Active clinical trials for "Paralysis"

The purpose of this study is to design and evaluation the feasibility, effects of Kinect-based Computer Games as Upper Extremity Training Tool in Children with Cerebral Palsy.

This study is designed to find the optimal dosage of home-based treadmill training needed to accelerate walking onset and to examine the long-term effects on the child's walking activity.

OBJECTIVE: To investigate whether VR videogames plus conventional therapy improves motor control compared with conventional therapy in children with cerebral palsy (CP). METHODS: Thirty participants with CP were included. A baseline (A0), a post-conventional intervention (A1), a post-experimental treatment (A2) and a two-month follow-up (A3) assessment were performed. Experimental intervention was based on videogames treatment (Kinect-Kbox360TM) added to their conventional physiotherapy. Motor and the process skills were evaluated by the Assessment of Motor and Process Skills (AMPS); balance by the Pediatric Reach test (PRT); gait speed by the 10-meters walk test (10MW); and running and jumping capacity by the Gross Motor Function Measure (GMFM).

Cerebral palsy (CP) is condition, sometimes thought of as a group of disorders that can involve brain and nervous system functions such as movement, learning, hearing, seeing, and thinking.Cerebral palsy is caused by injuries or abnormalities of the brain. Most of these problems occur as the baby grows in the womb, but they can happen at any time during the first 2 years of life, while the baby's brain is still developing.Bone marrow derived stem cells are known as a effective therapy. In this study the investigators evaluate the side effect of multiple intrathecal injection of bone marrow stem cell in patients with cerebral palsy.

The purpose of this study is to evaluate how a functional electrical stimulation (FES) device worn on the lower leg effects how children (ages 6-17 years) with hemiplegic cerebral palsy walk and perform other functional activities. The investigators expect to find that wearing the functional electrical stimulation device will improve walking and other functional activities of children with hemiplegic cerebral palsy. Participants will be trained in use of the device and will be required to wear it daily for 3 months. Each participant will be evaluated before beginning the intervention and after completing the intervention. This study will provide important information regarding the benefits of this treatment intervention in children with hemiplegic cerebral palsy.

The aim of this clinic trial is to testify the efficacy of using new and noninvasive therapy, called simultaneous "Magnetic and Oxygen Treatment along Meridians and Collaterals" (MOMC), to treat Bell's Palsy.

This study aims to evaluate the efficacy of umbilical cord blood therapy for children with cerebral palsy.

Cerebral palsy is common. It affects approximately 3 per 1000 children. Hip displacement due to muscle tightness (spasticity) occurs in up to half of the more severely affected children, and many of these children require major (bony) hip surgery. After bony hip surgery the management of pain is very difficult, as spasticity tends to increase and causes painful spasms which are difficult to control. Botulinum Toxin injections are known to reduce spasticity and therefore should also reduce pain. These injections take at least a week to work, but the effects can last for months. Botulinum Toxin is already an established treatment for chronic hip pain prior to surgery. The investigators aim to find out whether Botulinum Toxin injections can reduce post-operative pain. The identification of the level of pain can be challenging because most of these children are unable to communicate verbally. The investigators are therefore using a validated pain scoring tool that was designed especially for such children. This study will be the first to describe fully the pain experience of children with cerebral palsy undergoing this type of major surgery. The investigators will compare Botulinum Toxin injections with placebo (non-active) injections. There is a high emotional and financial burden on the families of these children. Families describe high levels of emotional distress around the time of surgery, particularly when their child is in pain. Difficulty with pain control post operatively may delay discharge from hospital and parental return to work. It causes disrupted sleep for the child and family and may delay the child's return to school. The results of this study will be shared with professionals and families at international conferences and in scientific and popular (patient-based) publications. This study cannot be undertaken in adults with cerebral palsy as they only rarely undergo this sort of surgery.

Damage control laparotomy (DCL) is a life saving maneuver used with success in trauma and acute general surgery patients. The technique involves source control of sepsis and hemorrhage with an abbreviated laparotomy. In other words, the surgical procedure is cut short to allow for resuscitation in the ICU after the immediately life threatening pathology is treated. Planned re-exploration is then performed within 24-48 hours. It is at this procedure that the injuries are reconstructed. This technique, unfortunately, has several complications implicit with its use including wound infection, enterocutaneous fistula formation, and intra-abdominal abscess development.[1] Additionally, in patients whom primary fascial closure is not achieved, extensive abdominal wall reconstruction will be required in 6-12 months. The key for preventing these complications is definitive closure of the abdominal fascia, however, 10-50% of patients will have a planned ventral hernia with an open abdominal wound at dismissal [1,2] Proven methods for decreasing the rate of planned ventral hernia utilize tension in the midline to counter the effects of lateral abdominal muscular retraction.[3,4,5] Despite these improvements, however, the planned ventral hernia rate continues to be substantial.[2] Botulinum toxin a (BTX) is an FDA approved neuron modulating agent which has been used extensively in cosmetic, motor and pain disorders over the past 20 years [6,7]. The toxin blocks acetylcholine and pain modulator release (calcitonin gene related peptide and substance P) from the pre-synaptic cholinergic nerve terminal. The peptides are unable to bind at their motor end plate receptors through a process that cleaves proteins involved in the transport protein cascade. This results in flaccid paralysis and neuromodulation of the abdominal wall muscles resulting in reduced lateral tension and pain. Theoretically, this could increase the rates of primary fascial closure, improve pain sensation, decrease the rate of complications associated with open abdomens all while lowering the costs and need for future abdominal wall reconstruction.

Cerebral Palsy (CP) is the most common cause of physical disability in childhood. Up to day the investigators have treated children diagnosed cerebral palsy with side-alternating whole body vibration (System Galileo®) from the age of two years on. Considering verticalisation (standing and walking) at about 12 months of age in a normal developing child the investigators suggest the introduction of verticalisation with whole body vibration to a child with CP at this early age in order to enhance motor development and participation. In this pilot study the investigators will test the feasibility and the effect on motor development of whole body vibration in children with CP from 12 months of age. The investigators will investigate the effect of whole body vibration on motor performance, independence in all day living situations, quality of life and contractures compared to a control group.