View clinical trials related to Nervous System Diseases.
Filter by:Acquired cerebrovascular trauma is the third most common cause of disability worldwide, resulting in long-term disability, limitation of activities of daily living, and reduced social participation. It is estimated that, within three months of the acute event, a high percentage of patients do not recover full function. 93% of these disabilities concern the upper limb. To induce optimal functional reorganization after the acute cerebrovascular events or neurodegenerative diseases affecting the central nervous system, robotic assistance allows intensive exercises with specific therapeutic purposes. Indeed, they enable an intensive, repetitive, and customizable therapeutic program that is in line with the principles underlying motor learning. Clinical investigation is needed to assess the efficacy of the proposed new technologies (AGREE and FEXO exoskeleton) and to guide subsequent developmental steps. Therefore, an exploratory clinical study is proposed to evaluate usability, tolerability, and safety, as well as to assess the effectiveness of the new technologies. The primary objective of this study is to examine the safety and tolerability of the new active exoskeletons for upper extremity rehabilitation and validate them in a controlled environment. Furthermore, efficacy will be examined as the secondary outcome.
The aim of this study was to develop a gait assessment instrument for Duchenne Muscular Dystrophy patients (DMD-GAS), and investigate its validity and reliability.The scale was developed considering the expert opinions which included 10 physiotherapists who had experience in the management of patients with DMD over the 2-round Delphi method, and the Content Validity Index (CVI) was calculated. The final version of the DMD-GAS that was agreed upon the experts consisted of 10 items, and each item scored between 0 and 2. The intra-rater reliability was established by the video analysis of children with a 1-month interval and inter-rater reliability was determined by the scores of 3 physiotherapists. The criterion validity was determined by investigating the relationship between the total score of the DMD-GAS and Motor Function Measure (MFM), 6 Minute Walk Test (6MWT), and the data obtained from GAITRite system.
Overview of study. This is an observational study that is intended to provide the first in-human data using EIT as a biomarker of muscle health in neuromuscular conditions. We will seek patients with neurological disorders (both neuromuscular and other neurological conditions) as well as healthy subjects for study. EIT measurements will be performed on appendicular muscles (in the upper and lower extremities) depending on the condition, both at rest and with contraction. EIT measurements will be repeated on an intermittent basis to assess repeatability as well disease progression or improvement over time.
The aim of the study is to assess the efficacy of dry needling in stroke patients in combination with intensive neurological physiotherapy. together with intensive neurological physiotherapy treatment. Randomised and blinded experimental study control group where the sample recruited was 20 patients, who were randomly assigned to a control group. randomly assigned to a control group, where they received intensive treatment, or to an intervention group, where they received intervention group, where they received ultrasound-guided dry needling of the tibialis anterior and posterior muscles followed by an intensive followed by intensive neurological physiotherapy treatment.
Cerebral Palsy (CP) is a non-progressive neurodevelopmental disorder that causes activity limitation resulting from movement and posture deficiencies as a result of a lesion in the immature brain. Children with CP usually have difficulties in mobility, transfer and social participation due to many motor and sensory disorders such as muscle weakness, decreased postural control, balance, spasticity.Hypertonus and abnormal motor patterns, lack of trunk control and postural disorders adversely affect the physical development of these children. Children with CP show various posture disorders due to proximal muscle strength losses leading to limitations and deficiencies in postural reactions. This leads to losses in reactive and antisipatory postural adjustments, and limits upper extremity functions such as walking, reaching, and eating. For this reason, children with CP have difficulties in maintaining balance while standing or sitting independently, walking, maintaining postural control in various environments such as walking, hills/uneven floors, performing activities of daily living (ADL) and social participation.
This is a double-blind, placebo-controlled study during which patients will receive ricolinostat or placebo.
The aim of our study is to determine the effectiveness of US-guided hydrodissection of the median nerve in different contents and volumes in patients diagnosed with mild to moderate carpal tunnel syndrome.
High risk infant is defined as infant with a negative history of environmental and biological factors, which can lead to neuromotor development problems. It is a heterogeneous group of premature infants born under thirty-seven weeks of age, with infants with low birth weight, term or developmental retardation for various reasons. Therefore, preterm infants with low birth weight can survive with a neurological sequelae such as cerebral palsy (CP), epilepsy, hearing and vision loss, mental retardation, speech and speech problems, and learning difficulties. The clinical diagnosis of CP, which can be observed in high-risk infants, is based on the combination of some neuroimaging and neurological examinations and assesments like neonatal imaging, general movements (GMs) and Hammersmith Infant Neurological Examination (HINE).
Idiopathic normal pressure hydrocephalus (INPH) is a treatable disease of the elderly, typically causing gait impariment, dementia and urinary incontinence. The objective of this study is to make an epidemiological survey of INPH in Umeå, Sweden. Subjects with self-perceived gait impairments will be identified through a questionnaire. They will go through clinical examinations and have an MRI of the brain. A control population will also be investigated to enable comparisons between the populations. The main hypothesis is that the prevalence of INPH in the population is higher than what is previoulsy known.
Stroke is the third leading cause of disability worldwide, with the hand being one of the segments whose affectation generates the greatest limitation in functional ability and quality of life. Neurorehabilitation is the most effective therapy as long as it is implemented both in the early (post-hospital stages) and in an intensive approach. However, the resources of healthcare systems are not enough to address the neurorehabilitation needs of patients with hand affectation after stroke. Thus, current scientific literature advocates transferring such rehabilitation to the patient's home through therapeutic exercise programs - whose clinical and economic effectiveness has already been demonstrated - as a way of reducing the consumption of resources. In order to achieve this, telerehabilitation is suggested as one of the most viable formats. However, current telerehabilitation systems such as video games and virtual reality do not provide a fully viable solution, mainly due to the lack of scalability and penetration of the technology, and the lack of a hand specific approach, whose importance is crucial in the recovery of function and autonomy in Activities of Daily Living (ADL). Different articles and reviews confirm the potential of tablet devices to solve these issues given their scalability and the multisensory feedback provided, making possible a more productive and intensive motor training and sensory stimulation in order to optimize cortical reorganization and neuroplasticity after a stroke. Both health professionals and patients have expressed the need for a specific Tablet application for neurorehabilitation of the hand after stroke, that follows the precepts established by the evidence. However, the lack of specific applications for this approach means that existing apps are used as an adaptation. Therefore, we propose the development and preliminary validation of ReHand, the first Tablet application developed according to the needs of healthcare professionals and patients, and the precepts of the most updated scientific literature, which allows the patient to perform an active therapy adapted to its hand limitations, and the healthcare professional to monitor their patient's home performance.