View clinical trials related to Cerebral Palsy.
Filter by:The improvement of walking capacity is a key objective of the rehabilitation of children with PC. There are different approaches from physiotherapy to address this need, including walking on the ground and on treadmill with partial weight support. Currently, there are robotic technologies adapted to the functional rehabilitation of patients. Assisted gait training with robotic devices such as the Walkbot allows a longer duration of training, at more variable speeds, and with a constant gait pattern adapted to the patient. This training, based on the intensity and repetition of the movement, has beneficial effects on the recovery and improvement of the patient's postural and locomotor functions. There are some studies that evaluate walking interventions on treadmill with partial weight support, on the ground and in assisted walking robot in patients with PC. Currently, there are no studies conducted that report the effectiveness of interventions performed with robotic walking training device Walkbot K on PC. However, studies in adults with Walkbot S, affected with neurological injury, have reported good results. Assisted gait training with robotic devices such as the Walkbot, based on the intensity and repetition of the movement, has beneficial effects on the recovery and improvement of the patient's postural and locomotor functions. However, due to the little evidence that exists, it is necessary to know the effectiveness of the Walkbot assisted walking robot in these patients by means of a clinical trial that allows to firmly establish the scope of its benefits.
A total of 28 patients who were followed-up in our clinic and received botulinum toxin injection of lower extremities in the last month were randomized to two groups in the study. Group 1 received conventional physiotherapy and Group 2 received robot-assisted gait training. The treatment period was 30 min/day, five sessions in a week, 15 sessions in total, for both groups. The study population was evaluated using range of joint motion evaluation chart, the Modified Ashworth Scale, The Gross Motor Function Classification System, The Berg Balance Scale, the functional independence measure for children, and the Edinburgh Visual Gait Score
The objective of this study was to examine the effect on spasticity and function of multifocal transcutaneous electrical stimulation incorporated in a 2-piece (Mollii) suit.
The aim of this study was to compare the effectiveness of umbilical cord mesenchymal stem cells (UCMSCs) and conditioned medium (CM) administration, UCMSCs only and control with standard therapy. Hypothesis: UCMSCs + CM therapy resulting in higher improvement in cognitive function, gross motor function and chemical factors than UCMSCs and standard therapy.
The Occupational Therapy Department at Boston Children's Hospital is teaming up with MGH Institute of Health Professions to explore the benefits of using robot assisted therapy (Amadeo) and a problem solving approach (Active Learning Program for Stroke) to achieving functional goals for children ages 7-17 years old that have hemiparesis. The hope is to help participants make gains in both hand/arm skills and progress in everyday activities such as self-care, play, school and work. Participation will look like regular therapy with sessions 3 times weekly for 8 weeks. Each visit will include time for games on the Amadeo and time spent problem solving current activity challenges for each child. Families are encouraged to participate.
In the literature, despite the reported positive findings of the Cognitive Orientation to daily Occupational Performance (CO-OP) approach, studies in this area have been limited and it is stated that studies involving more sample groups are needed (24-27). In addition, no studies investigating the effect of the CO-OP approach on functional status were found. The purpose of this study was to investigate the effects of CO-OP approach in terms of occupational performance and satisfaction also functional status in children with cerebral palsy (CP) and to determine parents' satisfaction level from CO-OP. The hypotheses of the study are: The CO-OP approach has no effect on occupational performance in children with CP. CO-OP approach has no effect on occupational satisfaction in children with CP. The CO-OP approach has no effect on the functional status of children with CP.
The vision of the Long-term Exercise Effects from Robotic Walking (LEER) research program is to develop optimal, individualized exercise strategies that would in turn enhance the health and well-being of non-ambulatory children with cerebral palsy (CP). To date, it has not been possible to study exercise among non-ambulatory children with cerebral palsy in a structured and standardized manner. Improved possibilities to carry out such studies are now offered by the robotic medical device Innowalk, which allows various training options in an upright weight-bearing position. In order to design optimal exercise strategies for children with cerebral palsy, the investigators will examine the effects of two tailored training programs, using Innowalk. Changes in cardiopulmonary and metabolic parameters, and in the levels of brain derived neurotropic factor (BDNF), nerve growth factor (NGF) and vascular endothelial growth factor (VEGF) will be examined. The investigators will assess the acute (1 day), adaptive (16 weeks), and long-term (1 year) effects of the exercise programs through indirect calorimetry and blood samples at multiple time points. The investigators will also study the environmental and behavioral factors facilitating and hindering participation in exercise, by semi-structured interviews. The goal is to design improved individualized exercise programs that will increase health and well-being in the children and their families, thereby decreasing the use of medications and healthcare.
The purpose of this study is to examine the underlying mechanisms that contribute to high energy costs for people with cerebral palsy (CP) as they walk. The investigators will characterize the cost landscape of children with CP, quantifying the magnitude of cost (net nondimensional oxygen consumption) associated with walking and common sub-tasks of walking, such as supporting and stabilizing the body.
This study seeks to 1) adapt a low-cost controller, the Novint Falcon, and a set of video games that would provide rehabilitative feedback for young people with cerebral palsy, and 2) explore feasibility of the Falcon system and it's effect on upper limb and hand function.
This study is a case control pilot study to investigate the impact of a short-term intervention on training anticipatory postural adjustments in a population of people with neurodevelopmental disabilities.