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    • 1. 发明授权
    • Adjustable nerve electrode
    • 可调神经电极
    • US08843188B2
    • 2014-09-23
    • US12948848
    • 2010-11-18
    • Kevin KilgoreDouglas Michael Ackermann, Jr.Niloy BhadraNarendra BhadraJoe Payer
    • Kevin KilgoreDouglas Michael Ackermann, Jr.Niloy BhadraNarendra BhadraJoe Payer
    • A61B5/04A61N1/06A61N1/05A61N1/36
    • A61N1/0556A61N1/0551A61N1/36071A61N1/36185
    • Example adjustable electrodes are described. One example adjustable electrode includes two or more contacts configured to selectively deliver high frequency alternating current (HFAC) to a nerve in an amount sufficient to produce an HFAC nerve conduction block in the nerve. The example adjustable electrode also includes a logic configured to selectively control which of the two or more contacts deliver HFAC to the nerve to control whether the nerve electrode is in a first (e.g., onset response mitigating) configuration or in a second (e.g., HFAC nerve conduction block maintenance) configuration. The electrode may be used in applications including, but not limited to, nerve block applications, and nerve stimulation applications. The electrode may be adjusted by changing attributes including, but not limited to, the number, length, orientation, distance between, surface area, and distance from a nerve of contacts to be used to deliver the HFAC.
    • 描述可调电极示例。 一个示例性可调节电极包括两个或更多个触点,其被配置为以足以在神经中产生HFAC神经传导阻滞的量向神经选择性地递送高频交流电(HFAC)。 示例性可调节电极还包括被配置为选择性地控制两个或多个触点中的哪一个将HFAC递送到神经以控制神经电极是否处于第一(例如起始应答缓解)配置或第二次(例如,HFAC) 神经传导阻滞维持)配置。 电极可用于包括但不限于神经阻滞应用和神经刺激应用的应用中。 可以通过改变属性来调节电极,包括但不限于数量,长度,取向,距离,表面积以及与用于递送HFAC的接触的神经的距离。
    • 4. 发明授权
    • Action potential conduction prevention
    • 动作电位传导预防
    • US08060208B2
    • 2011-11-15
    • US12214256
    • 2008-06-17
    • Kevin KilgoreNiloy Bhadra
    • Kevin KilgoreNiloy Bhadra
    • A61N1/34
    • A61N1/36017A61N1/36021A61N1/36071
    • An example method for selectively and reversibly preventing the conduction of action potentials in a targeted nerve region is presented. The method includes generating an electrical waveform having two phases and selectively depolarizing a nerve membrane using the electrical waveform. The nerve membrane is depolarized to a state where the nerve membrane cannot conduct an action potential. The depolarization is achieved by selectively repetitively providing the electrical waveform to a targeted nerve region associated with the nerve region to control m gates and h gates in the region and thus to control the availability of ions.
    • 提出了选择性地和可逆地防止目标神经区域中动作电位传导的示例性方法。 该方法包括产生具有两相的电波形并且使用电波形选择性去极化神经膜。 神经膜被去极化到神经膜不能发挥动作电位的状态。 通过选择性地将电波形重复地提供给与神经区域相关联的目标神经区域来控制该区域中的m个门极和h个门,从而控制离子的可用性来实现去极化。