View clinical trials related to Paralysis.
Filter by:This study examines the effect of combining modified constraint-induced movement therapy (mCIMT) and self-regulation (SR) in promoting upper limb function of children with hemiplegic cerebral palsy (CP) studying in a school-based setting.
The diaphragmatic pacemaker (DP) has proven its utility in replacing mechanical ventilation (MV) in patients with chronic spinal cord injury (SCI) and Amyotrophic Lateral Sclerosis (ALS), by improving the patients quality of life and reducing morbi-mortality and the associated health care costs. The anesthetic management of these patients and the particularities of the surgical procedure represent an anesthetic challenge. The objective of our study is to analyze the management and the intraoperative complications in the patients with DP in our institution.
This is an intervention study including a baseline data collection, 6 weeks of robot-assisted training targeting hand dexterity, and a post-intervention data collection. The study will be conducted in the Motion Analysis Laboratory at Spaulding Rehabilitation Hospital, Boston, MA. This study aims to assess the effectiveness of a robot-assisted training on hand dexterity and quality of life in children with cerebral palsy. Additionally, the investigators will study the relationship between muscle synergies and the outcomes of robot-assisted training.
The purpose of this randomized and controlled intervention study is to explore the effect of a physiotherapy intervention targeting contract and spastic hamstring muscles in children having bilateral spastic cerebral palsy (CP), GMFCS I-III: A stretching routine targeting hamstrings (and psoas if short), and a progressive strengthening program on the muscles extending then lower extremities (quadriceps, gluteus maximus and triceps surae) Study hypothesis: Stretching of hamstrings and strength training of the extending muscles in the lower extremities in children with bilateral spastic cerebral palsy will increase popliteal angle, active knee extension, and gait function.
This is the first Development Safety Update Report prepared for Phase I-IIA Clinical Trial- FIBHGM-ECNC007-2010 (PHASE I / IIA CLINICAL TRIAL, UNICENTRIC, RANDOMIZED, CONTROLLED, TWO PARALLEL-GROUPS, TO EVALUATE THE SAFETY OF A NEW THERAPY WITH STEM CELLS DERIVED FROM ADIPOSE TISSUE FOR GLOTTAL GAP(GG) IN THE UNILATERAL PARALYSIS OF THE VOCAL CORD(VC) ) in the International Conference on Harmonization (ICH). Patients are randomized to receive one of the following therapeutic strategies: Group A: Autologous Fat processed by centrifugation to fill a paralyzed vocal cord. Group B: Autologous Fat enriched with stem cells from adipose tissue to treat vocal cord paralysis. Active control: Autologous fat tissue processed by centrifugation. Route of administration: Injection into a paralyzed vocal cord. Experimental drug: Stem cells from autologous adipose tissue in which autologous tissue is enriched or in suspension to fill the paralyzed vocal cord. The aim is to induce the overexpression and production of microvessels at local level. Route of administration: injection into the thickness of a paralyzed vocal cord.
The ACHIEVE study is a comparison of the effectiveness of 2 intensities of physical therapy treatment for children with Cerebral Palsy in an outpatient physical therapy setting. High intensity periodic is 2 hours of focused and high intense treatment per weekday for 4 weeks. In comparison, usual weekly is considered standard of care; although both dosing models are used clinically for children with CP. Participants are assign to the treatment group at random. Participant who are unable to consent to randomization are allowed to chose a treatment group.
Cerebral palsy (CP) is a group of non-progressive motor dysfunction but often changing, secondary to injury or brain abnormalities that occur in early stages of development. In children with CP, the brain injury lead to a delayed motor development in the first weeks, associated with muscular spasticity. Drug treatments include oral treatments (baclofen and tizanidine) and injectable treatments like Botox (intramuscular injection) and neurolysis with alcohol or phenol (local injection into the nerve). Regarding botulinum toxin, there is no study questioning its effectiveness. However, no publication on the pathophysiology of human muscle of the CP child after toxin injection was found. The action of the toxin on the neuromuscular junction (NMJ) and muscle structure is unknown in children with CP. The primary objective of this study is to describe structural abnormalities of the CP child's muscle following multiple toxin injections in terms of NMJ fragmentation and axonal sprouting. Secondary objectives: To evaluate the relationship between: - The severity of the motor impairment and muscle structural abnormalities. - The clinical measure of spasticity and muscle structural abnormalities. - To compare the structure spastic muscles with toxin injections and spastic muscle without toxin injections For muscles with multiple toxin injections, assessing the relationship between : - The number of toxin injections and muscle structural abnormalities. - The date of the first injection and muscle structural abnormalities. - The total dose of injected toxin in the muscle and its structural abnormalities. - The nature of the product injected in the muscle and its structural abnormalities. This innovative study will improve the knowledge on the effects of long-term botulinum toxin injections on the muscle (and therefore its safety in usual care), on the spastic muscle NMJ of CP children, on the pathophysiology of the CP child's muscle. All the visits all acts will be performed according to usual patient follow-up. Only a biopsy will be performed in addition, taken from an injected muscle during a planned operation. A biopsy may also be performed on a muscle without toxin injection if the act is made possible by the planned surgery. No biopsy will be made on a muscle that would not require surgery.
Cerebral palsy (CP) has been defined as "a group of permanent disorders of the development of movement and posture causing activity limitation(s) that are attributed to non-progressive disturbances that occurred in the developing fetal or infant brain". Investigators previously developed two classification systems, one for the upper limb and one for the hand, based on 100 films of patients with cerebral palsy. Separate classifications were developed following an initial study in which investigators found no correlations between upper limb and hand patterns, meaning that specific upper limb patterns are not always associated with specific hand patterns. Thumb patterns were not included in these classifications since robust classifications already exist, moreover thumb patterns are independent from hand patterns. The aim is to evaluate the inter- and intra-rater reliability of two previously developed classifications of upper limb and hand patterns.
Background: Progressive supranuclear palsy (PSP) is a rare neuro-degenerative disease, counted among atypical parkinsonism (AP). Medical treatment and rehabilitation are extremely limited in AP, therefore it would be very useful to find new ways to improve motor and non motor symptoms in PSP. The Brainway Deep Transcranial magnetic stimulation (DTMS) is a new technology of TMS using a particular coil, i.e. H-coil, able to stimulate deeper regions of the brain. Only few studies in literature have evaluated the efficacy of DTMS in Parkinson's Disease and parkinsonism; in particular in PSP patients, a case report showed an improvement in language.
Among robotic devices, Gloreha, with its compliant mechanical transmission, may represent an easily applied innovative solution to rehabilitation, because the hand can perform grasp and release activities wearing the device by mean of a flexible and light orthosis. Our objective on this research was to the robotic assisted motion and activity in additional to physiotherapy (PT) and occupational therapy (OT), on stroke patients with hand paralysis.