Muscle Stiffness

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17 Muscle Stiffness Trials Near You

Power is an online platform that helps thousands of Muscle Stiffness patients discover FDA-reviewed trials every day. Every trial we feature meets safety and ethical standards, giving patients an easy way to discover promising new treatments in the research stage.

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No Placebo
Highly Paid
Stay on Current Meds
Pivotal Trials (Near Approval)
Breakthrough Medication
A scientific study is being done to test a special treatment for people who have spasticity or tight muscles. This treatment is called "stereotactic radiosurgery dorsal rhizotomy." It uses very accurate beams of radiation to target certain nerves in the back to help loosen up the muscles. In this study, people are put into two groups by chance: one group gets the real treatment, and the other group gets a "fake" treatment that doesn't do anything. This fake treatment is called a "sham." Doing this helps make sure the study is fair and the results are true. After the people in the study get their treatment, the researchers will watch and see how they do. They will check if their muscles are less stiff and if they have any side effects. By looking at the results from both groups, the researchers can find out if the special treatment really helps people with spasticity. Patients who got the "fake" treatment will be eligible to receive the "real" treatment after 6 months.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:16+

22 Participants Needed

This trial compares two types of botulinum toxin injections to see which one is safer and lasts longer in relaxing muscles. Botulinum toxin has been used in various medical treatments, including for muscle spasticity, overactive bladder syndrome, and cerebral palsy.
No Placebo Group

Trial Details

Trial Status:Active Not Recruiting
Trial Phase:Phase 4

464 Participants Needed

The researchers are investigating if the Self-Supporting Nasopharyngeal Airway (ssNPA) device can be used in the treatment of obstructive sleep apnea in children with Hypotonic Upper Airway Obstruction (HUAO).
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:3 - 21

40 Participants Needed

IPN10200 for Upper Limb Spasticity

Farmington Hills, Michigan
This trial is testing a medication called IPN10200 to see how safe and effective it is for adults with stiff muscles in their arms. Researchers are trying different doses to find the best one that works well without causing too many side effects. The goal is to help reduce muscle stiffness in these patients.

Trial Details

Trial Status:Active Not Recruiting
Trial Phase:Phase 1, 2

240 Participants Needed

This trial tests if using a special enzyme can help people who have stiff arm muscles after a stroke. The enzyme works by reducing substances that cause muscle tightness, which may improve arm movement and strength. This new therapy aims to reduce muscle stiffness by breaking down certain substances in the muscles.

Trial Details

Trial Status:Recruiting
Trial Phase:Phase 2

56 Participants Needed

This trial is testing a special leg suit designed to help people with movement problems due to neurological conditions. The suit uses sensors to assist with leg movements and stretching, aiming to improve walking and daily activities.
No Placebo Group

Trial Details

Trial Status:Not Yet Recruiting
Trial Phase:Unphased

10 Participants Needed

This trial aims to help people with spinal cord injuries improve their walking ability. It combines movement exercises with a non-invasive method that uses mild electrical currents on the skin to boost communication between the brain and spinal cord. The goal is to see if this combined approach works better than exercises alone.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

28 Participants Needed

People with spinal cord injury (SCI) experience a host of secondary complications that can impact their quality of life and functional independence. One of the more prevalent complications is spasticity, which occurs in response to spinal cord damage and the resulting disruption of motor pathways. Common symptoms include spasms and stiffness, and can occur more than once per hour in many people with SCI. Spasticity can have a negative impact over many quality of life domains, including loss of functional independence, activity limitations, and even employment. Its impact on health domains is also pronounced, with many people who have spasticity reporting mood disorders, depression, pain, sleep disturbances, and contractures. Spasticity can interfere with post-injury rehabilitation and lead to hospitalization. There are many treatments for spasticity in this population. However, many do not have long-term efficacy, and, if they do, they are often pharmacological in nature and carry side effects that could limit function or affect health. The goal of this pilot, randomized-controlled study is to investigate the potential efficacy and safety of a non-invasive treatment with a low side effect profile, extracorporeal shockwave therapy (ESWT). ESWT has shown some benefits in people with post-stroke spasticity with no long term side effects. Thirty individuals with chronic, traumatic SCI will be recruited. Fifteen will be provided with ESWT while the other fifteen will be given a sham treatment. Clinical and self-report measures of spasticity and its impact on quality of life will be collected, as well as quantitative ultrasound measures of muscle architecture and stiffness. The ultimate goal of this pilot project is to collect the data necessary to apply for a larger randomized-controlled trial. Conducting a larger trial will allow for a more powerful estimation of safety and efficacy of ESWT as a treatment for spasticity in people with SCI.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

30 Participants Needed

STRIVE Cardio is a 12-week exercise intervention study with the goal to improve functional fitness and cardiovascular health for women who have completed treatment for non-metastatic endometrial cancer within the last five years and are currently in remission. Measures will include a functional fitness test, carotid-femoral pulse wave velocity, brachial artery flow mediated dilation, and a blood draw. Participants will be provided resistance bands, a dumbbell, and a Fitbit to keep. Participants will be compensated $50 for each of their two in-person visits.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Sex:Female

33 Participants Needed

The study team is currently recruiting volunteers who are interested in participating in a brain-spinal cord-muscle response training study that aims to better understand the changes that take place in the nervous system as a result of this type of training. After spinal cord injury, brain-to-muscle connections are often interrupted. Because these connections are important in movement control, when they are not working well, movements may be disturbed. Researchers have found that people can learn to strengthen these connections through training. Strengthening these connections may be able to improve movement control and recovery after injuries. Research participants will be asked to stand, sit, and walk during the study sessions. Electrodes are placed on the skin over leg muscles for monitoring muscle activity. For examining brain-to-muscle connections, the study team will use transcranial magnetic stimulation. The stimulation is applied over the head and will indirectly stimulate brain cells with little or no discomfort. Participation in this study requires approximately three sessions per week for four months, followed by two to three sessions over another three months. Each session lasts approximately 1 hour.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

44 Participants Needed

Reflex Training for Spinal Cord Injury

Charleston, South Carolina
The purpose of this study is to validate the capacity of a reflex training system to change the size of the targeted reflex. For this, the researchers are recruiting 25 individuals with chronic incomplete SCI who have spasticity in the leg to participate in the reflex training procedure. The study involves approximately 45 visits with a total study duration of about 6 months.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

25 Participants Needed

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.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:18 - 64

24 Participants Needed

This trial tests a cannabinoid spray called nabiximols to help adults with a condition affecting the nervous system who have severe muscle stiffness. These patients often don't respond well to other treatments. The spray works by relaxing muscles through the body's natural system that controls movement and pain. Nabiximols, also known as Sativex, is a cannabis plant extract approved in several countries for various uses including muscle stiffness related to multiple sclerosis and as additional pain relief in advanced cancer.

Trial Details

Trial Status:Not Yet Recruiting
Trial Phase:Phase 2

44 Participants Needed

Spasticity develops months after spinal cord injury (SCI) and persists over time. It presents as a mixture of tonic features, namely increased muscle tone (hypertonia) and phasic features, such as hyperactive reflexes (hyperreflexia), clonus, and involuntary muscle contractions (spasms). Spasticity is often disabling because it interferes with hygiene, transfers, and locomotion and can disturb sleep and cause pain. For these reasons, most individuals seek treatments for spasticity after SCI. New developments in electrical neuromodulation with transcutaneous spinal stimulation (TSS) show promising results in managing spasticity non-pharmacologically. The underlying principle of TSS interventions is that the afferent input generated by posterior root stimulation modifies the excitability of the lumbosacral network to suppress pathophysiologic spinal motor output contributing to distinctive features of spasticity. However, the previous TSS studies used almost identical protocols in terms of stimulation frequency and intensity despite the great flexibility offered by this treatment strategy and the favorable results with the epidural stimulation at higher frequencies. Therefore, the proposed study takes a new direction to systematically investigate the standalone and comparative efficacy of four TSS interventions, including those used in previous studies. Our central hypothesis is that electrical neuromodulation with the selected TSS protocols (frequency: 50/100 Hz; intensity: 0.45 or 0.9 times the sub-motor threshold) can reduce and distinctly modify tonic and phasic components of spasticity on short- and long-term basis. We will test our hypothesis using a prospective, experimental, cross-over, assessor-masked study design in 12 individuals with chronic SCI (more than 1-year post-injury). Aim 1. Determine the time course of changes and immediate after-effects of each TSS protocol on tonic and phasic spasticity. The results will reveal the evolution of changes in spasticity during 30-min of TSS and the most effective protocol for producing immediate aftereffects. Aim 2. Determine the effect of TSS on spasticity after a trial of home-based therapy with each protocol. The participants will administer 30 min of TSS daily for six days with each of the four TSS protocols selected randomly. This aim will reveal the long-term carry-over effects of TSS intervention on various components of spasticity after SCI. Aim 3. Determine the participants' experience with TSS as a home-based therapy through focus group meetings. We will conduct focus group meetings after participants finish the home-based therapy trial. Accomplishing this specific aim will provide a valuable perspective on the value, challenges, and acceptability of TSS as a home-based intervention. The study addresses important questions for advancing scientific knowledge and clinical management of spasticity after SCI. Specifically, it will examine the efficacy of TSS frequencies and intensities on tonic and phasic spasticity. The study results will be relevant for a high proportion of individuals living with SCI that could benefit from this novel and low-cost non-pharmacological approach to managing spasticity after SCI.
No Placebo Group

Trial Details

Trial Status:Recruiting

12 Participants Needed

This trial tests MELPIDA, a gene therapy for patients with SPG50, a severe neurological disorder. MELPIDA aims to deliver a healthy gene to nerve cells to help them function properly and slow down the disease. Gene therapy has shown positive outcomes in treating complex neurological disorders, including amyotrophic lateral sclerosis, Parkinson's disease, and others.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Phase 1, 2
Age:4 - 10

4 Participants Needed

Background Effective management of spasticity, a debilitating and challenging condition afflicting many recovering from and living with neurological conditions, may reduce long term consequences such as limb contracture, skin breakdown, compromised mobility, caregiver burden and discomfort. In rehabilitation, spasticity represents a significant barrier to successful rehabilitation outcomes. Effective spasticity management can increases the length of individual functional status, reduces equipment/care needs, hospital admissions and extends the time people can stay safely at home, which would represent an economic benefit to the health system. Extra-corporeal Shock Wave Therapy (ESWT), an intense short energy wave delivered directly at the region of affected muscles has, in past randomized controlled studies, demonstrated positive outcomes for this population (spastic stroke population, TBI), on its own and as an adjunct to current modalities. In fact, one retrospective observational study demonstrated an increased efficacy of Toxin botulinum at 1 month when combined with ESWT. Where existing treatment options may be limited by coverage, access to delivery, complications and side effects, ESWT represents a potential to be a safe, low cost, efficacious alternative that can be administered by any trained clinician. Aims The aims of this pilot study will be to explore the hypothesis that adding ESWT to Botulinum Neurotoxin A (BoNTA) in spasticity post-stroke (TBI)will demonstrate greater clinical and patient reported outcomes compared to standard treatment with BoNTA alone, a comparison only once previously studied. Methods Incorporating randomization and placebo control (n= 20 in each arm), this patient-centric study will examine treatment goals and holistic perception of benefit after the treatment experience. We will use patient reported outcomes at baseline and at defined intervals after intervention. We will test our hypothesis using clinical and patient reported scales, such as the patient reported numeric rating scale (NRS) and goniometric range for spasticity as our primary outcome in conjunction with measures of muscle stiffness, quality of life, feasibility and acceptability of the protocol to help inform future study direction.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

40 Participants Needed

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.
No Placebo Group

Trial Details

Trial Status:Not Yet Recruiting
Trial Phase:Unphased

30 Participants Needed

Why Other Patients Applied

"I've been struggling with ADHD and anxiety since I was 9 years old. I'm currently 30. I really don't like how numb the medications make me feel. And especially now, that I've lost my grandma and my aunt 8 days apart, my anxiety has been even worse. So I'm trying to find something new."

FF
ADHD PatientAge: 31

"I changed my diet in 2020 and I’ve lost 95 pounds from my highest weight (283). I am 5’3”, female, and now 188. I still have a 33 BMI. I've been doing research on alternative approaches to continue my progress, which brought me here to consider clinical trials."

WR
Obesity PatientAge: 58

"I was diagnosed with stage 4 pancreatic cancer three months ago, metastatic to my liver, and I have been receiving and responding well to chemotherapy. My blood work revealed that my tumor markers have gone from 2600 in the beginning to 173 as of now, even with the delay in treatment, they are not going up. CT Scans reveal they have been shrinking as well. However, chemo is seriously deteriorating my body. I have 4 more treatments to go in this 12 treatment cycle. I am just interested in learning about my other options, if any are available to me."

ID
Pancreatic Cancer PatientAge: 40

"As a healthy volunteer, I like to participate in as many trials as I'm able to. It's a good way to help research and earn money."

IZ
Healthy Volunteer PatientAge: 38

"My orthopedist recommended a half replacement of my right knee. I have had both hips replaced. Currently have arthritis in knee, shoulder, and thumb. I want to avoid surgery, and I'm open-minded about trying a trial before using surgery as a last resort."

HZ
Arthritis PatientAge: 78

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We started Power when my dad was diagnosed with multiple myeloma, and I struggled to help him access the latest immunotherapy. Hopefully Power makes it simpler for you to explore promising new treatments, during what is probably a difficult time.

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Bask GillCEO at Power
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Frequently Asked Questions

How much do Muscle Stiffness clinical trials pay?

Each trial will compensate patients a different amount, but $50-100 for each visit is a fairly common range for Phase 2–4 trials (Phase 1 trials often pay substantially more). Further, most trials will cover the costs of a travel to-and-from the clinic.

How do Muscle Stiffness clinical trials work?

After a researcher reviews your profile, they may choose to invite you in to a screening appointment, where they'll determine if you meet 100% of the eligibility requirements. If you do, you'll be sorted into one of the treatment groups, and receive your study drug. For some trials, there is a chance you'll receive a placebo. Across Muscle Stiffness trials 30% of clinical trials have a placebo. Typically, you'll be required to check-in with the clinic every month or so. The average trial length for Muscle Stiffness is 12 months.

How do I participate in a study as a "healthy volunteer"?

Not all studies recruit healthy volunteers: usually, Phase 1 studies do. Participating as a healthy volunteer means you will go to a research facility several times over a few days or weeks to receive a dose of either the test treatment or a "placebo," which is a harmless substance that helps researchers compare results. You will have routine tests during these visits, and you'll be compensated for your time and travel, with the number of appointments and details varying by study.

What does the "phase" of a clinical trial mean?

The phase of a trial reveals what stage the drug is in to get approval for a specific condition. Phase 1 trials are the trials to collect safety data in humans. Phase 2 trials are those where the drug has some data showing safety in humans, but where further human data is needed on drug effectiveness. Phase 3 trials are in the final step before approval. The drug already has data showing both safety and effectiveness. As a general rule, Phase 3 trials are more promising than Phase 2, and Phase 2 trials are more promising than phase 1.

Do I need to be insured to participate in a Muscle Stiffness medical study?

Clinical trials are almost always free to participants, and so do not require insurance. The only exception here are trials focused on cancer, because only a small part of the typical treatment plan is actually experimental. For these cancer trials, participants typically need insurance to cover all the non-experimental components.

What are the newest Muscle Stiffness clinical trials?

Most recently, we added Vibrotactile Therapy for Spinal Cord Injury, Leg Stretching Exoskeleton for Spasticity and Nabiximols for Neuromyelitis Optica Spectrum Disorder to the Power online platform.

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