Add to ORKGThis paper describes a robotic training system designed to rehabilitate the standing ability of mice after spinal cord injury(SCI). The system is composed of a 6 Degree-of-Freedom (DOF) parallel mechanism, an active weight support system, and other measuring equipments which can monitor the response of the mouse. Preliminary experiments showed that the mouse could generate a certain degree of weight-support stand response during the training
This article reviews several tools we have developed to improve the understanding of locomotor train...
The past decades have seen rapid and vast developments of robots for the rehabilitation of sensorimo...
In people with neuromotor deficits of trunk and lower extremities, maintaining and regaining balance...
This paper describes a robotic training system designed to rehabilitate the standing ability of mice...
This paper introduces a new “assist-as needed” (AAN) training paradigm for rehabilitation of spina...
This paper introduces a new “assist-as-needed” (AAN) training paradigm for rehabilitation of spinal...
Traumatic SCIs have long-term health, economic and social consequences, stressing the urgency to dev...
The circuitries within the spinal cord are remarkably robust and plastic. Even in the absence of su...
Robotic training paradigms that enforce a fixed kinematic control might be suboptimal for rehabilita...
© 2014 Dr. Camila Rosa BattistuzzoTraumatic spinal cord injury (SCI) is a devastating condition with...
Central nervous system (CNS) disorders distinctly impair locomotor pattern generation and balance, b...
Robot-mediated therapy can help improve walking ability in patients following injuries to the centra...
Rodent models of spinal cord injury are critical for the development of treatments for upper limb mo...
Presented at a Special Seminar: MSPO Student Presentations on April 25, 2007 at the Coon Building, R...
Robot-mediated therapy can help improve walking ability in patients following injuries to the centra...
This article reviews several tools we have developed to improve the understanding of locomotor train...
The past decades have seen rapid and vast developments of robots for the rehabilitation of sensorimo...
In people with neuromotor deficits of trunk and lower extremities, maintaining and regaining balance...
This paper describes a robotic training system designed to rehabilitate the standing ability of mice...
This paper introduces a new “assist-as needed” (AAN) training paradigm for rehabilitation of spina...
This paper introduces a new “assist-as-needed” (AAN) training paradigm for rehabilitation of spinal...
Traumatic SCIs have long-term health, economic and social consequences, stressing the urgency to dev...
The circuitries within the spinal cord are remarkably robust and plastic. Even in the absence of su...
Robotic training paradigms that enforce a fixed kinematic control might be suboptimal for rehabilita...
© 2014 Dr. Camila Rosa BattistuzzoTraumatic spinal cord injury (SCI) is a devastating condition with...
Central nervous system (CNS) disorders distinctly impair locomotor pattern generation and balance, b...
Robot-mediated therapy can help improve walking ability in patients following injuries to the centra...
Rodent models of spinal cord injury are critical for the development of treatments for upper limb mo...
Presented at a Special Seminar: MSPO Student Presentations on April 25, 2007 at the Coon Building, R...
Robot-mediated therapy can help improve walking ability in patients following injuries to the centra...
This article reviews several tools we have developed to improve the understanding of locomotor train...
The past decades have seen rapid and vast developments of robots for the rehabilitation of sensorimo...
In people with neuromotor deficits of trunk and lower extremities, maintaining and regaining balance...