View clinical trials related to Nervous System Diseases.
Filter by:The freezing of gait (FOG) is one of the disabling symptoms in Parkinson's disease. The diagnosis and assessment of the FOG may be diffucult, but it is absolutely necessary. The aim of this study was to develop a Türkish version of the freezing of gait questionnaire (FOG-Q) and assess the validity and reliability of this Türkish version. The researchers firstly communicated with the developers of the FOG-Q. The permission for Turkish version was received by Giladi. Then, the FOG-Q will be adapted into Türkish using forward-backward translation by three native Türkish-speaking forward translators and one native English-speaking backward translator. The internal reliability of the FOG-Q Türkish version will be assessed using Cronbach's alpha, and item analyses will be conducted by examining the effect on Cronbach's alpha of excluding each of the six FOG-Q items individually. The test-retest reliability will be assessed using intraclass correlation coefficient (ICC). Convergent validity will be evaluated by means of Spearman rank correlation coefficient (rs). In this section will be determined the correlation between the FOG-Q scores and scores of the UPDRS motor section , Berg Balance Scale, Timed up and go test, Falls Efficacy Scale and Hoehn and Yahr stages.
HOPE-2 is a double-blind clinical trial evaluating the safety and efficacy of a cell therapy called CAP-1002 in study participants with Duchenne muscular dystrophy (DMD). Non-ambulatory and ambulatory boys and young men who meet eligibility criteria will be randomly assigned to receive either CAP-1002 or placebo every 3 months for a total of 4 doses during a 12-month period.
Functional Neurological Disorder (FND/ Conversion Disorder) is a highly prevalent and disabling neuropsychiatric condition. Motor FND symptoms include Nonepileptic Seizures, Functional Movement Disorders and Functional Weakness. Clinical research across these motor FND subtypes, including research studies from the candidate's laboratory, suggest that these populations share many clinical and phenotypic similarities that warrant increased research integration. Furthermore, despite the prevalence of motor FND, little is known about the underlying pathophysiology of this condition, which is a prerequisite for the development of biologically informed prognostic and treatment response biomarkers. Across 3 published neurobiologically focused articles, the candidate proposed a framework through which to conceptualize motor FND. It is suggested that motor FND develops in the context of structural and functional alterations in neurocircuits mediating emotion awareness/expression, bodily awareness, viscerosomatic processing and behavioral regulation. The overall goal of this project is to comprehensively investigate structural and functional magnetic resonance imaging (MRI) biomarkers of prognosis across motor FND. Multimodal structural and functional MRI techniques (including voxel-based morphometry, cortical thickness, resting-state functional connectivity and diffusion tensor imaging tractography) will be used to systemically probe brain-prognosis relationships. Novel aspects of this proposal include the study of the full spectrum of motor FND, consistent with a trans-diagnostic approach.
Gait recovery is one of the main goals of post-stroke rehabilitation where robotic-assisted practice has shown positive outcomes. However, literature lacks of clinical studies on exoskeleton-supported gait rehabilitation. Recently, a wearable exoskeleton (Ekso™, EksoBionics, USA) has been commercialized for re-enabling patients to stand and walk, involving them directly in steps trigger through body weight balance. The main aim of this study is to assess the clinical and neuromuscular effects of exoskeleton-based gait rehabilitation in sub-acute and chronic stroke patients, compared to patients with similar characteristics who will conduct a traditional over-ground gait training. In this multicentric RCT, 162 stroke patients will be enrolled and randomly assigned to the Experimental Group (EG) or to the Control Group (CG). Patients will conduct at least 12 one-hour-sessions (about 3 times/ week) of Ekso™ (EG) or traditional over-ground (CG) gait rehabilitation. Clinical evaluations (lower limb Modified Ashworth Scale- MAS; Motricity Index - MI; Trunk Control Test - TCT; Functional Ambulation Classification - FAC; 10-meter walking test - 10mwt; 6-minute walking test - 6mwt; Walking Handicap Scale - WHS; Time Up and Go - TUG) will be administered to patients at the beginning (T1) and at the end (T2) of the training period. The primary outcome is the distance performed during the 6mwt. A follow up study at 1 month (T3) and at 3 months (T4) after T2 will be conducted.
Adaptive gait assessements will be evaluated as a potential new marker for tracking locomotor recovery throughout rehabilitation of spinal cord injury subjects. To this end, controls, subacute and chronic patients will be assessed at two timepoints with 3 month standard rehabilitation inbetween. The specific assessments will require the participant to acitvely modulate their gait pattern to fullfill specific task constraints. Their performance will be assessed via 3D kinematics, kinetics and EMG and these measures will be used to describe the adaptive capacity that the patient retains. Sensitivity and specificity of these markers will be determined. With more sensitive descriptors of gait function and quality, locomotor rehabilitation for SCI can be better designed and smaller effects can be accurately measured.
The purpose of this study is to assess the efficacy, safety and pharmacokinetics of MHOS/SHP615 administered buccally in children with status epilepticus (convulsive) in a healthcare setting.
The purpose of this study is to determine if the investigational treatment, MHOS/SHP615, is safe and effective in children with status epilepticus (SE) (convulsive) in the community setting. This study is open-label extension for patients who completed the SHP615-301 study and who tolerated and responded to MHOS/SHP615 treatment in the hospital setting.
Neuro-orthopedics corresponds to the evaluation and therapeutic management of the orthopedic consequences of damage to the central or peripheral nervous system. In case of neurological impairment, there may be joint, motor, sensory and cognitive impairments that limit the patient's activities. The management of these orthopedic problems falls within the specific framework of neuro-orthopedics because in the presence of neurological, problems are different and more complex than in classical orthopedics. In this context, a well-conducted evaluation is a prerequisite for appropriate treatment.
Refractory cardiogenic shock is characterized by a decreased in cardiac output with hypo-responsiveness to increasing doses of catecholamines resulting in a profound tissular ischemia. VAECMO, by restoring a circulatory flow, could be associated to a major reperfusion syndrome which may lead some patients to multiple organ failures and death. Pathophysiology of this syndrome includes 1/an hyper-adrenergic state secondary to the over activation of the sympathetic system and 2/ a major release of pro-inflammatory cytokines. As adrenoreceptors are also exhibited on immunes cells, the pro-inflammatory state might be enhanced by the over-activation of the sympathetic system.
The purpose of this study was to investigate the effects of gait training with the new wearable hip assist robot developed by Samsung Advance Institute of Technology (Samsung Electronics Co, Ltd, Korea) in patients with chronic stroke.