Clinical Research Directory

Peripheral Modulation of Muscle Stiffness and Spasticity

This is a single-center, double-blind, randomized, placebo-controlled, sequential Phase II trial of human recombinant hyaluronidase injections in individuals with post-stroke upper limb muscle stiffness. The investigators will recruit 56 subjects, who will be randomized to receive either the intervention or normal saline injections (first injection), and then the intervention the participants did not receive first (second injection). All individuals will receive the treatment by the end of the study.

Ultrasonographic Assessment of Muscle Morphology, Function, and Clinical Findings in Spastic Cerebral Palsy

This study focuses on children with spastic cerebral palsy and aims to examine how muscle morphology and tissue characteristics, as assessed by ultrasound, may relate to functional motor abilities. It is designed as a prospective, cross-sectional, observational study. Planned ultrasound-based assessments include parameters such as muscle thickness, pennation angle, fascicle length, echo intensity, tissue stiffness (via shear wave elastography), and microvascular flow (via superb microvascular imaging). These measurements are intended to be compared with standard clinical evaluations, including the GMFCS, GMFM-66, MAS, MACS, and Tardieu Scale. The study seeks to contribute to a better understanding of the relationship between muscle architecture and functional outcomes, with the goal of generating insights that may inform individualized rehabilitation planning.

Exoskeleton and Spinal Cord Stimulation for SCI

The overall aim of this project is to assess the effect of combining transcutaneous lumbosacral stimulation (TLS) during Exoskeleton Assisted Walking (EAW) compared to EAW alone without stimulation on walking recovery.

Comparing Upper Limb Surgery and Botulinum Toxin for Spasticity: A Paired Design Study

Spasticity is a common complication following central nervous system injuries. Left untreated, spasticity can lead to various complications, hindering activities of daily living and diminishing independence. Spasticity affecting the hand is particularly debilitating because it prevents prehension and grasp, which are critical factors for the ability to perform activities of daily living independently. Spasticity is described as one of the prominent secondary conditions in individuals with various disabilities. While Botulinum toxin(BoNT) injections are widely used for focal spasticity, surgical interventions remain underutilized despite promising long-term outcomes. Center for Advanced Reconstruction of Extremities(C.A.R.E), at the hand surgery department at Sahlgrenska University hospital in Gothenburg, Sweden is a multiprofessional team and advocates a stratified surgical algorithm based on residual motor function, aiming to optimize patient outcomes. This open-label, non-randomized, paired study aims to compare the efficacy of spasticity-correcting upper limb surgery with BoNT injections in improving body function, activity, and participation in patients with upper limb spasticity. A total of 30 patients will undergo both interventions sequentially, allowing for within-patient comparisons. The sample size calculation is based on prior studies. All patients with ongoing BoNT treatment who get referral to C.A.R.E and seem eligible for the study will be informed about the study and enrolment procedure. Eligible participants will undergo both treatments sequentially, with outcome assessments conducted before and after each intervention. The treatments will follow routine clinical care. The primary outcome measure, Modified Ashworth Scale, will assess spasticity severity. Secondary outcomes will include measures of functional and activity changes specific to each treatment regimen. This study aims to provide valuable insights into the comparative effectiveness of spasticity interventions, guiding treatment decisions for patients with upper limb spasticity.

SIRS-ESWT Trial: Shoulder Internal Rotator Spasticity Trial Treated With Extracorporeal Shock Wave Therapy Trial

Extracorporeal shock wave therapy (ESWT) has shown potential in reducing post-stroke limb spasticity. This study aims to evaluate the efficacy of focused ESWT on shoulder internal rotator spasticity in post-stroke patients.

Dry Needling for Spasticity in Stroke

The study team is recruiting 20 adults with spasticity due to chronic stroke and 20 adults with no neurological injuries for a 2 day study. In people with chronic stroke, one of the most common and disabling problems is spasticity (increased muscle tone or muscle stiffness). The purpose of this research study is to examine effects of dry needling on the nervous system (pathways between the muscle, spinal cord, and brain) in people with spasticity due to chronic stroke. Dry needling is a procedure in which a thin, stainless steel needle is inserted into your skin to produce a muscle twitch response. It is intended to release a knot in your muscle and relieve pain. The total study duration is 2 days. The first visit will take about 3 hours, during which dry needling will take place, and the second visit will take about 1 hour. During both visits you will be asked to participate in examinations of reflexes (muscle responses to non-invasive nerve stimulation) and arm/leg function.

Therapeutic Photobiomodulation and Tretament of Spasticity

Cerebral palsy is a non-progressive, permanent syndrome that occurs in childhood and is accompanied by motor, tônus and posture disorders. Its etiology is related to an insult or damage to the central nervous system in maturation. Approximately 80% of cerebral palsy course with spasticity, which, when left untreated, will generate pain and functional, anatomical and structural changes, with a negative impact. Photobiomodulation therapy has biological effects of tissue regeneration, muscle relaxation, vasodilation, reduction of the inflammatory process and relief of pain symptoms already described in the literature, in addition to being feasible, practical, safe, without side effects, painless and non-invasive.This study is a blind, randomized and controlled clinical trial that will evaluate the effect of photobiomodulation in reducing gastrocnemius muscle spasticity in children aged 2 to 18 years, diagnosed with spastic cerebral palsy of lower limbs of any etiology for at least 03 months and randomized into two groups: application of Low Intensity LED Therapy in the medial and right lateral gastrocnemius muscles (device power of 100mW, wavelength of 850nm, energy of 3J/cm2/point, once a week, making 08 therapeutic days during 02 months) or placebo group Low-Intensity LED Therapy (same device turned off). Both groups will also receive the standard treatment for spasticity. To assess the response to therapy, the outcomes evaluated will be the modified Ashworth Scale, the Mobility Domain of Pediatric evaluation of disability inventory, the Gross Motor Function Classification System scale and passive and active range of motion of the ankle analyzed at the pré and post each therapeutic session and in the pre and post therapeutic period of 08 sessions.

Reliability of Cardiac Troponins for the Diagnosis of Myocardial Infarction in the Presence of Skeletal Muscle Disease

Visits to the emergency department (ED) for chest pain are extremely common and require a safe, rapid and efficacious treatment algorithm to exclude a possible AMI. These diagnostic algorithms are partly based on an important laboratory value, which showed growing utility in the diagnostic and prognostic of many cardiovascular diseases in the last years : cardiac troponin. However, some patients with muscle disease often present with unexplained elevated high-sensitive cardiac Troponin T (hs-cTnT) levels in the absence of cardiac disease. The investigators aim at the characterization of the behaviour of this biomarker and its alternative (high-sensitive cardiac Troponin I), which will have important clinical implications on patients management.

Effect of Diving and Aquatic Exercises on Muscle Spasticity and Motor Function in Children With Spastic Cerebral Palsy

This study aims to evaluate the effect of diving and aquatic exercises on muscle spasticity and motor function in children with spastic cerebral palsy.

Upper-limb Active Function and Botulinum Toxin a

This study in an observational, prospective and longitudinal study. The aim of the study is to evaluate the effect of botulinum toxin type A (BTX) injections into the elbow flexors on the reduction of spastic co-contractions (spastic co-contraction index, SCCI) during an active elbow extension in chronic post-stroke patients.TBA injections are performed as part of routine care

H-reflex in Spastic Lower Limb Cryoneurotomy

Spasticity is a common complication after many upper motor neurone disorders. Many surgical techniques have been introduced for patients with refractory spasticity though they are not without peri-operative risks. Cryoneurotomy is another procedure which is cheaper, faster and less invasive in comparison to other surgical interventions. While many studies support the use of cryoneurotomy for pain relief, there are not much studies on use of cryoneurotomy to manage spasticity. The purpose of this study to measure the effect of tibial nerve cryoneurotomy on electrophysiological and clinical spasticity measures in adult patients with spastic equinovarus or equinus foot, who will receive this procedure as a part of their treatment based on spasticity treatment available guidelines. The results will provide us valuable information like how long cryoneurotomy is effective, before regeneration happens.

How Are the Muscles Affected in Cerebral Palsy? A Study of Muscle Biopsies Taken During Orthopaedic Surgery.

* Cerebral palsy (CP) is a motor disorder caused by an injury to the immature brain. Even though the brain damage does not change, children with CP will have progressively weaker, shorter and stiffer muscles that will lead to contractures, bony deformations, difficulty to walk and impaired manual ability. An acquired brain injury (ABI) later during childhood, such as after a stroke or an injury, will result in similar muscle changes, and will therefore also be included in this study. For simplicity, these participants will in this text be referred to as having CP. * The mechanism for the muscle changes is still unknown. Contractures and the risk for the hips to even dislocate is now treated by tendon lengthening, muscle release and bony surgery. During these surgeries muscle biopsies, tendon biopsies and blood samples will be taken and compared with samples from typically developed (TD) children being operated for fractures, knee injuries, and deformities. The specimens will be explored regarding inflammatory markers, signaling for muscle growth, signaling for connective tissue growth and muscle and tendon pathology. In blood samples, plasma and serum, e.g. pro-inflammatory cytokines and the cytoprotective polypeptide humanin will measured, and will be correlated to the amount humanin found in muscle. With this compound information the mechanism of contracture formation may be found, and hopefully give ideas for treatment that will protect muscle and joint health, including prevention of hip dislocation and general health. * The results will be correlated to the degree of contracture of the joint and the severity of the CP (GMFCS I-V, MACS I-V). * By comparing muscle biopsies from the upper limb with muscle biopsies from the lower limb, muscles that are used in more or less automated gait will be compared to muscles in the upper limb that are used more voluntarily and irregularly. * Muscles that flex a joint, often contracted, will be compared with extensor muscles from the same patient. Fascia, aponeurosis and tendon will also be sampled when easily attainable.

The Muscle in Children With Cerebral Palsy - Longitudinal Exploration of Microscopic Muscle Structure.

Cerebral palsy (CP) is a motor impairment due to a brain malformation or a brain lesion before the age of two. Spasticity, hypertonus in flexor muscles, dyscoordination and an impaired sensorimotor control are cardinal symptoms. The brain lesion is non-progressive, but the flexor muscles of the limbs will during adolescence become relatively shorter and shorter (contracted), forcing the joints into a progressively flexed position. This will worsen the positions of already paretic and malfunctioning arms and legs. Due to bending forces across the joints, bony malformations will occur, worsening the function even further. Since about 25 years a combination treatment with intramuscular botulinum toxin injections, braces and training has had a tremendous and increasing popularity, although lasting long-term clinical advantage is not yet proven. Muscle morphology of the biceps brachii and the gastrocnemius muscles: * The hypothesis is that care as usual, i.e. training and splinting sessions with botulinum toxin as adjuvant treatment, will reduce (normalize) the expression of the fast fatigable myosin heavy chain MyHC IIx and increase the expression of developmental myosin, as a possible sign of growth. As the biceps in the arm is used irregularly and voluntarily, and the gastrocnemius is activated during automated gait, the adaptations of those muscles will be different. Methods: Baseline muscle biopsies: Percutaneous biopsies are taken just before the first intramuscular botulinum toxin injection is given. The doses and the intervals for the botulinum toxin treatment will follow clinical routines. Biopsies 4-6 months, 12 months and 24 months after the first botulinum toxin injection: The exact same procedure as above will be performed, but the biopsies will be taken 2 cm distant, medial or lateral, from previous biopsy sites * Significance:. More knowledge is warranted regarding the actual molecular process in the muscle leading to a contracture, and its relation to the constant communication with the injured central nervous system. This study will give answers that could result in new, early prophylactic treatment of joint movement restrictions and motor impairment in children with CP.