View clinical trials related to Muscle Spasticity.
Filter by:Spasticity is characterized by increased muscle tension and is a classic consequence of upper motor neuron (UMN) damage in the central nervous system, such as from stroke or trauma. Clinically, it presents as muscle resistance to passive stretching, along with clasp-knife rigidity, clonus, increased tendon reflexes, and muscle spasms. An imbalance of the descending inhibitory and muscle stretch reflexes is thought to be the cause of spasticity. Post-stroke spasticity is a common condition that occurs in 37.5-45% of cases in the acute stage and 19-57.4% in the subacute stage after a stroke. At 6 months post-stroke, spasticity develops in 42.6-49.5% of cases, and at one year, it affects 35-57.4% of individuals. In patients with cerebral palsy (CP), incidence is almost 80% while in those living with spinal cord injury the number approaches up to 93%. Traumatic brain injury (TBI) patients have a higher prevalence on initial admission to neurorehabilitation but one in three patients will have chronic spasticity. However, the Defense and Veterans Brain Injury Center report a rate of TBIs amongst deployed veterans to be around 11-23% mostly from blast and explosive trauma. There have been studies as early as the 1980s exploring the efficacy of SCS for spasticity control, however, the credibility of many of these studies is constrained due to an incomplete comprehension of spasticity's underlying mechanisms, outdated research methods, and early limitations in implantable device technology. Intrathecal pumps for baclofen have remained as the mainstay for refractory spasticity, however, it comes with associated risks such as chemical dependence leading to acute baclofen withdrawal and requiring frequent refill requirement. Most importantly, it does not yield functional improvement of muscle activity, just suppression of spasticity. Botox is also routinely used but due to heterogeneity in muscle involvement as well as variability in provider skill, results may be inconsistent and short-lasting, requiring frequent clinic visits for repeat injections to the affected muscle groups. SCS may be able to address that gap in spasticity management.
Title: The Effect of Vibrating Splint on Hand Function After Stroke Summary: This study aims to investigate the effectiveness of a vibrating splint in improving hand function and reducing spasticity among individuals who have experienced a stroke. Stroke is a major global health issue, often resulting in long-term disability and impairments in the upper limbs. Spasticity, a common complication of stroke, causes stiffness and involuntary muscle contractions, leading to difficulties in performing daily activities. Current treatment options for spasticity include medications and physical therapy techniques. However, these approaches may have limitations in terms of effectiveness and duration of benefits. Therefore, non-pharmacological interventions are being explored to enhance rehabilitation outcomes. The hypothesis of this study is that the use of a vibrating splint, which applies mechanical vibrations to the hand muscles, will decrease spasticity and improve hand functionality in individuals with chronic stroke. The vibrations from the splint stimulate the sensory receptors in the skin and muscles, leading to muscle relaxation and improved motor control. The study will be conducted as a pilot randomized controlled trial, involving participants who meet specific eligibility criteria. The participants will be divided into three arms, with each arm receiving a different intervention. Outcome measures, including assessments of spasticity, range of motion, pain levels, and functional abilities, will be collected before and after the intervention period. The findings from this study will contribute to the understanding of non-pharmacological approaches in managing spasticity and improving hand function after stroke. If the vibrating splint proves to be effective, it could offer a safe and accessible option for stroke survivors to enhance their recovery and regain independence in daily activities. This research is essential as it addresses the need for more effective interventions for spasticity management and hand rehabilitation after stroke. By providing valuable insights into the potential benefits of the vibrating splint, this study has the potential to improve the quality of life for individuals who have experienced a stroke and empower them to regain control over their hand movements.
Trial design This study is a protocol of a phase II clinical trial which will be conducted in two countries (Belgium and Spain) to compare the effectiveness of DN and BTX A in reducing post-stroke spasticity in the plantar flexor muscles. This study is a prospective randomized, controlled, multiple-baseline design with blinded assessors. The study will be registered in ClinicalTrials.gov and will have a length of 19 weeks Trial population Inclusion Criteria: 1) aged 18-75 years old, 2) having lower limb post-stroke spasticity in ankle plantar flexors (MAS scores of 1, 1+ and 2); 3) having had a first stroke; 4) having no more than 12 months of evolution since stroke; 5) having no previous Dry Needling (DN) or Botulinum Toxin type A (BTX A) treatment for spasticity; 6) having ankle PROM ≥ 20° (approx.) when the knee is supported in ~30° flexion; 7) being able to walk independently with or without aids. Exclusion Criteria: 1) medical conditions interfering with data interpretation; 2) any contraindication to receiving BTX A or PS treatment; 3) If taking anti-spasticity medications, participants must be on stable medication for at least 3 months prior to the start of the study and neither the dose nor the medication can be changed during the tria Interventions Participants will be randomly allocated to the group receiving a session of BTX A or to the group receiving Dry Needling once weekly for 12 weeks. Blinded evaluators will assess the effects before, during, after treatment, and at 4-week follow-up. The trial will have regular monitoring visits by an independent external monitor to ensure compliance with the protocol and Good Clinical Practices. Monitors may review source documents to confirm accurate data on CRD. The investigator and institution will guarantee direct access to source documents for monitors and regulatory authorities.
To compare the effect of solid ankle foot orthosis and ground reaction foot orthosis on the muscle activity in children with spastic diplegic cerebral palsy (Gross Motor Functional Classification Scale III).
The purpose of our study is to evaluate vibrotactile Coordinated Reset (vCR) and its effects on spasticity symptoms in incomplete spinal cord injured patients. vCR will be administered with a device called the Stanford CR Glove. vCR is expected to provide patients with a non-invasive alternative to the most widely used treatments such as oral baclofen and or deep brain stimulation. Patients will be followed for three months and will be asked to come to the lab for clinical testing 4 times during this period. A total of 30 patients will be included in the study.
Little is known about the peripheral and central mechanisms of action of selective dorsal rhizotomy surgery for the treatment of spasticity. A better understanding of these mechanisms will enable us to improve the surgical procedure. This will require cortico-medullo-radiculo-muscular recordings never before performed and published in the literature, and the identification of variations in connectivity correlated with the clinic.
Spastic ataxias are a group of diseases causing symptoms such as walking difficulties and balance impairments that lead to a high risk of falls. No pharmacological treatments exist to treat these diseases. Unfortunately, little effort is made to develop non-pharmacological treatments specific to spastic ataxias despite the detrimental impact of the disease on several aspects of an individual's life and the high cost of falls for society each year. The three objectives of this project are: 1) to determine the effect of a 12-week rehabilitation program on disease severity as compared with usual care for individuals with spastic ataxias; 2) to identify which factors can help (or not) the implementation of the program in the clinical settings ("reel world"); and 3) to explore the cost-benefits of IMPACT [rehabIlitation prograM for sPAstiC aTaxias]. The team has developed the program to specifically target symptoms present in these patients and was previously pilot-tested. Based on the results obtained in this pilot project, positive effects are expected concerning the disease severity of participants. The investigators want, with this project, provide to health care professionals an option to offer better-suited services to people living with spastic ataxia worldwide.
PEPS is a 18 months prospective bicentric study on 30 patients with spastic foot. The main objective is to evaluate the mean daily gait perimeter modifications mesured by connected watch, 6 months after spastic equinus foot surgery versus before this surgery. Investigator will lend a connected watch during the first consultation, and the patient will use it during 10 days in order to collect his mean daily gait perimeter. A lot of other tests will be realised in order to caracterize the clinical picture of each patient. After patients will be operated and all caracteristics of the surgery will be collected. Finally, at 6 months appointment, investigator will do the same analysis than first appointment in order to comparate the data for functional prognosis.
Spastic plantar and palmar flexion deformities are very common in children with cerebral palsy (CP). These deformities usually involve spasticity of the plantar or palmar muscle complexes, weakness of the antagonist dorsiflexor muscles of the ankle or wrist, and also involve soft tissue/muscle contractures and require a multimodal treatment approach. Physical therapy (PT), occupational therapy (OT), serial casting (SC), and botulinum toxin A (BoNT-A) injections had shown positive results in both of these deformities. Recent systematic reviews and meta-analyses showed that extracorporeal shock wave therapy (ESWT) is effective in reducing spasticity, pain intensity, and increasing range of motion and motor function when combined with PT or BoNT-A injections in neurological conditions like stroke, CP, multiple sclerosis. ESWT can be a complimentary therapy to obtain an earlier efficacy, better efficacy, a sustained effect for a longer period, and less adverse events. The objective of this study was to show the effects of ESWT when combined with intermittent SC, BoNT-A injections and PT or OT on spasticity, passive range of motion (pROM) of children with CP having spastic equinus foot deformity or wrist palmar flexion deformity.
The goal of this clinical trial is to evaluate the safety and efficacy of nabiximols, a cannabinoid spray, for the treatment of moderate to severe spasticity in adult patients with AQP4-IgG positive and antibody-negative NMOSD. The main question it aims to answer is whether treatment with nabiximols improves patient-reported spasticity ratings compared to treatment with a placebo. This trial will also answer whether nabiximols impact pain, spasm frequency, mood, walking ability, and sleep. Participants will be mailed the treatments and placebo treatments, and will be asked to complete study visits and questionnaires remotely. There is also an optional sub-study that involves in-person visits with ultrasound imaging and in-person neurologic exams.