View clinical trials related to Paralysis.
Filter by:Hemiparetic gait is characterized by strong asymmetries that could severely affect the quality of life of stroke survivors. This asymmetry is due to motor deficits in the paretic leg and the resulting compensations in the non-paretic limb. In this study, the investigators aim to evaluate the effect of actively promoting gait symmetry in hemiparetic patients by assessing the behavior of both paretic and non-paretic lower limbs. To this end, the investigators use a unilateral active Knee-Ankle-Foot Orthosis able to assist the paretic limb of hemiparetic patients during gait. The system is able to synchronize its action with the movement of the unassisted joints, promoting a natural and intuitive interaction. The device generate the assistance according to two differents strategies: (1) Replicating the movement of the helathy leg or (2) Inducing a healthy gait pattern on the paretic leg. The hypothesis is that a proper and natural interaction between the user and the exoskeleton would enable the patients to consider the robot action as a part of their own gait capability, improving their gait quality as consequence. Hemiparetic asymmetry is not only due to impairments in the affected limb, but also it is the consequence of biomechanical compensatory mechanisms that might arose in the non-paretic leg. We aim to assess the adaptation process of the subject to the exoskeleton assistance, and to evaluate the effects of such human-robot interaction in both paretic and non-paretic legs.
Abnormal gait is a common issue in children with CP. As a result of motor weakness and a lack of voluntary motor control. Furthermore, gait in children with cerebral palsy is characterized by a slower walking speed, a shorter stride length, and more time spent in double support. Deficits in postural control constitute a major limitation to the motor development in children with CP. The performance of static and dynamic tasks, such as sitting, standing, and walking, is limited in these children due to postural instability. Postural control deficits in CP are caused by altered sensory processing, motor impairment, and biomechanical alignment, which result in altered neuromuscular responses. HBO2 therapeutic benefits in CP are attributed to an increase in dissolved oxygen in plasma and tissue, which aids tissue regeneration, So, the purpose of this study was to investigate the long-term effects of hyperbaric oxygen therapy on spatiotemporal gait parameters and functional balance skills in children with CP.
This study will compare the motor outcomes for five infants with asymmetrical hand function (AHF) who will receive two, three week episodes of standard care separated by a three week episode of mCIMT paired with Neuromuscular Electrical Stimulation. The results of this study will inform decisions on the feasibility and efficacy of the treatment for use in a larger study for infants with AHF at risk for unilateral cerebral palsy.
This study investigates the effect of integrated Botulinum Neurotoxin A (BoNT) treatment on morphologic muscle and tendon properties, spasticity, joint stiffness, joint range of motion, muscle strength, gait and gross motor function. The integrated BoNT treatment combines BoNT-injections with serial casting and intensive physical therapy, as previously described by Molenaers et al. The current study will include 30 children who are clinically scheduled for BoNT treatment in the medial gastrocnemius and/or the semitendinosus muscle in the intervention group and 30 children in a control group who will receive usual care within a time span of 3 months.
Cerebral palsy (CP) is a permanent disorder of movement or posture due to non-progressive impairments of the developing brain. Current estimates indicate that as many as 30% of CP cases may be genetic in nature. In our study, the investigators will re-examine the data of children with CP, who are registered in the Slovenian National Registry of Cerebral Palsy. All children will be invited to the University Children's Hospital, University Medical Centre Ljubljana, where they will be re-examined by a neurologist. Blood for genetic testing will be taken. In the case of confirmed genetic ethiology of CP, the search for specific therapy will be possible.
Cerebral Palsy (CP) is an activity limitation, movement and posture deficiencies in early stage of life. In 80% of these children, upper extremity (UE) dysfunctions are observed, which leads to loss of quality of life, resulting in limited participation in activities of daily living (ADL). When the hands are affected in UE, fine motor skills such as grasping, writing and object manipulation are usually limited. This results in inadequate use of the extremities in functional activities. Although all children with CP are known to be affected by UE, studies in terms of physiotherapy and rehabilitation methods mostly focused on children with hemiparetic CP. Similar problems are observed in children with bilateral involvement. However, a wide variation is observed in the bimanual performance of children with hemiparetic and bilateral involvement. Studies evaluating UE activities in children with CP; emphasized that the inability to manipulate objects manually is one of the most important reasons for the restriction of participation in ADLs. Physiotherapy and rehabilitation programs include many neurodevelopmental treatment approaches including stretching, strengthening, positioning, splinting, casting, orthosis selection and movement facilitation. However, it is known that studies investigating the current efficacy of these treatments on UE functions mostly focus on unilateral CP. Interventions that focus on improving UE functions in children with bilateral CP are limited. In UE rehabilitation in bilateral CP; states that target-focused therapy, bimanual intensive task specific training programs and trainings such as HABIT (intensive bimanual training of the upper extremity) involving the lower extremity have been used, but there is only evidence for HABIT-ILE (HABIT involving the lower extremity). In the literature, it is observed that strengthening training with the Proprioceptive Neuromuscular Facilitation (PNF) method, which makes a significant contribution to muscle strength balance, is mostly used in lower extremity rehabilitation in these children. In this study, in the UE rehabilitation of children with hemiparetic and diparetic CP; in order to stimulate motor responses and improve neuromuscular control and function, the superiority of the PNF approach applied with scapular and UE patterns over the traditional Neurodevelopmental Therapy (NGT-Bobath) method will be determined.
Cerebral Palsy (CP) is the most common childhood disorder that occurs with a lesion in the developing infant brain, seen in 2-3/1000 live births. CP is a posture, movement and tone disorder that occurs due to prenatal or postnatal causes. It is not progressive, but since the anatomy of the lesion and the physical development of the individual are not completed, the course of the disorder may vary throughout life. Accompanied by motor dysfunctions, it varies according to clinical types. In addition to this, various visual, sensory and behavioral problems, speech disorders that cause learning difficulties and cognitive problems can also be observed. Ophthalmic disorders are the most common problem in CP and can also affect the developmental process of the patient. Since ophthalmic disorders and neurological deficits are associated in CP, the relationship between neurological disorder and ophthalmic disorders has been investigated in the literature. The aim of this study is to establish the Turkish validity and reliability of the Visual Function Classification System (VFCS) specific to individuals with Cerebral Palsy (CP).
A study comparing short-term delivery of epidural spinal stimulation versus transcutaneous spinal stimulation.
This randomized controlled trial will investigate the effect of hydrotherapy (halliwick concept) on motor functions in children with spastic cerebral palsy (CP). Minimum of 30 Spastic CP children will be recruited for this study. Children will be randomly assigned into control group who will receive conventional selected exercise treatment or study group who will receive the same conventional program in addition to underwater exercise program. Motor function will be evaluated at baseline and after 3 months of treatment. No potential harms are expected during this study.
The gait problems of the child with CP should be examined in detail. At this point, by assigning a different task to the child with the backward walking assessment, body perception, trunk stability provided by anterior-posterior cocontraction, balance, correction and protective reactions are observed. This observation ensures the exact determination of the problem that will guide the treatment. Back walking is a more difficult activity as it involves neuromuscular control and depends on proprioceptive sense and protective reflexes. In activities of daily living, backward walking is needed to perform tasks such as leaning on a chair and opening the door. The only test that can be applied to evaluate the ability to walk backwards is the 3 meter back walk test. This test was found to be valid and reliable both in the elderly population and in patients with total knee arthroplasty. In the literature, no study has been found on the factors affecting the three-meter backward walking skills in children with CP. The aim of this study is to examine the relationship between 3 meter back walk test and proprioception, trunk control and muscle strength.