View clinical trials related to Muscle Spasticity.
Filter by:The purpose of the study is to determine the effect of spring gravity bar on gait pattern in children with spastic diplegia
Stroke represents one of the main causes of adult disability and will be one of the main contributors to the burden of disease in 2030. However, the healthcare systems are not able to respond to the current demand let alone its future increase. There is a need to deploy new approaches that advance current rehabilitation methods and enhance their efficiency. One of the latest approaches used for the rehabilitation of a wide range of deficits of the nervous system is based on virtual reality (VR) applications, which combine training scenarios with dedicated interface devices. Market drivers exist for new ICT based treatment solutions. IBEC/ Eodyne Systems has developed and commercialised the Rehabilitation Gaming System (RGS), a science-based ICT solution for neurorehabilitation combining brain theory, AI, cloud computing and virtual reality and targeting motor and cognitive recovery after stroke. RGS provides a continuum of evaluations and therapeutic solutions that accompany the patient from the clinic to the therapy centre. RGS has been clinically validated showing its superiority over other products while reducing cost also through its use of standard off-the-shelf hardware and a Software as a Service model (SaaS). Commercial evaluations have shown that RGS acts as a workforce multiplier while delivering a high quality of care at clinical centres (RGS@Clinic). However, in order to achieve significant benefits in the patients' QoL, it is essential that RGS becomes an at home solution providing 24/7 monitoring and care. For this reason, this project aims at investigating the RGS acceptability and adoption model. The findings derived from this study will contribute to establish a novel and superior neurorehabilitation paradigm that can accelerate the recovery of hemiparetic stroke patients. Besides the clinical impact, such achievement could have relevant socioeconomic impact.
The reliability of the Australian Spasticity Assessment Scale (ASAS) has been reported to be not high enough in adult patients with acquired brain damage. The low number of patients and the heterogeneous study population have been reported as important limitations in the reliability study of this measure. Therefore, the reliability of the ASAS needs to be confirmed in stroke patients with spasticity. This study aims to investigate the inter-rater reliability of the ASAS in a study population consisting of a larger and more homogeneous patient population (those with post-stroke spasticity).
The aim of this retrospective study is to describe the real-world outcomes with the treatment of adult patients with Dysport® injections for focal upper limb spasticity (ULS) and/or focal lower limb spasticity (LLS) in NHS hospital settings in the United Kingdom (UK).
Spasticity, defined as a velocity dependent increase in tonic stretch reflexes, is one of the most prominent motor problems that occur in patients with cerebral palsy (CP). This causes difficulty in achieving balance, mobility, and an upright stance. CP is a group of permanent disorders that affect the development of movement and posture caused by a non-progressive damage to the brain. Because CP occurs in 2-3 of 1000 individuals, it is one of the most common causes of severe physical disability in children. Mismanagement of spasticity can lead to contracture which is extremely difficult to treat and may result in severe functional disabilities. The current management of spasticity in CP includes physical therapy (i.e. passive stretching), oral medication, botulinum toxin injection, and surgery. Botulinum toxin injection has been proven to effectively reduce spasticity yet many patients are unable to get access to this treatment due to its high cost. Moreover, Botulinum toxin injection is currently not covered by the public health insurance of Indonesia. Therefore, other modalities which are more affordable and are non-invasive therapies should be considered as a treatment option for spasticity. Radial Extracorporeal Shockwave Therapy (rESWT) has been utilized in the medical practice for the treatment of several musculoskeletal disorders such as chronic tendinopathies and spasticity. It is hypothesized that ESWT has two main effects which include a direct effect from mechanical forces at the treatment point and an indirect effect from cavitation. Even though rESWT has less penetration capacity over the focused Extracorporeal Shockwave Therapy (fESWT), rESWT is still believed to be more superior to fESWT because it requires less precise focusing, is less painful, and costs less. These also make rESWT the more appropriate choice for children with CP. Many studies have proven the efficacy of ESWT in reducing spasticity in spastic CP patients with significantly long lasting effects. Despite promising results, there still has yet to be a recommended guideline for the treatment of spasticity in children using rESWT. One of the critical parameters needed to be determined is the frequency of treatment. Therefore, the objective of this study is to understand whether the reduction in gastrocnemius stiffness in children with spastic CP is influenced by the frequency of ESWT sessions.
The primary aim of this study is to gain knowledge about both the effects of a single bout of static and proprioceptive neuromuscular facilitation (PNF) stretching and the effects of 8-week static and PNF stretching training on the calf muscle-tendon properties in children with spastic cerebral palsy (SCP). Furthermore, the effects on joint and muscle function, stretch reflexes, gait, and self-reported gait function and functional performance are examined to receive a comprehensive picture of potential changes. Further aims of this study are to identify which stretching technique might be more efficient by comparing the effects of both stretching interventions, and to gain information about the influence of foot flexibility on the stretch achieved by the spastic gastrocnemius muscle.
Spasticity of stroke patient, a very common complication in clinical practice, affects performance of hand function and gait pattern. It also interferes with quality of life of patients severely. Currently first line clinical approach to spasticity consist of physical therapy and pharmacological management. However, there are still some refractory cases that needed local intervention such as Botox injection. So far, we only can use subjective methods to measure muscle tension, such as modified Ashworth scale and Tone Assessment Scale. In our previous study, we found that ultrasound shear wave image could correlate with muscle stiffness caused by poststroke spasticity. With this new method, we aim to establish a more objective method in measuring abnormal poststroke muscle tension before and after treatments and further monitor therapeutic effect. We also include several assessment scales to evaluate the correlation between measured muscle spasm and activity of daily living. We hypothesize that the rheological changes in muscles muscle spasm after Botox injection can be detected by ultrasound shear wave image. Therapeutic effect can also be seen in its effect on daily functions. In this project, we will use shear wave imaging of ultrasound to investigate the elasticity (and hardness) of the biceps brachii and brachialis muscle in stroke patients with unilateral hemiplegia before and after Botox injection. The findings of this project will provide the objective evaluation of muscle spasticity and its correlation with functional status, which will provide new points of view toward treatment of spasticity.
Cerebral palsy (CP) is a group of permanent disorders affecting movement and postural development that are caused by non-progressive disruptions of the brain, usually occurring during fetal period or infancy. It is commonly accompanied with sensory disorders and learning disability. In 2016, more than 17 million people are affected by CP with a prevalence of 1.5 to 2.5 per 1,000 live births. CP remains to be the most common cause of severe physical disability in children. The Centres for Disease Control and Prevention (CDC) estimated an economic cost of US$4.1 million per CP patient that comprises of medical services, special education and productivity loss. Current management of spasticity involves physical manipulation such as passive stretching and splinting, sometimes combined with oral pharmacologic treatment, intrathecal baclofen therapy and botulinum toxin injection. At times, surgical procedures such as Surgical Dorsal Rhizotomy (SDR) can also be considered. Botulinum toxin injection has been shown to reduce spasticity for up to 6 months, however, the cost of the procedure remains to be an issue in developing countries like Indonesia. Therefore, other modality such as a non-invasive therapy should be considered as an alternative treatment for spasticity. Radial Extracorporeal Shockwave Therapy (rESWT) is a non-invasive treatment that has been shown to effectively improve spasticity in patients with spastic motor type CP, despite unclear underlying mechanism. According to International Society for Medical Shockwave Treatment (ISMST), there has yet to be a recommended guideline for the treatment of spasticity in children using rESWT. One crucial physical parameter needed to be determined is the number of pulse required to efficiently reduce spasticity. The number of pulse directly affects the duration of ESWT per session (the higher the number of pulse given, the longer the therapy session). This may be a concern for spastic motor type CP due to accompanying sensory and learning disability. Therefore, the objective of this study was to understand whether the reduction in hamstring stiffness in children with spastic CP could be influenced by the number of pulse in a single ESWT session.
MS patients were randomly divided into traditional therapy and traditional therapy + cervical mobilization groups. While muscle strengthening, stretching, balance and coordination exercises were given to the traditional group, cervical mobilization was applied in addition to these in cervical group. Patients received treatments twice a week for 4 weeks. The effect of the applied treatment on the tonus and plantar pressure distribution was analyzed. Treatments were interrupted for 4 weeks and the groups continued with the treatment they did not receive (crossover design). The group that received traditional treatment in the first period completed traditional + cervical mobilization, and the other group with traditional + cervical mobilization traditionally completed the treatment.
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.