CORETOX® in Treatment of Post Stroke Upper Limb Spasticity (Phase1)
Muscle SpasticityThe purpose of this study is to evaluate the safety and pharmacodynamic of CORETOX® in the treatment of post-stroke upper limb spasticity
Tele-physiotherapy on Post-stroke Hemiplegia Patients
HemiplegiaMuscle SpasticityThe present preliminary randomized trial will be performed to compare the effectiveness of telephyisiotherapy plus physical exercises versus other conventional techniques (electromyographic biofeedback or conventional physiotherapy). Participants will be chosen from Hospital Sagrado Corazón de Málaga, after the approval of the centre. One hundred and twenty patients with hemiplegia as a consequence of an ischaemic stroke will take part in the study. Selection criteria included to be older than 65 years, with two months of evolution after the stroke and with the left paretic side. In addition, they had to have a positive diagnosis of COVID-19. Positive cases will be confirmed by PCR. Due to the local sanitary regulations, all patients may require home confinement during 1 month without possibility to continue their rehabilitation program. Physiological interventions started 20 days after the first negative PCR test. Participants will be randomize in three different intervention groups, conventional therapy (n=40), carried out in the Hospital, biofeedback therapy (n=40), also conducted in the Hospital, and Telephyisiotherapy (TP) plus physical activity (n=40). The intervention period will last for three months, and participants will be re-evaluated 30 days later to confirm treatment effectiveness. Measurements Electromyographic activity and hand strength The mean electromyographic (EMG) activity will be determined with the Neurotrans Myoplus 2 Pro System (Verity Medical Ltd, UK), the same instrument used to carry out the intervention. The isometric strength (Nw) of the hand will be assessed with a hand-held digital dynamometer (Smedley digital hand dynamometer, RMS Ltd., UK). Functional tests In the present work, the Fugl-Meyer will be used to determine the functional status of patients with stroke. The patients with better functionality had superior scores. In addition, the ability of the patients to perform basic daily living activities was determined through the Barthel index. Considering the advanced age of the participants, three extra-scales will be determined: the FRAIL scale, the short physical performance battery (SPPB) and the Strength, assistance in walking, rise from a chair, climb stairs and falls (SARC-F) scale will be evaluated.
Neural Mobilization for Reduction of Spasticity in Stroke
StrokeSpasticity after stroke is common that affect upper limb strength and make activities of daily living difficult. There are many techniques but not any standardized technique for long term effect on reduction of spasticity and improving upper limb strength. This study aimed to explore and understand the effectiveness of neural mobilization on reduction of spasticity and improving upper limb strength in individuals with stroke. This is mixed method approach of embedded design, multicentric study recruited 7 individuals with stroke as no new themes or codes were emerging (data saturated). Median nerve mobilization was given 20 oscillations per minute for 3 times & repeated 3 times with a pause of 1 minute between each sets for 5times/week for 4weeks. Outcome measures were Modified Ashworth Scale (MAS), Brunnstrom's grading of hand recovery and Hydraulic hand dynamometer(HHD) for grip and pinch strength. Pre and post outcomes data were collected at baseline and 4weeks after intervention and in depth face to face structured interviews was conducted after 4weeks of intervention to explore the effectiveness of median nerve mobilization on reduction of spasticity and the improvement of upper limb strength.
Extracorporeal Shock Wave Therapy (ESWT) for the Treatment of Spasticity in Persons With Spinal...
Spinal Cord InjurySpasticitySpasticity is the most problematic self-reported secondary medical problem in patients with spinal cord injury. It has the potential to negatively influence quality of life through restricting activities of daily living. Problematic spasticity can cause pain and fatigue, disturb sleep, contribute to the developement of contractures and pressure ulcers, and has a negative effect on patients morbidity. For this reason there is enormous interest in therapeutic interventions addressing to decrease spasticity in persons with spinal cord injury. Recently, studies reported positive effects of extracorporeal shock wave therapy on spasticity in patients with stroke, focal limb dystonia and cerebral palsy. To date, no studies are published, assessing the effect of extracorporeal shock wave therapy on focal spasticity in patients with spinal cord injury. The purpose of this study is to investigate the effect of a one-time ESWT on lower limb spasticity in patients with an incomplete spinal cord injury.
Treatment With Xeomin Versus Botox in Children With Spastic Equine and Equinovarus Foot Deformation...
Cerebral PalsySpastic Paraplegia and Hemiparesis1 moreTo assess the clinical and neurophysiological efficacy of Xeomin® vs. Botox® in children with spastic equine and equinovarus foot deformation in pediatric cerebral palsy To assess the safety of Xeomin® use as compared to Botox® in this patient population
Does Botulinum Toxin A Make Walking Easier in Children With Cerebral Palsy?
Cerebral PalsyMuscle SpasticityIn Norway, about 60% of all children with cerebral palsy (CP) are being treated with botulinum toxin A (BoNT-A) at 6 years of age, mainly in the legs. Despite this widespread use of the drug, the evidence for a positive effect on walking is insufficient. Moreover, large variation in effect is seen by clinicians. The main objective of the present study is to investigate whether injections with BoNT-A in the calf muscles make walking easier in children with spastic CP within 6 months, reflected by reduced energy cost during walking.
A Randomized Study of Sativex on Cognitive Function and Mood: Multiple Sclerosis Patients
Multiple SclerosisSpasticityA study to compare the change in cognitive performance and psychological status of patients with spasticity due to Multiple Sclerosis when treated with Sativex or placebo, added to existing anti-spasticity therapy over a period of 48 weeks. Secondary objectives were to evaluate the effect of Sativex on mood and spasticity and to assess the safety and tolerability of Sativex.
Kinesiotaping the Hand in Cerebral Palsy
SpasticityBACKROUNDS: Thumb in palm deformity restricts hand function by prevent somatosensory input in the children with cerebral palsy who have spasticity in their hands. OBJECTİVES: To investigate the effects of thenar palmar kinesiotape application with and without pressure on hand function in children with cerebral palsy. METHOD: 45 children were randomly allocated to one of the thenar taping groups either with or without pressure or to the control group. Nine hole peg test and nine parts puzzle test were used to measure hand function. The two study groups were evaluated initially, with taping 20 minutes later and 20 minutes after taping was removed.
Myobloc Atrophy Study
Spasticity Secondary to Either a Disorder or TraumaSpinal Cord Injury (SCI)3 moreThe present pilot study is designed to assess the extent to which BOTOX and MYOBLOC cause muscle atrophy in spastic patients. The primary objective is to assess whether there is statistically significant difference in muscle atrophy between the two groups over a one year period.
Study Evaluating Treatment of Upper Limb Spasticity Using the Cryo-Touch III Device
Upper Limb SpasticityA proof of concept study to evaluate the feasibility of safe and effective treatment of upper limb spasticity using the Cryo-Touch III Device.