View clinical trials related to Motor Disorders.
Filter by:Parallel-group, single-blinded controlled clinical trial. The study involved stroke patients (no more than 3 points on a scale Rankin) dived of the control group and experimental group. Control group received daily sessions of conventional physical therapy. In addition to the same conventional physical therapy treatment, the participants of the experimental group underwent repetitive upper limb Functional Proprioceptive Stimulations (FPS) sessions.
The goal of this Clinical Trial is to verify the effectiveness of the use of the Intorus device in the motor intervention in patients with cerebral palsy and related syndromes. The main question it aims to answer is: Does the use of the Intorus tool manage to improve the mobility of upper limbs (MMSS) in patients with infantile cerebral palsy to increase their performance in activities of daily living? A total of approximately 50 users will participate in the study. Participants will be divided into two groups randomly. The control group will receive an intervention treatment at the motor level in the traditional way, following the protocols established in the center, and the intervention group will receive an intervention treatment at the motor level with the INTORUS device. Randomization will be carried out using the Oxford Minimization and Randomization software.
To determine the effects of Lee Silverman Voice Treatment BIG on dynamic balance in Parkinson's patients
Background : The supplementary motor area is the most common/preferential brain location of LGG. This area plays an important role in many motor and cognitive functions such as motor initiation, bimanual coordination and executive functions. Many studies describe the supplementary motor area syndrome resulting from lesions in this area. News managements for LGGs consisting in intraoperative mapping in awake patients reduce significantly neurological disorders and increase also the overall survival . However, the literature does not provide data concerning motor and cognitive functions in a long term and their consequences in the quality of life of patients. Objective : The aim of our research project is to identify whether there are some motor or neurocognitive deficit in the short and the long term in a population of patients who have medical story of LGG resection in the supplementary motor area.
Spina bifida is one of the neural tube defects that cause neuromuscular dysfunction. Spina bifida is a disease accompanied by motor paralysis, musculoskeletal problems, Arnold-Chiari malformation, osteoporosis, hydrocephalus, upper limb coordination disorder. The affected upper extremity functionality and hand skills are very important for independence in daily living activities. There are some studies in the literature showing that upper extremity motor function is affected in patients with spina bifida. However, no study was found in which the upper extremity was investigated in terms of sensory and motor proficiency.The social and professional aspects of the upper extremity are of great importance.Therefore, our study aims to investigate the effects of upper extremity sensory and motor proficiency in patients with spina bifida
Conversion disorders, also called "dissociative disorders" (ICD-10), or "functional neurological disorders" (DSM-5), are a common condition, with a prevalence of 1-10% in medical and surgical inpatients (Toone 1990), and 10-30% in neurology patients (Carson et al. 2000). They are characterized by the presence of symptoms or deficits affecting voluntary motor, sensory, or sensory functions suggestive of a neurological or general medical condition in combination with psychological factors. Functional neurological disorder is currently a diagnosis of elimination and its treatment remains uncodified. A better understanding of the pathophysiology of this disorder is needed to improve the diagnostic and therapeutic approach to this condition. Identifying new biological markers associated with motor symptoms occurring during the course of the functional neurological disorder would allow clinicians to acquire new diagnostic methods, to improve therapeutic means and their specificity and to highlight possible predictive factors of the clinical evolution of this pathology. At the same time, the identification of biological markers associated with motor symptoms will allow the patient to better understand and accept the diagnosis, and thus to better adhere to the proposed treatment.
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.
The purpose of this preliminary study is to apply AI technology on a sample of infants aged 4 to 18 months to develop an action tracking and recognition algorithm for infant motor screening and to determine the accuracy of the captured movements during the Alberta Infant Motor Scale (AIMS) assessment using an experienced physical therapists' assessment results as the reference.
In our study, we tested the hypothesis of the safe effect applicability of motor training in the immersion high-tech polymodal VR system not only on the parameters of balance, gait, and motor status of the patient, but also on his cognitive functions and mental health in patients with a degree of disability no more than 3 points on a scale Rankin.
Clinical features of Multiple Sclerosis (MS) vary widely from patient to other. About the 60% of patients with MS presents cognitive deficits associated with motor disability. The principal consequences of the motor disabilities concern difficult in gait and balance. The principal cognitive deficits concern the speed in elaborating information, the complex attention and the memory. During walking in daily life, it is often required to turn the head for looking something happening in the surrounding environment, for example when a sudden noise is heard, while crossing the street, when there's something interesting around or when is required to verbally answer to someone without stopping walking. All these examples are referred to a common daily life mechanism that has been defined as dual task (DT). Considering that the attention is a limited function, divide it in two different and simultaneous tasks (motor and cognitive), cause a cognitive-motor interference (CMI) that lead to a loss of efficacy in one or in both the tasks. The main aim of the study is to verify the impact of a brief rehabilitation training that combining motor and cognitive therapy using a dual-task paradigm, on balance and gait in MS patients, compared with the traditional therapies that provide a specific postural stability rehabilitation approach. Recruited patients will be randomized in two different groups which perform two different training. Each group perform the allocated training 3 times a week for 4 weeks. All the patients will be evaluated at the baseline (T0), at the end of the training (T1) and 60 days after the end of the training (T2).