patient's airway. The pressure-responsive valve is configured to remain closed during successive chest compressions in order to permit removal at least about 200 ml from the lungs in order to lower intracranial pressure to improve survival with favorable neurological function. The pressure-responsive valve is configured to remain closed until the negative pressure within the patient's airway reaches about −7 cm H2O, at which time the pressure-responsive valve is configured to open to provide respiratory gases to flow to the lungs through the pressure-responsive valve.
Abstract translation:系统包括引导装置,其向用户提供反馈,以每分钟约90至110次按压之间的速度和约4.5厘米至约6厘米之间的深度压缩患者的胸部。 该系统包括压力调节系统,其具有被配置为联接到患者气道的压力响应阀。 压力响应阀被配置为在连续的胸部按压期间保持关闭,以便允许从肺部移除至少约200ml,以便降低颅内压力以改善具有有利的神经功能的存活。 压力响应阀构造成保持关闭,直到患者气道内的负压达到约-7cm H 2 O,此时压力响应阀构造成打开以提供呼吸气体通过压力 - 响应阀。
Abstract:
A method for regulating gas flows into and out of a patient includes repetitively forcing respiratory gases out of the lungs. Respiratory gases are prevented from entering back into the lungs during a time between when respiratory gases are forced out of the lungs. Periodically, an oxygen-containing gas is supplied to the lungs.
Abstract:
Medical techniques include systems and methods for administering a positive pressure ventilation, a positive end expiratory pressure, and a vacuum to a person. Approaches also include treating a person with an intrathoracic pressure regulator so as to modulate or upregulate the autonomic system of the person, and treating a person with a combination of an intrathoracic pressure regulation treatment and an intra-aortic balloon pump treatment.
Abstract:
A system includes a guidance device that provides feedback to a user to compress a patient's chest at a rate of between about 90 and 110 compressions per minute and at a depth of between about 4.5 centimeters to about 6 centimeters. The system includes a pressure regulation system having a pressure-responsive valve that is configured to be coupled to a patient's airway. The pressure-responsive valve is configured to remain closed during successive chest compressions in order to permit removal at least about 200 ml from the lungs in order to lower intracranial pressure to improve survival with favorable neurological function. The pressure-responsive valve is configured to remain closed until the negative pressure within the patient's airway reaches about −7 cm H2O, at which time the pressure-responsive valve is configured to open to provide respiratory gases to flow to the lungs through the pressure-responsive valve.
Abstract:
A method for regulating gas flows into and out of a patient includes repetitively forcing respiratory gases out of the lungs. Respiratory gases are prevented from entering back into the lungs during a time between when respiratory gases are forced out of the lungs. Periodically, an oxygen-containing gas is supplied to the lungs.
Abstract:
A system includes a guidance device that provides feedback to a user to compress a patient's chest at a rate of between about 90 and 110 compressions per minute and at a depth of between about 4.5 centimeters to about 6 centimeters. The system includes a pressure regulation system having a pressure-responsive valve that is configured to be coupled to a patient's airway. The pressure-responsive valve is configured to remain closed during successive chest compressions in order to permit removal at least about 200 ml from the lungs in order to lower intracranial pressure to improve survival with favorable neurological function. The pressure-responsive valve is configured to remain closed until the negative pressure within the patient's airway reaches about −7 cm H2O, at which time the pressure-responsive valve is configured to open to provide respiratory gases to flow to the lungs through the pressure-responsive valve.
Abstract translation:系统包括引导装置,其向用户提供反馈,以每分钟约90至110次按压之间的速度和约4.5厘米至约6厘米之间的深度压缩患者的胸部。 该系统包括压力调节系统,其具有被配置为联接到患者气道的压力响应阀。 压力响应阀被配置为在连续的胸部按压期间保持关闭,以便允许从肺部移除至少约200ml,以便降低颅内压力以改善具有有利的神经功能的存活。 压力响应阀构造成保持关闭,直到患者气道内的负压达到约-7cm H 2 O,此时压力响应阀构造成打开以提供呼吸气体通过压力 - 响应阀。
Abstract:
A system includes a guidance device that provides feedback to a user to compress a patient's chest at a rate of between about 90 and 110 compressions per minute and at a depth of between about 4.5 centimeters to about 6 centimeters. The system includes a pressure regulation system having a pressure-responsive valve that is configured to be coupled to a patient's airway. The pressure-responsive valve is configured to remain closed during successive chest compressions in order to permit removal at least about 200 ml from the lungs in order to lower intracranial pressure to improve survival with favorable neurological function. The pressure-responsive valve is configured to remain closed until the negative pressure within the patient's airway reaches about −7 cm H2O, at which time the pressure-responsive valve is configured to open to provide respiratory gases to flow to the lungs through the pressure-responsive valve.
Abstract translation:系统包括引导装置,其向用户提供反馈,以每分钟约90至110次按压之间的速度和约4.5厘米至约6厘米之间的深度压缩患者的胸部。 该系统包括压力调节系统,其具有被配置为联接到患者气道的压力响应阀。 压力响应阀被配置为在连续的胸部按压期间保持关闭,以便允许从肺部移除至少约200ml,以便降低颅内压力以改善具有有利的神经功能的存活。 压力响应阀构造成保持关闭,直到患者气道内的负压达到约-7cm H 2 O,此时压力响应阀构造成打开以提供呼吸气体通过压力 - 响应阀。