会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 43. 发明申请
    • SYSTEM FOR MOTOR REHABILITATION OF A PARETIC LIMB IN STROKE PATIENTS
    • 用于电动修复肢体器官的系统
    • WO2016076886A1
    • 2016-05-19
    • PCT/US2014/065703
    • 2014-11-14
    • FUNDACION TECNALIA RESEARCH & INNOVATIONTHE REGENTS OF THE UNIVERSITY OF CALIFORNIAEBERHARD KARLS UNIVERSITAET TUEBINGEN
    • RAMOS MURGUIALDAY, Dr. AnderBIRBAUMER, NielsCARMENA RAMON, Jose Miguel
    • A61B5/0488A61B5/04A61B5/11A61B5/00
    • A61B5/04888A61B5/04012A61B5/1122A61B5/1124A61B5/1126A61B5/40A61B5/486A61B5/6868A61B2505/09G09B5/02G09B19/003
    • The invention relates to a system for motor rehabilitation of a paretic limb (102, 103) of a 5 patient (100) comprising: - a first plurality of sensors (10) couplable to pre-established positions of a head (101) of the patient (100) for registering brain neurosignals of the patient (100); - a body-actuator (30, 40) couplable to, at least, the paretic limb (102, 103); - a hybrid brain machine interface (200) for decoding brain neurosignals into 10 movements of the body-actuator (30,40); The system further comprises: - a second plurality of EMG sensors (20) couplable to the paretic limb (102, 103) for registering its EMG activity; - means for providing the patient (100) with instructions relative to a series of 15 exercises and/or tasks to be carried out with the paretic limb (102, 103); and in that upon carrying out a series of training sessions, each session comprising at least a set of such instructions, the hybrid brain machine interface (200) is configured to switch between controlling the movements of the body-actuator (30, 40) based on the decoded brain neurosignals and a hybrid control of the movements of the body-actuator 20 (30, 40), when a significant level of decodable EMG activity has been registered, the hybrid control being an EMG-gated brain control. The invention also relates to a method for motor rehabilitation of the paretic limb (102, 103).
    • 本发明涉及一种用于5例患者(100)的麻痹肢体(102,103)的马达康复系统,包括: - 第一多个传感器(10),可耦合到所述头部(101)的预先建立的位置 用于登记患者(100)的脑神经信号的患者(100); - 至少与所述麻痹肢(102,103)连接的身体致动器(30,40); - 用于将脑神经信号解码为身体致动器(30,40)的10个运动的混合脑机接口(200); 所述系统还包括: - 第二组多个EMG传感器(20),可耦合到所述麻痹肢体(102,103),用于记录其EMG活动; - 用于向所述患者(100)提供关于要与所述麻痹肢体(102,103)一起执行的一系列15次锻炼和/或任务的指令的装置; 并且在执行一系列训练时,每个会话至少包括一组这样的指令,混合脑机接口(200)被配置为在控制身体致动器(30,40)的运动之间进行切换 在解码的脑神经信号和身体 - 致动器20(30,40)的运动的混合控制中,当已经登记了显着水平的可解码的EMG活动时,混合对照是EMG门控脑控制。 本发明还涉及一种用于复位肢体(102,103)的运动康复的方法。
    • 45. 发明申请
    • SYSTEMS, METHODS, AND DEVICES FOR MEASURING EYE MOVEMENT AND PUPIL RESPONSE
    • 用于测量眼睛运动和血压反应的系统,方法和装置
    • WO2015120438A1
    • 2015-08-13
    • PCT/US2015/015179
    • 2015-02-10
    • BRIEN HOLDEN VISION DIAGNOSTICS
    • CORNSWEET, Tom, N.PETERSON, PaulBOWER, Brad
    • A61B3/024A61B3/113
    • A61B3/113A61B3/08A61B3/111A61B3/112A61B3/145A61B5/40
    • A device for monitoring eye movement and pupil response that comprises a first optical pathway for displaying one or more images to the eyes of a patient and a second optical pathway for obtaining images of the eyes of a patient. The device further comprises at least one screen for displaying an image to the left eye of the patient which is not visible to the right eye of the patient and for displaying an image to the right eye of the patient which is not visible to the left eye of the patient; a first camera for capturing images of the left eye of the patient; and a second camera for capturing images of the right eye of the patient at substantially the same time as the first camera is capturing images of the left eye of the patient. The device also comprises at least one IR light source for illuminating the eyes of the patient; and a processor for processing the obtained images and measuring pupil response and/or eye movements.
    • 一种用于监测眼睛运动和瞳孔响应的装置,包括用于向患者的眼睛显示一个或多个图像的第一光学路径和用于获得患者眼睛的图像的第二光学路径。 该装置还包括至少一个屏幕,用于向患者的左眼显示图像,其对于患者的右眼不可见,并且用于向左眼不可见的患者的右眼显示图像 的病人 用于捕获患者左眼的图像的第一相机; 以及第二相机,用于在与第一相机正在捕获患者的左眼的图像的基本同时捕获患者的右眼的图像。 该装置还包括用于照亮患者眼睛的至少一个IR光源; 以及用于处理所获得的图像并测量瞳孔响应和/或眼睛运动的处理器。