2018
DOI: 10.1016/j.rh.2018.01.001
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Utilización de sensores inerciales para la evaluación de la movilidad espinal en pacientes con espondiloartritis axial

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Cited by 3 publications
(3 citation statements)
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“…An IMU Shimmer3 ® sensor (Dublin, Ireland) was located on the patient's forehead, attached to the head using a flexible and adjustable strap ( Figure 1A). Orientation in the three planes of movement was obtained by a sensor at 50 Hz, connected to an android mobile phone using iUCOTrack © (Córdoba, Spain) [21,22] a software program for the acquisition and processing of the raw data obtained by the sensor, producing kinematic results. The patient performed three movements in each of the three spatial planes (flexion and extension in the sagittal plane, left and right rotation in the transverse plane, left and right lateroflexion in the frontal plane), recording the maximum values of each movement.…”
Section: Imu Assessmentmentioning
confidence: 99%
See 1 more Smart Citation
“…An IMU Shimmer3 ® sensor (Dublin, Ireland) was located on the patient's forehead, attached to the head using a flexible and adjustable strap ( Figure 1A). Orientation in the three planes of movement was obtained by a sensor at 50 Hz, connected to an android mobile phone using iUCOTrack © (Córdoba, Spain) [21,22] a software program for the acquisition and processing of the raw data obtained by the sensor, producing kinematic results. The patient performed three movements in each of the three spatial planes (flexion and extension in the sagittal plane, left and right rotation in the transverse plane, left and right lateroflexion in the frontal plane), recording the maximum values of each movement.…”
Section: Imu Assessmentmentioning
confidence: 99%
“…In fact, IMUs represent a scientific advancement in the bio-healthcare sector, by measuring the kinematics of body segments, since these are adapted to each body region and use specific protocols that must be validated [18][19][20]. Good reliability results regarding optical motion capture have been described for the assessment of cervical and thoracolumbar range of motion (ROM) [21,22]. Their use in neurological diseases includes balance assessments in multiple sclerosis [23,24], Parkinsonian tremor [25,26], or range of motion (ROM) in stroke [27].…”
Section: Introductionmentioning
confidence: 99%
“…A flexible and adjustable strap was attached to the head to support an IMU Shimmer3 ® sensor placed on the individual's forehead. The sensor captured the orientation in the three planes of movement at 50 Hz, and it was connected to an android mobile phone using iUCOTrack © software (iSAB, Córdoba, Spain) [45,46] for the acquisition and processing of the raw data. To calibrate the IMU, at the beginning of the test, the child was instructed to keep the eyes fixed on the monitor of a laptop (17" screen), placed 1 m in front of the child (Figure 1).…”
Section: Cervical Motor Control Test Development and Applicationmentioning
confidence: 99%