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    • 1. 发明申请
    • ELECTROMAGNETIC SIGNAL DELIVERY FOR TISSUE AFFECTED BY NEURONAL DYSFUNCTION, DEGRADATION, DAMAGE, AND/OR NECROSIS, AND ASSOCIATED SYSTEMS AND METHODS
    • 由神经元功能丧失,降解,损伤和/或坏死以及相关系统和方法影响的组织的电磁信号传递
    • US20110213440A1
    • 2011-09-01
    • US13104802
    • 2011-05-10
    • Brad FowlerBradford E. GlinerDavid Himes
    • Brad FowlerBradford E. GlinerDavid Himes
    • A61N1/36
    • A61N2/006A61N1/36017A61N1/36025A61N1/36082
    • Electromagnetic signal delivery for tissue affected by neuronal dysfunction, degradation, damage, and/or necrosis, and associated systems and methods are disclosed. A method in accordance with one embodiment of the invention includes identifying an affected region, with the affected region including neuronal tissue that, at least during a pre-dysfunctional period, was in neural communication with neuronal tissue in a dysfunctional region. The affected tissue can be functionally adversely affected by neuronal dysfunction in the dysfunctional region. The method can further include applying electromagnetic signals to the neuronal tissue in the affected region. For example, the electromagnetic signals can be applied to a hypo-active neural region that is not physically damaged, and has been identified as likely to recover at least in part as a result of electromagnetic signals. Signals can be applied at sub-threshold levels to cortical and/or subcortical regions.
    • 公开了由神经元功能障碍,降解,损伤和/或坏死以及相关系统和方法影响的组织的电磁信号传递。 根据本发明的一个实施例的方法包括识别受影响的区域,其中受影响的区域包括神经元组织,至少在功能失调之前期间,与功能障碍区域中的神经元组织进行神经交流。 受影响的组织可能在功能障碍区域的神经元功能障碍中受功能不良的影响。 该方法还可以包括将电磁信号应用于受影响区域中的神经元组织。 例如,电磁信号可以应用于没有物理损坏的低活性神经区域,并且已被鉴定为可能至少部分地由于电磁信号而恢复。 信号可以在亚阈值水平应用于皮层和/或皮质下区域。
    • 2. 发明申请
    • ELECTROMAGNETIC SIGNAL DELIVERY FOR TISSUE AFFECTED BY NEURONAL DYSFUNCTION, DEGRADATION, DAMAGE, AND/OR NECROSIS, AND ASSOCIATED SYSTEMS AND METHODS
    • 由神经元功能丧失,降解,损伤和/或坏死以及相关系统和方法影响的组织的电磁信号传递
    • US20080039895A1
    • 2008-02-14
    • US11697694
    • 2007-04-06
    • Brad FowlerBradford GlinerDavid Himes
    • Brad FowlerBradford GlinerDavid Himes
    • A61N1/00
    • A61N2/006A61N1/36017A61N1/36025A61N1/36082
    • Electromagnetic signal delivery for tissue affected by neuronal dysfunction, degradation, damage, and/or necrosis, and associated systems and methods are disclosed. A method in accordance with one embodiment of the invention includes identifying an affected region, with the affected region including neuronal tissue that, at least during a pre-dysfunctional period, was in neural communication with neuronal tissue in a dysfunctional region. The affected tissue can be functionally adversely affected by neuronal dysfunction in the dysfunctional region. The method can further include applying electromagnetic signals to the neuronal tissue in the affected region. For example, the electromagnetic signals can be applied to a hypo-active neural region that is not physically damaged, and has been identified as likely to recover at least in part as a result of electromagnetic signals. Signals can be applied at sub-threshold levels to cortical and/or subcortical regions.
    • 公开了由神经元功能障碍,降解,损伤和/或坏死以及相关系统和方法影响的组织的电磁信号传递。 根据本发明的一个实施例的方法包括识别受影响的区域,其中受影响的区域包括神经元组织,至少在功能失调之前期间,与功能障碍区域中的神经元组织进行神经交流。 受影响的组织可能在功能障碍区域的神经元功能障碍中受功能不良的影响。 该方法还可以包括将电磁信号应用于受影响区域中的神经元组织。 例如,电磁信号可以应用于没有物理损坏的低活性神经区域,并且已被鉴定为可能至少部分地由于电磁信号而恢复。 信号可以在亚阈值水平应用于皮层和/或皮质下区域。
    • 4. 发明授权
    • Electromagnetic signal delivery for tissue affected by neuronal dysfunction, degradation, damage, and/or necrosis, and associated systems and methods
    • 由神经元功能障碍,降解,损伤和/或坏死影响的组织的电磁信号传递,以及相关的系统和方法
    • US07949401B2
    • 2011-05-24
    • US11697694
    • 2007-04-06
    • Brad FowlerBradford E. GlinerDavid Himes
    • Brad FowlerBradford E. GlinerDavid Himes
    • A61N1/36
    • A61N2/006A61N1/36017A61N1/36025A61N1/36082
    • Electromagnetic signal delivery for tissue affected by neuronal dysfunction, degradation, damage, and/or necrosis, and associated systems and methods are disclosed. A method in accordance with one embodiment of the invention includes identifying an affected region, with the affected region including neuronal tissue that, at least during a pre-dysfunctional period, was in neural communication with neuronal tissue in a dysfunctional region. The affected tissue can be functionally adversely affected by neuronal dysfunction in the dysfunctional region. The method can further include applying electromagnetic signals to the neuronal tissue in the affected region. For example, the electromagnetic signals can be applied to a hypo-active neural region that is not physically damaged, and has been identified as likely to recover at least in part as a result of electromagnetic signals. Signals can be applied at sub-threshold levels to cortical and/or subcortical regions.
    • 公开了由神经元功能障碍,降解,损伤和/或坏死以及相关系统和方法影响的组织的电磁信号传递。 根据本发明的一个实施例的方法包括识别受影响的区域,其中受影响区域包括神经元组织,至少在功能失调之前期间,与功能障碍区域中的神经元组织进行神经交流。 受影响的组织可能在功能障碍区域的神经元功能障碍中受功能不良的影响。 该方法还可以包括将电磁信号应用于受影响区域中的神经元组织。 例如,电磁信号可以应用于没有物理损坏的低活性神经区域,并且已被鉴定为可能至少部分地由于电磁信号而恢复。 信号可以在亚阈值水平应用于皮层和/或皮质下区域。
    • 5. 发明授权
    • Electromagnetic signal delivery for tissue affected by neuronal dysfunction, degradation, damage, and/or necrosis, and associated systems and methods
    • 由神经元功能障碍,降解,损伤和/或坏死影响的组织的电磁信号传递,以及相关的系统和方法
    • US08504159B2
    • 2013-08-06
    • US13104802
    • 2011-05-10
    • Brad FowlerBradford E. GlinerDavid Himes
    • Brad FowlerBradford E. GlinerDavid Himes
    • A61B17/52A61B5/04A61N2/00A61N1/00A61N1/39
    • A61N2/006A61N1/36017A61N1/36025A61N1/36082
    • Electromagnetic signal delivery for tissue affected by neuronal dysfunction, degradation, damage, and/or necrosis, and associated systems and methods are disclosed. A method in accordance with one embodiment of the invention includes identifying an affected region, with the affected region including neuronal tissue that, at least during a pre-dysfunctional period, was in neural communication with neuronal tissue in a dysfunctional region. The affected tissue can be functionally adversely affected by neuronal dysfunction in the dysfunctional region. The method can further include applying electromagnetic signals to the neuronal tissue in the affected region. For example, the electromagnetic signals can be applied to a hypo-active neural region that is not physically damaged, and has been identified as likely to recover at least in part as a result of electromagnetic signals. Signals can be applied at sub-threshold levels to cortical and/or subcortical regions.
    • 公开了由神经元功能障碍,降解,损伤和/或坏死以及相关系统和方法影响的组织的电磁信号传递。 根据本发明的一个实施例的方法包括识别受影响的区域,其中受影响的区域包括神经元组织,至少在功能失调之前期间,与功能障碍区域中的神经元组织进行神经交流。 受影响的组织可能在功能障碍区域的神经元功能障碍中受功能不良的影响。 该方法还可以包括将电磁信号应用于受影响区域中的神经元组织。 例如,电磁信号可以应用于没有物理损坏的低活性神经区域,并且已被鉴定为可能至少部分地由于电磁信号而恢复。 信号可以在亚阈值水平应用于皮层和/或皮质下区域。