33 Clinical Trials for Various Conditions
Study of SPARC1103 in subjects with spasticity
The purpose of this study is to determine if Xeomin® will prove effective for significantly improving lower extremity spasticity and will be well tolerated by the majority of MS patients.
This is a multicenter, randomized (1:1:1), double-blind, active and placebo controlled, parallel group study to evaluate safety, tolerability and efficacy of oral arbaclofen in MS patients with spasticity. Eligible subjects will be removed from anti-spasticity medications for at least one week and then begin study drug treatment with daily doses increasing up to the target dose which will then be maintained for at least 12 weeks. A down-titration will then occur over two weeks.
The purpose of this study is to learn if the use of inhaled cannabis (marijuana) and oral cannabinoid (dronabinol, Marinol or THC, which is an active ingredient of marijuana) is safe and effective in reducing the symptoms of spasticity and tremor in patients with secondary-progressive or primary progressive multiple sclerosis.
The purpose of this study is to learn if the use of inhaled cannabis (marijuana) and oral cannabinoid (dronabinol, Marinol or THC, which is an active ingredient of marijuana) is safe and effective in reducing the symptoms of spasticity and tremor in patients with secondary-progressive or primary progressive multiple sclerosis.
The purpose of this study is to determine whether or not smoked marijuana improves spasticity in patients with multiple sclerosis.
This study will be conducted to evaluate the effect of multiple doses of nabiximols compared with placebo on a clinical measure of velocity-dependent muscle tone in the lower limbs (Lower Limb Muscle Tone-6 \[LLMT-6\]) in participants with multiple sclerosis (MS). LLMT-6 is defined as the average of the 6 individual Modified Ashworth Scale (MAS)-transformed scores of knee flexors, knee extensors, and plantar flexors on both sides of the body.
The purpose of this study is to evaluate the efficacy, safety, and tolerability of BMS-986368 in participants with Multiple Sclerosis Spasticity
This trial is being conducted to demonstrate the efficacy of nabiximols, compared with placebo, when added to standard of care, in the treatment of muscle spasms associated with multiple sclerosis (MS).
To evaluate the efficacy of three doses of XP19986 (arbaclofen placarbil) compared to placebo for the treatment of spasticity in subjects with multiple sclerosis (MS).
To explore the safety and efficacy of IPX056 compared with baclofen tablets for alleviation of symptoms of spasticity associated with multiple sclerosis (MS).
The purpose of this study is to determine the effects, both good and bad, of IPX056 on subjects and their spasticity. This study will also determine the relationship between the amount of IPX056 in blood and the effects on spasticity. Lastly, this study will determine how long IPX056 affects spasticity.
This study is being conducted to compare the impact of somnolence (sleepiness) on cognition (awareness) as well as the safety and effectiveness of tizanidine hydrochloride capsules versus Zanaflex® (tizanidine hydrochloride tablets) taken while in the fed state (just after a meal) and in the fasted state (before a meal) in patients with moderate to severe spasticity.
The main purpose of this study is to investigate Lu AG06466 as a treatment for spasticity in participants with multiple sclerosis (MS).
This study is expected to contribute to the body of knowledge on the benefits of individuals with MS taking glatiramer acetate (Copaxone®). If patients have less spasticity when taking glatiramer acetate (Copaxone®), they may be more likely to have an improved quality of life. The hypotheses for this study are: 1. Study participants who transition from interferon therapy to glatiramer acetate (Copaxone®) for a six month period will have a decrease in spasticity. 2. Study participants who transition from interferon therapy to glatiramer acetate (Copaxone®) for a six month period will have a change in perceptions of the impact of spasticity on their lives.
This study will examine the impacts of two different methods of managing MS-related spasticity of the lower limbs. Both interventions will be presented via video teleconference in group classes consisting of exercises to reduce spasticity.
Clinical protocol OS440-3003 is a multicenter, open-label, non-randomized, uncontrolled, dose escalation study to evaluate the safety and tolerability of Arbaclofen Extended Release Tablets over 1 year in Multiple Sclerosis (MS) subjects with spasticity. All subjects in this study will receive arbaclofen in the extended release tablet formulation.
The investigators are doing this study to see if a treatment called dry needling improves muscle spasticity (muscle tightness) in people who have Multiple Sclerosis. Dry needling involves using tiny needles, like those in acupuncture, to target some muscles, like calf muscles. It differs from traditional acupuncture as it focuses on treating or managing muscle spots, aiming to reduce muscle stiffness and pain. Dry needling may offer a minimally-invasive and medication-free approach to improve muscle spasticity. The investigators hope to see if dry needling also helps enhance balance and walking abilities. This might provide potential improvements inoverall mobility and balance.
This project involves two sub-parts: Study 1: Effect of lab-based Functional Balance Intervention (FBI) for physical and cognitive symptoms of Multiple Sclerosis. Study 2: Feasibility of home-based FBI for physical and cognitive symptoms of Multiple Sclerosis. Each study involves a 2-arm, Phase-1, randomized controlled clinical trial to evaluate the effect of FBI on physical, cognitive function, and daily living among people with MS (PwMS). Study 1 is conducted in a lab setting, while Study 2 is conducted at home with additional safety measures. A total of 150 people with multiple sclerosis will be recruited and telephone screened, with an expected enrollment of 120 (60 per phase). After in-person screening, 96 eligible participants (48 per phase) will undergo pre-training assessment and randomization into FBI or Stretching groups. Training sessions will occur twice a week for four months. Anticipating a 15-17% attrition rate, the target sample size is 80 (40 per phase) for completion of the study. Post-training assessments will be conducted after four months to evaluate FBI's impact on physical and cognitive functions. This evidence-based protocol, previously successful with neurological and older adult populations, intends to provide a low-cost, safe, and effective intervention for PwMS in clinical and community settings, including rural areas.
In an individual with MS the central nervous system (CNS) is over-protective and causes the threshold for stretch reflex and muscle tightness to be set lower than normal. This inhibits normal movement and causes abnormalities in posture, stiffness and at times joint contractures. In this pilot study we hope to assess the ability for the direct current of Neubie, which creates mechanoreceptor inputs and lengthening at the sarcomere level of muscle and joints in the spine and lower extremity, to alter the proprioceptive peripheral nervous system (PNS) at muscle spindle and GTO level with a change in CNS over-guarding during the treatment and after the treatment. If the investigators are able to create normalized stretch and muscle tension at the PNS level, it may be possible to create temporary or sustained CNS level changes. This would allow the amount of stretch and tension at the PNS level to be normalized and possibly reduce spasticity. If this theory is accurate, the investigators may be able to increase access to normalized movement, strength and functional ability in individuals with neuro-compromise.
Phase 2/3, randomized, double-blind, placebo-controlled, single-treatment, multicenter trial assessing the efficacy and safety of MYOBLOC for the treatment of upper limb spasticity in adults followed by an open-label extension safety trial.
Investigators will use muscular dry needling in the calf of one lower extremity, followed by treadmill training with functional electrical stimulation.
The purpose of this study is to determine whether Dysport® (abobotulinumtoxinA) injections for lower extremity spasticity showed a significant reduction of lower extremity spasticity after being injected with Dysport® (abobotulinumtoxinA) in patients with MS.
Spasticity is a common complication in MS and occurs in up to 84% of patients. The main sign of spasticity is resistance to passive limb movement characterized by increased resistance to stretching, clonus, and exaggerated deep reflexes. Osmotica Pharmaceutical is currently developing arbaclofen extended-release tablets (AERT) for the treatment of spasticity in patients with MS.
This is a study to determine the impact of education and specific lower extremity stretches for MS-related spasticity. The study will evaluate the acceptance and efficacy of education and stretching using a randomized controlled pilot trial.
Participants (n=20) will be identified at routine care visits performed at the Rochester Multiple Sclerosis Center. Eligible participants will have MS by McDonald Criteria,7 and will have a modified Ashworth spasticity rating8 of two or higher in at least one lower extremity muscle group. Participants will be seen at screening, one, and three months, and will be evaluated using the modified Ashworth scale,8 pendulum test,9 toe tapping test,10 manual muscle testing,11 timed 25 foot walk,12 and Multiple Sclerosis Functional Composite.13 The type and severity of any adverse events will be recorded using standard definitions. Participants will be instructed to call between visits to inform the investigators regarding any adverse events they experience. Follow-up will continue until all adverse events resolve or stabilize.
Multiple Sclerosis (MS) is a disorder of the body's immune system that affects the Central Nervous System (CNS). Normally, nerve fibers carry electrical impulses through the spinal cord, providing communication between the brain and the arms and legs. In people with MS, the fatty sheath that surrounds and insulates the nerve fibers (called "myelin") deteriorates, causing nerve impulses to be slowed or stopped. As a result patients with MS may experience periods of muscle weakness and other symptoms such as numbness, loss of vision, loss of coordination, paralysis, spasticity, mental and physical fatigue and a decrease in the ability to think and/or remember. These periods of illness may come (exacerbations) and go (remissions). Fampridine-SR (Sustained Release, SR) is an experimental drug that increases the ability of the nerve to conduct electrical impulses. This study will evaluate the effects of Fampridine-SR on the walking ability of subjects with MS, as well as to examine the effects on muscle strength and spasticity. The study will also examine the possible risks of taking Fampridine-SR.
Multiple sclerosis (MS) is a disease of the nervous system. The exact cause of MS is unknown, but it is believed to be an autoimmune condition. Autoimmune conditions are diseases that cause the body's immune system and natural defenses to attack healthy cells. In the case of MS, the immune system begins attacking myelin, the cells that make up the sheath covering nerves. Without myelin, nerves are unable to transmit signals effectively and symptoms occur. This study is directed toward a better understanding of the cause of Multiple Sclerosis (MS). Researchers will evaluate patients with a tentative diagnosis of MS or other neurological diseases possibly caused by a immunological reaction. Patients will undergo a series of three MRIs, taken once a month for three months and submit blood samples for immunological studies.
To assess the safety and tolerability of single and multiple doses of MTR-601 in normal healthy volunteers under fed and fasted conditions. To evaluate the plasma and urine pharmacokinetics (PK) of MTR-601. To evaluate the pharmacodynamic (PD) effects of MTR-601 on muscle strength and muscle accumulation of MTR-601 by muscle biopsy and other potential mechanistic, predictive and PD markers of MTR-601.
This is a single-site, pilot study. In this study, we hope to learn if the Lido Workset is a sensitive measure of limb spasticity in patients with Multiple Sclerosis (MS). The Lido Workset is a FDA approved, non-invasive device which has been used to assess motor function and spasticity. The testing will take approximately 25 minutes. Subjects will lie down on a table and have a leg attached to the Lido Workset device arm. The Lido Workset will move the leg back and forth many times at different speeds. The Lido Workset will also analyze resistance to passive (while subject is not moving or resisting movement) movement of the wrist and knee.