公开(公告)号：US5700281A

公开(公告)日：1997-12-23

申请号：US668117

申请日：1996-06-17

申请人： James E. Brewer ,  Kenneth F. Olson ,  John F. Stolte ,  Nora J. Utke ,  Gary B. Stendahl

发明人： James E. Brewer ,  Kenneth F. Olson ,  John F. Stolte ,  Nora J. Utke ,  Gary B. Stendahl

IPC分类号： A61N1/04 ,  A61N1/08 ,  A61N1/39

CPC分类号： A61N1/04 ,  A61N1/3931 ,  A61N2001/083

摘要： A circuit detectable arrangement of a plurality of medical electrodes is provided with each electrode having an electrically nonconductive backing layer, a layer of electrically conductive adhesive disposed on the backing layer and a lead wire extending therefrom and electrically connected with the conductive adhesive. More specifically, a first electrode is disposed on an electrically nonconductive liner, a second electrode is disposed on an electrically nonconductive liner, and an electrical connector is provided between the first and second electrodes for electrically completing a circuit connecting the lead wire of the first electrode to the lead wire of the second electrode. Preferably, the backing layers of the first and second electrodes each include a conductor portion, and the electrical connector is connected between the conductor portion of the backing layer of the first electrode and the conductor portion of the backing layer of the second electrode. The electrical connector preferably comprises a strip of flexible and electrically conductive material and may include a nonconductive tear resistant strip. Utilizing the electrode packaging above, the present invention monitors the state of the AED and the stage of a rescue. In particular, at least five stages of a rescue are monitored. These include: 1) rescue initiated; 2) preparing victim; 3) applying electrodes; 4) AED in use; and 5) rescue completed.

摘要翻译： 提供了多个医疗电极的电路可检测布置，每个电极具有不导电背衬层，设置在背衬层上的导电粘合剂层和从其延伸并与导电粘合剂电连接的引线。 更具体地，第一电极设置在非导电衬垫上，第二电极设置在非导电衬垫上，并且电连接器设置在第一和第二电极之间，用于电完成连接第一电极的引线的电路 到第二电极的引线。 优选地，第一和第二电极的背衬层各自包括导体部分，并且电连接器连接在第一电极的背衬层的导体部分和第二电极的背衬层的导体部分之间。 电连接器优选地包括柔性和导电材料条，并且可以包括不导电的抗撕裂条带。 利用上述电极封装，本发明监视AED的状态和救援的阶段。 特别是对至少五个营救阶段进行监控。 这些包括：1）救援启动; 2）准备受害人; 3）施加电极; 4）使用中的AED 和5）抢救完成。

公开(公告)号：US07463923B2

公开(公告)日：2008-12-09

申请号：US10760040

申请日：2004-01-16

申请人： James E. Brewer ,  Gary B. Stendahl ,  Kenneth F. Olson

发明人： James E. Brewer ,  Gary B. Stendahl ,  Kenneth F. Olson

IPC分类号： A61N1/39

CPC分类号： A61N1/3937 ,  A61N1/39 ,  A61N1/3906 ,  A61N1/3912

摘要： An apparatus and method for determining an optimal transchest external defibrillation waveform that provides for variable energy in the first or second phase of a biphasic waveform that, when applied through a plurality of electrodes positioned on a patient's torso, will produce a desired response in the patient's cardiac cell membranes. The method includes the steps of providing a quantitative model of a defibrillator circuit for producing external defibrillation waveforms, the quantitative model of a patient includes a chest component, a heart component, a cell membrane component and a quantitative description of the desired cardiac membrane response function. Finally, a quantitative description of a transchest external defibrillation waveform that will produce the desired cardiac membrane response function is computed. The computation is made as a function of the desired cardiac membrane response function, the patient model and the defibrillator circuit model.

摘要翻译： 一种用于确定最佳交错外部除颤波形的装置和方法，该波形在双相波形的第一或第二相中提供可变能量，当通过位于患者躯干上的多个电极施加时，将在患者的身体中产生期望的响应 心脏细胞膜。 该方法包括提供用于产生外部除颤波形的除颤器电路的定量模型的步骤，患者的定量模型包括胸部组分，心脏组分，细胞膜组分和所需心脏膜响应函数的定量描述 。 最后，计算将产生期望的心脏膜响应函数的经外科除颤波形的定量描述。 作为所需心脏膜响应函数，患者模型和除颤器电路模型的函数进行计算。

公开(公告)号：US5968080A

公开(公告)日：1999-10-19

申请号：US886736

申请日：1997-07-01

申请人： James E. Brewer ,  Gary B. Stendahl ,  Kenneth F. Olson

发明人： James E. Brewer ,  Gary B. Stendahl ,  Kenneth F. Olson

IPC分类号： A61N1/39

CPC分类号： A61N1/3937

摘要： A method for determining an optimal transchest external defibrillation waveform which, when applied through a plurality of electrodes positioned on a patient's torso will produce a desired response in the patient's cardiac cell membranes. The method includes the steps of providing a quantitative model of a defibrillator circuit for producing external defibrillation waveforms, the quantitative model of a patient includes a chest component, a heart component, a cell membrane component and a quantitative description of the desired cardiac membrane response function. Finally, a quantitative description of a transchest external defibrillation waveform that will produce the desired cardiac membrane response function is computed. The computation is made as a function of the desired cardiac membrane response function, the patient model and the defibrillator circuit model.

摘要翻译： 一种用于确定最佳交织外部除颤波形的方法，当通过位于患者躯体上的多个电极施加时，其将在患者的心脏细胞膜中产生期望的响应。 该方法包括提供用于产生外部除颤波形的除颤器电路的定量模型的步骤，患者的定量模型包括胸部组分，心脏组分，细胞膜组分和所需心脏膜响应函数的定量描述 。 最后，计算将产生期望的心脏膜响应函数的经外科除颤波形的定量描述。 作为所需心脏膜响应函数，患者模型和除颤器电路模型的函数进行计算。

公开(公告)号：US06411846B1

公开(公告)日：2002-06-25

申请号：US09678820

申请日：2000-10-04

申请人： James E. Brewer ,  Gary B. Stendahl ,  Kenneth F. Olson

发明人： James E. Brewer ,  Gary B. Stendahl ,  Kenneth F. Olson

IPC分类号： A61N139

CPC分类号： A61N1/3937 ,  A61N1/39 ,  A61N1/3906 ,  A61N1/3912

摘要： An apparatus and method for determining an optimal transchest external defibrillation waveform that provides for variable energy in the first or second phase of a biphasic waveform that, when applied through a plurality of electrodes positioned on a patient's torso, will produce a desired response in the patient's cardiac cell membranes. The method includes the steps of providing a quantitative model of a defibrillator circuit for producing external defibrillation waveforms, the quantitative model of a patient includes a chest component, a heart component, a cell membrane component and a quantitative description of the desired cardiac membrane response function. Finally, a quantitative description of a transchest external defibrillation waveform that will produce the desired cardiac membrane response function is computed. The computation is made as a function of the desired cardiac membrane response function, the patient model and the defibrillator circuit model.

公开(公告)号：US06263239B1

公开(公告)日：2001-07-17

申请号：US09383561

申请日：1999-08-26

申请人： James E. Brewer ,  Gary B. Stendahl ,  Kenneth F. Olson

发明人： James E. Brewer ,  Gary B. Stendahl ,  Kenneth F. Olson

IPC分类号： A61N139

CPC分类号： A61N1/3937 ,  A61N1/3906

摘要： A method for determining an optimal transchest external defibrillation waveform which, when applied through a plurality of electrodes positioned on a patient's torso will produce a desired response in the patient's cardiac cell membranes. The method includes the steps of providing a quantitative model of a defibrillator circuit for producing external defibrillation waveforms, the quantitative model of a patient includes a chest component, a heart component, a cell membrane component and a quantitative description of the desired cardiac membrane response function. Finally, a quantitative description of a transchest external defibrillation waveform that will produce the desired cardiac membrane response function is computed. The computation is made as a function of the desired cardiac membrane response function, the patient model and the defibrillator circuit model.

摘要翻译： 一种用于确定最佳交织外部除颤波形的方法，当通过位于患者躯体上的多个电极施加时，其将在患者的心脏细胞膜中产生期望的响应。 该方法包括提供用于产生外部除颤波形的除颤器电路的定量模型的步骤，患者的定量模型包括胸部组分，心脏组分，细胞膜组分和所需心脏膜响应函数的定量描述 。 最后，计算将产生期望的心脏膜响应函数的经外科除颤波形的定量描述。 作为所需心脏膜响应函数，患者模型和除颤器电路模型的函数进行计算。

公开(公告)号：US5897576A

公开(公告)日：1999-04-27

申请号：US57412

申请日：1998-04-08

申请人： Kenneth F. Olson ,  Gary B. Stendahl ,  Michael A. Tvedt ,  Michael D. Welsch

发明人： Kenneth F. Olson ,  Gary B. Stendahl ,  Michael A. Tvedt ,  Michael D. Welsch

IPC分类号： A61N1/39

CPC分类号： A61N1/39 ,  A61N1/3925

摘要： The AED of the present invention has a housing and a removable power supply, contained within its own power supply case, that is connected to a circuit for generating a defibrillation pulse. The circuit is electrically connectale to a pair of electrodes for delivering the defibrillation pulse. the AED further includes a temperature sensing device that is mounted inside the power supply case and connected to the power supply. The temperature sensing device senses the temperature in the power supply case and enables the adjustment of the operating parameters of the AED according to the sensed temperature.

摘要翻译： 本发明的AED具有容纳在其自己的电源壳体内的壳体和可移除电源，其连接到用于产生除颤脉冲的电路。 该电路与一对电极电连接，用于传递除颤脉冲。 AED还包括安装在电源壳体内并连接到电源的温度感测装置。 温度感测装置检测电源箱中的温度，并根据检测到的温度调节AED的工作参数。

公开(公告)号：US5817151A

公开(公告)日：1998-10-06

申请号：US658200

申请日：1996-06-04

申请人： Kenneth F. Olson ,  John F. Stolte ,  Nora J. Utke ,  Gary B. Stendahl

发明人： Kenneth F. Olson ,  John F. Stolte ,  Nora J. Utke ,  Gary B. Stendahl

IPC分类号： A61N1/04 ,  A61N1/08 ,  A61N1/39

CPC分类号： A61N1/3931 ,  A61N1/046 ,  A61N2001/083

摘要： A circuit detectable arrangement of electrodes and a package thereof are provided so that the presence of a fresh package of electrodes can be detected by a device and can be distinguished from electrodes that have been used or tampered with. A first electrode is disposed on an electrically non-conductive liner, a second electrode is disposed on an electrically non-conductive liner, and an electrical connector is provided between the first and second electrodes for electrically completing a circuit connecting the lead wire of the first electrode to the lead wire of the second electrode. An electrode package is also provided including the first and second electrodes therein. Within the package, the first and second electrodes are provided adjacent to one another with their backing layers generally parallel to one another and with a loop formed in the electrical connector. The loop extends across the tear line and into the interior portion of the package so that by opening the package along the tear line, the electrical connector can be broken. The electrical connector may also include a strip of tear resistant material which is positioned within the interior portion of the package. Opening of the package can be facilitated by extending the strip of tear resistant material or a portion of the electrical connector through an opening of the package to provide a gripping means. Alternatively, at least one of the lead wires can be threaded within the package through the loop and within the interior portion so as to pass through the material of the package from said interior portion and provide an easy opening feature.

摘要翻译： 提供电极的电路可检测布置及其封装，使得可以通过器件检测新的电极组的存在，并且可以区分已经使用或被篡改的电极。 第一电极设置在不导电的衬垫上，第二电极设置在不导电的衬垫上，并且电连接器设置在第一和第二电极之间，用于电完成连接第一电极的引线的电路 电极连接到第二电极的引线。 还提供了包括其中的第一和第二电极的电极封装。 在封装内，第一和第二电极彼此相邻设置，其背衬层大体上彼此平行并且形成在电连接器中的环。 环路延伸穿过撕裂线并进入包装的内部，使得通过沿着撕裂线打开包装，电连接器可能被破坏。 电连接器还可以包括位于封装的内部部分内的抗撕裂材料条。 可以通过将抗撕裂材料带或电连接器的一部分穿过包装的开口延伸来提供包装的打开以提供夹持装置。 或者，至少一个引线可以通过环路并在内部部分内在封装内穿过，以便从所述内部部分穿过封装材料并提供容易的开口特征。

公开(公告)号：US6038473A

公开(公告)日：2000-03-14

申请号：US57133

申请日：1998-04-08

申请人： Kenneth F. Olson ,  Byron L. Gilman ,  Gary B. Stendahl

发明人： Kenneth F. Olson ,  Byron L. Gilman ,  Gary B. Stendahl

IPC分类号： A61N1/39 ,  H02J7/00 ,  H02J15/00

CPC分类号： A61N1/3975 ,  A61N1/3931 ,  H02J7/0024

摘要： A defibrillator battery pack comprises a housing having a first set of battery cells having an upper set and a lower set of cells and a second set of battery cells connected in parallel with one of the upper or the lower sets of the first set of battery cells. The first set of battery cells is used for charging a capacitor bank of a defibrillator. The second set of battery cells cannot be used for charging and is only used for developing a nominal 5 volts to drive a microprocessor and other circuitry components of an electrical control system of the defibrillator. This arrangement increases the life of the battery pack in the lower voltage range, which is advantageous for operating the microprocessor. This arrangement also maintains the intelligence of the electrical control system because the battery cells supplying power to the microprocessor will always fail after, and not before, failure of the battery cells supplying power for charging the capacitor bank.

摘要翻译： 除颤器电池组包括具有第一组电池单元的外壳，所述第一组电池具有上部组和下部电池单元，以及第二组电池单元，其与第一组电池单元的上部或下部组中的一个并联连接 。 第一组电池用于对除颤器的电容器组进行充电。 第二组电池不能用于充电，并且仅用于开发标称5伏以驱动除颤器的电气控制系统的微处理器和其它电路部件。 这种布置在较低电压范围内增加了电池组的寿命，这对于操作微处理器是有利的。 这种布置还保持电气控制系统的智能，因为向电池组提供电力的电池单元的故障之后（而不是之前）向微处理器供电的电池单元将总是失败。

公开(公告)号：US5991658A

公开(公告)日：1999-11-23

申请号：US881662

申请日：1997-06-24

申请人： James E. Brewer ,  Kenneth F. Olson ,  Byron L. Gilman ,  R. Eric Bosler

发明人： James E. Brewer ,  Kenneth F. Olson ,  Byron L. Gilman ,  R. Eric Bosler

IPC分类号： A61N1/39

CPC分类号： A61N1/39 ,  A61N1/3906 ,  A61N1/3925 ,  A61N1/3912

摘要： The present invention is an external defibrillator which controls and manages the formation of defibrillation waveforms. The waveforms are dynamically adjusted and created to be consistent with a myocardial cell response waveform. Dynamic tilt calculations based on time slices and corresponding functions based on best-fit models are used to generate the waveforms. The waveforms are dynamically adjusted to compensate for changes in resistance due to changes in the voltage during delivery of the waveform. The waveforms include a first and a second phase and are formed with minimal delay therebetween.

摘要翻译： 本发明是控制和管理除颤波形成形的外部除颤器。 波形被动态调整并创建为与心肌细胞反应波形一致。 使用基于时间片的动态倾斜计算和基于最佳拟合模型的相应函数来生成波形。 波形被动态调整以补偿由于在输送波形期间的电压变化导致的电阻变化。 这些波形包括第一和第二相，并且在它们之间以最小的延迟形成。

公开(公告)号：US6101413A

公开(公告)日：2000-08-08

申请号：US121079

申请日：1998-07-21

申请人： Kenneth F. Olson ,  Byron L. Gilman ,  James E. Brewer

发明人： Kenneth F. Olson ,  Byron L. Gilman ,  James E. Brewer

IPC分类号： A61N1/04 ,  A61N1/08 ,  A61N1/39

CPC分类号： A61N1/046 ,  A61N1/0492 ,  A61N1/3931 ,  A61N1/048 ,  A61N2001/083

摘要： Defibrillator electrodes having an identification element and a circuit which indicates to an AED the weight range of the patient being rescued. When the AED detects the presence of pediatric electrodes, it may select a different set of voice prompts that are specifically suited to a pediatric patient and/or it may select a pediatric dosage of electricity for the therapeutic shock.

摘要翻译： 除颤器电极具有识别元件和向AED指示被救疗患者的体重范围的电路。 当AED检测到儿科电极的存在时，它可以选择特别适合儿科患者的不同语音提示集，和/或可以选择用于治疗性休克的儿科用电量。