2016
DOI: 10.1186/s12984-016-0206-x
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Locomotor training through a novel robotic platform for gait rehabilitation in pediatric population: short report

Abstract: BackgroundCerebral Palsy (CP) is a disorder of posture and movement due to a defect in the immature brain. The use of robotic devices as alternative treatment to improve the gait function in patients with CP has increased. Nevertheless, current gait trainers are focused on controlling complete joint trajectories, avoiding postural control and the adaptation of the therapy to a specific patient. This paper presents the applicability of a new robotic platform called CPWalker in children with spastic diplegia.Fin… Show more

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Cited by 42 publications
(44 citation statements)
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“…Mobile-platform-mounted exoskeletons are similar to type VI, with the exoskeleton mounted on a mobile wheeled platform that supports the weight of the device [ 54 ]. Exoskeletons that completely support their own weight through their foot segments are also under this type, as they are mobile by walking ability.…”
Section: Balance Assessment Using Robotic Devices Extends Posturograpmentioning
confidence: 99%
“…Mobile-platform-mounted exoskeletons are similar to type VI, with the exoskeleton mounted on a mobile wheeled platform that supports the weight of the device [ 54 ]. Exoskeletons that completely support their own weight through their foot segments are also under this type, as they are mobile by walking ability.…”
Section: Balance Assessment Using Robotic Devices Extends Posturograpmentioning
confidence: 99%
“…Currently, a new generation of robotic devices [ 6 8 ] provides means for encouraging the patients to an active participation in exercises, which are now more task specific. Both the implemented novel control strategies and the modularity of new exoskeletons and gait trainers offer promising possibilities to enhance the rehabilitation outcomes by adapting the treatment to the patient’s needs [ 9 , 10 ]. Nevertheless, so far there is not enough evidence to ensure that classic robot-based rehabilitation provides better treatment outcomes by itself than conventional physical strategies in childhood [ 11 ].…”
Section: Introductionmentioning
confidence: 99%
“…The possibility of having this information directly from a sensor could dramatically reduce the computational burden of exoskeletons' control strategy because currently it is estimated based on very complex biomechanical models. 9 The dynamic and continuous monitor of gait parameters requires that the sensing mechanisms implemented are mobile, with limited or nonexistent wiring, preferably adaptable to a shoe, low cost, and with low power consumption. 10 Although a considerable number of solutions for plantar pressure have been already reported, they are mainly based on electronic or imaging devices, presenting some drawbacks such as fragility, instability, and inconsistent feedback.…”
Section: Introductionmentioning
confidence: 99%