View clinical trials related to Paraparesis, Spastic.
Filter by:Cerebral Palsy is the most common cause of severe physical disability in childhood and may present difficulties and limitations that will have an impact on their independence and integration in all social areas. Within interventions aiming to manage CP Whole-Body Vibration (WBV) has shown some benefits such as reducing spasticity or improving strength and functionality of the lower limbs. The aim of this study is to assess the effectiveness on motor function and spasticity of the lower limbs by adding an intervention with WBV to an evidence-based multimodal physiotherapy treatment in children with CP.
Hereditary spastic paraparesis is a group of inherited neurological diseases. Only symptomatic treatments exist for the moment. The Modifspa study (cf citation) carried out by the team showed that patients perceived a feeling of effectiveness of physiotherapy on lower limb spasticity. The aim of the Walk-up study is to objectivize this feeling of efficacy on gait disorders in these patients. This is an interventional study using physical training. The study is prospective, open, randomized in 2 parallel groups, one of which is a control group. Analyses will be comparative between the 2 groups during the course of the study.
Stroke survivors with lower limb disability can improve their walking speed with high-intensity interval training (HIIT) rehabilitation therapy. However, some individuals may not respond to HIIT even when fully adherent to the program. To address this, the investigators propose to build a predictive model that identifies if a Veteran with chronic subcortical stroke will improve their walking speed with HIIT by incorporating blood lactate as an early predictor of exercise response, and inhibitory neurotransmitter gamma-aminobutyric acid (GABA) and regional cerebral blood flow (CBF) as predictors of the brain's potential to respond, while also taking into consideration other factors such as comorbidities, demographics, and fitness levels.
Background: HTLV-1 associated myelopathy/tropical spastic paraparesis (HAM/TSP) is a rare, progressive disease. It occurs in some people infected with the HTLV-1 virus. It leads to weakness in the lower limbs and other serious problems. It has no treatment. Teriflunomide is a drug used to treat multiple sclerosis. It reduces immune cells that make the disease worse. Researchers want to learn if this drug can help people with HAM/TSP. Objective: To learn the effects, immune response, safety, and tolerability of teriflunomide in people with HAM/TSP. Eligibility: Adults ages 18 and older with HAM/TSP. Design: Participants will be screened under protocol 98-N-0047. Participants will have a medical history. They will have physical and neurological exams. They will have blood and urine tests. Participants will take 1 tablet of the study drug once a day for 9 months. They will keep a drug diary. Participants will have lymphapheresis. For this, blood is drawn from a needle in one arm. A machine divides the blood into red cells, plasma, and white cells. The white cells are removed. The plasma and red cells are returned to the participant through a needle in the other arm. Participants will have lumbar punctures ( spinal taps ). For this, a thin needle is inserted into the spinal canal in the lower back. Spinal fluid is removed. Participants will have magnetic resonance imaging (MRI) of the brain and spine. The MRI scanner is a metal cylinder surrounded by a strong magnetic field. During the MRI, participants will lie on a table that can slide in and out of the scanner. Participation will last for 15 months.
Hereditary spastic paraparesis type 11 (SPG11) is caused by mutations in the SPG11 gene that produces spatacsin, a protein involved in lysosomal function. Studies performed in skin cells (fibroblasts) from SPG11 patients, mice and zebrafish models of the disease showed that the material accumulated in the lysosomes is made of glycosphingolipids (GSL). Miglustat is a drug that inhibits an enzyme called glucosylceramide synthetase (GCS) which is used for the production of GSL. Miglustat, therefore, helps to delay the production of GSL. This study aims to collect preliminary data on the safety of miglustat on the SPG11 disease and to assess biomarkers.
Participants are being asked to participate in a research study conducted by Shih-Chiao Tseng, PT, Ph.D. at Texas Woman's University. This research study is to determine whether low-intensive brain stimulation can enhance learning of a leg movement task. The investigators also want to know if brain stimulation can improve the nerve function and walking performance. Our goal is to understand any relationship between brain stimulation and overall movement control improvement. Participants have been invited to join this research if they have had a stroke before or they are healthy adults aged 21 years or older. Research evidence shows stroke can induce permanent brain damage and therefore may cause a person to have trouble learning a new task. This in turn may significantly impact the recovery of motor function in stroke survivors. In addition, the investigators also want to know how a healthy person learns this new leg task and see if her/his learning pattern differs from a stroke survivor. This study comprises two phases: Phase I study investigates short-term effects of brain stimulation on leg skill learning and only requires two visits to TWU. The total time commitment for Phase I study will be about 6.5 hours, 3.5 hours on the first visit and three hours on the second visit; Phase II study is an expanded version of Phase I study to investigate long-term effects of brain stimulation on leg skill learning and requires to complete 12 visits of exercise training paired with brain stimulation over a four-week period and additional one visit for follow-up test. The total time commitment for Phase II study will be about 20 hours, a total of 18 hours for 12 exercise training sessions and two hours for a follow-up test. The investigators hypothesize that people with chronic stroke will show a slower rate of acquiring this leg skill as compared to healthy adults. The investigators also hypothesize that co-applying brain stimulation with 12 sessions of exercise training will enhance skill learning of this leg task for people with chronic stroke and this 12-session exercise program may exert beneficial influences on the nerve function and leg muscle activation, and consequentially improve motor control for walking.
The current research is aimed at using Transcutaneous Spinal Direct Current Stimulation (tSDCS) as complementary therapeutic tool in the treatment of spasticity in multiple sclerosis. Patients will be randomized into two groups (tSDCS-anode vs. tSDCS-sham) according to the detailed protocol. Main outcome will be measured by the change in walking speed using the Timed 25-Foot Walk (T25FW). A total of 40 patients ought to be enrolled as specified in methodology. Secondary outcomes will assess functional improvement through Multiple Sclerosis Walking Scale (MSWS) Short Form - 36 (SF-36), Expanded Disability Status Scale (EDSS) and Ashworth scale.
The Self-Notion and Perception (SNAP) questionnaire developed at IRCCS E.Medea by Eleonora Diella and Roberta Morganti, arises from the need to quantify the subjective perception of the patient suffering from HSP of the typical symptoms of pathology, such as spasticity, weakness, changes in balance, resistance in walking, pain and fatigue. The purpose of this study is to validate this instrument and test its reliability, looking for correlations with the measurement scales used in the literature for the evaluation of the patient with HSP. The most used for this population are the Spastic Paraplegia Rating Scale (SPRS) and the Six-Minute Walk Test (6MWT) which assess the severity of the disease and the level of endurance (8-9) respectively.
This is a pilot study of intervention in a group of patients with tropical spastic paraparesis/ myelopathy to evaluate virologic and clinical response of raltegravir plus zidovudine in this group of patients.
Urological physical therapy is described to improve urinary symptoms in patients with myelopathy or neurological dysfunction and to increase the quality of life. Although it was never tested on HTLV-1 associated overactive bladder syndrome, an disabling disease that is common seen in HAM/TSP patients but can also appear as an isolated form. Our hypothesis is that urological physical therapy can improve urinary symptoms like incontinence, urgency and nocturia in HTLV-1 infected population with those complains.