公开(公告)号：US10272013B2

公开(公告)日：2019-04-30

申请号：US14552769

申请日：2014-11-25

Applicant: Physio-Control, Inc.

Inventor： Fred William Chapman ,  Gary Debardi

IPC: A61H31/00 ,  A61N1/39

Abstract: A CPR feedback system, software and methods are provided. A top height sensor can be used to track the height of the patient's chest during the CPR chest compressions, by detecting a top aspect of its location. A depth module may generate, from a detected top aspect, a depth value for a depth reached by a current compression. A counter may determine a compressions number, e.g. for the current compression. A memory may store a depth variable that can return different target values for the target depths of individual compressions. A user interface has an output device that may output an indication for the rescuer, which reflects how well the depth value of the current compression matched a corresponding target value for it. The target values may be set so as to follow a preset profile, or change according to optional measurements of force and other parameters.

公开(公告)号：US20180160939A1

公开(公告)日：2018-06-14

申请号：US15836658

申请日：2017-12-08

Applicant: Physio-Control, Inc.

Inventor： Fred William Chapman

IPC: A61B5/083 ,  A61M16/00 ,  A61N1/39 ,  A61M16/08 ,  A61M16/20

CPC classification number: A61B5/0836 ,  A61B5/087 ,  A61M16/0003 ,  A61M16/0048 ,  A61M16/0051 ,  A61M16/04 ,  A61M16/085 ,  A61M16/201 ,  A61M16/208 ,  A61M2016/0015 ,  A61M2016/0027 ,  A61M2205/05 ,  A61M2205/18 ,  A61M2205/3576 ,  A61M2205/502 ,  A61M2205/581 ,  A61M2205/583 ,  A61M2230/432 ,  A61N1/39 ,  A61N1/3925

Abstract: A capnograph system may be used together with a ventilation system for a patient. The capnograph system may include a capnography module with a carbon dioxide detector, which may generate a carbon dioxide signal responsive to an amount of carbon dioxide detected within an air path of the ventilation system. A monitoring circuit may further detect a pressure within the air path. A processing component within the capnography module may generate a pressure signal responsive to the pressure detected in the air path. The pressure signal, alone or in combination with other signals such as the carbon dioxide signal, may be used to detect spontaneous breaths of the patient.

公开(公告)号：US20240164659A1

公开(公告)日：2024-05-23

申请号：US18518438

申请日：2023-11-22

Applicant: Physio-Control, Inc.

Inventor： Fred William Chapman

IPC: A61B5/083 ,  A61B5/087 ,  A61M16/00 ,  A61M16/20 ,  A61N1/39

CPC classification number: A61B5/0836 ,  A61B5/087 ,  A61M16/0003 ,  A61M16/0051 ,  A61M16/201 ,  A61N1/39 ,  A61N1/3925 ,  A61M2016/0027 ,  A61M16/085 ,  A61M2205/18 ,  A61M2205/3576

Abstract: A capnograph system may be used together with a ventilation system for a patient. The capnograph system may include a capnography module with a carbon dioxide detector, which may generate a carbon dioxide signal responsive to an amount of carbon dioxide detected within an air path of the ventilation system. A monitoring circuit may further detect a pressure within the air path. A processing component within the capnography module may generate a pressure signal responsive to the pressure detected in the air path. The pressure signal, alone or in combination with other signals such as the carbon dioxide signal, may be used to detect spontaneous breaths of the patient.

公开(公告)号：US10820833B2

公开(公告)日：2020-11-03

申请号：US15836658

申请日：2017-12-08

Applicant: Physio-Control, Inc.

Inventor： Fred William Chapman

IPC: A61B5/083 ,  A61M16/00 ,  A61N1/39 ,  A61B5/087 ,  A61M16/08 ,  A61M16/04 ,  A61M16/20

Abstract: A capnograph system may be used together with a ventilation system for a patient. The capnograph system may include a capnography module with a carbon dioxide detector, which may generate a carbon dioxide signal responsive to an amount of carbon dioxide detected within an air path of the ventilation system. A monitoring circuit may further detect a pressure within the air path. A processing component within the capnography module may generate a pressure signal responsive to the pressure detected in the air path. The pressure signal, alone or in combination with other signals such as the carbon dioxide signal, may be used to detect spontaneous breaths of the patient.

公开(公告)号：US20150257971A1

公开(公告)日：2015-09-17

申请号：US14552769

申请日：2014-11-25

Applicant: Physio-Control, Inc.

Inventor： Fred William Chapman ,  Gary Debardi

IPC: A61H31/00 ,  A61N1/39

CPC classification number: A61H31/00 ,  A61H31/005 ,  A61H2201/1253 ,  A61H2201/5061 ,  A61H2201/5064 ,  A61H2203/0443 ,  A61N1/39

Abstract: A CPR feedback system, software and methods are provided. A top height sensor can be used to track the height of the patient's chest during the CPR chest compressions, by detecting a top aspect of its location. A depth module may generate, from a detected top aspect, a depth value for a depth reached by a current compression. A counter may determine a compressions number, e.g. for the current compression. A memory may store a depth variable that can return different target values for the target depths of individual compressions. A user interface has an output device that may output an indication for the rescuer, which reflects how well the depth value of the current compression matched a corresponding target value for it. The target values may be set so as to follow a preset profile, or change according to optional measurements of force and other parameters.

Abstract translation: 提供CPR反馈系统，软件和方法。 顶部高度传感器可用于通过检测其位置的顶部方面来跟踪CPR胸部按压期间患者胸部的高度。 深度模块可以从检测到的顶部方面生成由当前压缩达到的深度的深度值。 计数器可以确定压缩数，例如。 用于当前的压缩。 存储器可以存储可以为各个压缩的目标深度返回不同目标值的深度变量。 用户接口具有输出设备，其可以输出救援者的指示，其反映当前压缩的深度值与其对应的目标值匹配的程度。 目标值可以被设置为遵循预设的轮廓，或者根据力和其他参数的可选测量来改变。

公开(公告)号：US20230381061A1

公开(公告)日：2023-11-30

申请号：US18230055

申请日：2023-08-03

Applicant: Physio-Control, Inc.

Inventor： Fred William Chapman ,  Gary Debardi

IPC: A61H31/00

CPC classification number: A61H31/005 ,  A61H31/00 ,  A61H2201/1253 ,  A61N1/39044 ,  A61H2203/0443 ,  A61H2201/5061 ,  A61H2201/5064

Abstract: A CPR feedback system, software and methods are provided. A top height sensor can be used to track the height of the patient's chest during the CPR chest compressions, by detecting a top aspect of its location. A depth module may generate, from a detected top aspect, a depth value for a depth reached by a current compression. A counter may determine a compressions number, e.g. for the current compression. A memory may store a depth variable that can return different target values for the target depths of individual compressions. A user interface has an output device that may output an indication for the rescuer, which reflects how well the depth value of the current compression matched a corresponding target value for it. The target values may be set so as to follow a preset profile, or change according to optional measurements of force and other parameters.

公开(公告)号：US20190231640A1

公开(公告)日：2019-08-01

申请号：US16376948

申请日：2019-04-05

Applicant: Physio-Control, Inc.

Inventor： Fred William Chapman ,  Gary Debardi

IPC: A61H31/00

CPC classification number: A61H31/00 ,  A61H31/005 ,  A61H2201/1253 ,  A61H2201/5061 ,  A61H2201/5064 ,  A61H2203/0443 ,  A61N1/39

Abstract: A CPR feedback system, software and methods are provided. A top height sensor can be used to track the height of the patient's chest during the CPR chest compressions, by detecting a top aspect of its location. A depth module may generate, from a detected top aspect, a depth value for a depth reached by a current compression. A counter may determine a compressions number, e.g. for the current compression. A memory may store a depth variable that can return different target values for the target depths of individual compressions. A user interface has an output device that may output an indication for the rescuer, which reflects how well the depth value of the current compression matched a corresponding target value for it. The target values may be set so as to follow a preset profile, or change according to optional measurements of force and other parameters.

公开(公告)号：US09901741B2

公开(公告)日：2018-02-27

申请号：US14855106

申请日：2015-09-15

Applicant: Physio-Control, Inc.

Inventor： Fred William Chapman ,  Gregory T. Kavounas

IPC: A61N1/00 ,  A61N1/39 ,  A61B5/0402 ,  A61B5/00 ,  A61B5/103 ,  A61B8/08 ,  A61N1/04 ,  A61B8/00

CPC classification number: A61N1/3987 ,  A61B5/0024 ,  A61B5/0059 ,  A61B5/0205 ,  A61B5/021 ,  A61B5/024 ,  A61B5/026 ,  A61B5/0402 ,  A61B5/1032 ,  A61B5/11 ,  A61B5/4836 ,  A61B8/0883 ,  A61B8/4427 ,  A61B8/488 ,  A61N1/046 ,  A61N1/3968

Abstract: A wearable cardioverter defibrillator (“WCD”) system includes a support structure that can be worn by a patient, and a defibrillator coupled to the support structure. An ECG input, rendered from an ECG of the patient, may meet a primary shock criterion. One or more sensor modules are further provided, which are worn by the patient at different times. The sensor modules may monitor different physiological parameters of the patient, and transmit signals about them. The WCD system further has a multi-sensor interface to receive the transmitted signals, and a processor to determine from them whether a secondary shock criterion is met. If both the primary and the secondary shock criteria are met, the decision is to shock. The signals increase specificity of the detection, while the patient can wear different modules depending on context.

公开(公告)号：US20160331987A1

公开(公告)日：2016-11-17

申请号：US14855106

申请日：2015-09-15

Applicant: Physio-Control, Inc.

Inventor： Fred William Chapman ,  Gregory T. Kavounas

IPC: A61N1/39 ,  A61B8/08 ,  A61B5/103 ,  A61B5/0402 ,  A61B5/00

CPC classification number: A61N1/3987 ,  A61B5/0024 ,  A61B5/0059 ,  A61B5/0205 ,  A61B5/021 ,  A61B5/024 ,  A61B5/026 ,  A61B5/0402 ,  A61B5/1032 ,  A61B5/11 ,  A61B5/4836 ,  A61B8/0883 ,  A61B8/4427 ,  A61B8/488 ,  A61N1/046 ,  A61N1/3968

Abstract: A wearable cardioverter defibrillator (“WCD”) system includes a support structure that can be worn by a patient, and a defibrillator coupled to the support structure. An ECG input, rendered from an ECG of the patient, may meet a primary shock criterion. One or more sensor modules are further provided, which are worn by the patient at different times. The sensor modules may monitor different physiological parameters of the patient, and transmit signals about them. The WCD system further has a multi-sensor interface to receive the transmitted signals, and a processor to determine from them whether a secondary shock criterion is met. If both the primary and the secondary shock criteria are met, the decision is to shock. The signals increase specificity of the detection, while the patient can wear different modules depending on context.

Abstract translation: 可穿戴的心律转复除颤器（“WCD”）系统包括可由患者佩戴的支撑结构和耦合到支撑结构的除颤器。 从患者的ECG呈现的ECG输入可以满足主要的休克标准。 还提供一个或多个传感器模块，其在不同时间由患者佩戴。 传感器模块可以监测患者的不同生理参数，并传输关于它们的信号。 WCD系统还具有用于接收传输信号的多传感器接口，以及处理器，用于确定是否满足次级冲击标准。 如果主要和次要的休克标准都得到满足，那么决定是震惊。 信号增加检测的特异性，而患者可以根据情况佩戴不同的模块。