View clinical trials related to Nervous System Diseases.
Filter by:Introduction: Progressive muscle weakness, joint contractures and body alignment disorders seen in patients with Duchenne Muscular Dystrophy (DMD) adversely affect the foot structure of the patients. Objective: The aim of this study is to examine the relationship between foot posture, performance and ambulation in patients with DMD. Method: The patient with ambulatory DMD will be included in the study. The foot postures of the patients will be evaluated with the Foot Posture Index. Relationships between the Foot Posture Index and performance tests (6 minute walk test, timed performance tests (10m walking, Gower's, climb/descend 4 stair)) and the North Star Ambulation Evaluation, an ambulation evaluation, will be examined.
The implementation of virtual reality (VR) and robotic devices in neuromotor rehabilitation has so far provided promising evidence in terms of efficacy throughout different clinical populations. Positive changes in patient's motor and functional outcomes were reported along with an increased autonomy in the activities of daily living (ADLs) and health-related quality of life (HRQoL). The experience of use of these technological devices and their impact on the cognitive and psychosocial outcomes remain still unclear, though. Adopting a biopsychosocial approach, the present two-arm, parallel, non-randomized prospective quasi-experimental study protocol aims to explore the short- and long-term effectiveness of robot-assisted therapy (RAT) and of VR-based neuromotor rehabilitation. Pre-post intervention effects will be estimated and compared between a group of patients undergoing conventional treatment and another group additionally participating in technology-based rehabilitation. The evaluation will include patient's functional status (ie, motor functionality, autonomy in ADLs, risk of falls), cognitive functioning (ie, attention and executive functions), HRQoL, and psychological aspects (ie, anxiety and depression symptoms, quality of life satisfaction). After the treatment, devices usability and experience of use, along with the related psychosocial impact will be also assessed.
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.
Our proposal is to develop a sentinel syndromic surveillance strategy to identify encephalitis cases possibly related to emerging pathogens admitted to ICUs in Brazil. "Sentinel" to allow a diagnostic intensive approach on a smaller number of cases, "syndromic" to guarantee a sensitive criterion to include new or unexpected pathogens, and in ICUs to prioritize potentially severe threats. In a resource-limited setting it won't be possible to monitor and investigate all cases of encephalitis, so a cost-effective algorithm for early identification of the cases that are most likely to be caused by unusual, unexpected or emerging pathogens must be developed. As universal surveillance of encephalitis is not recommended in Brazil, data on incidence, causes and prognosis is not available, leaving a gap in the understanding of the epidemiology of this central nervous system disease in the country. This study will review cases of encephalitis admitted in the last five years to ICUs in a large metropolitan area. Its results will help understand the epidemiology of encephalitis in Brazil and will provide data to build a strategy for early identification of outbreaks and of emerging infectious diseases.
Quality of life is conceded by copious musculoskeletal and neurogenic conditions which are evaluated by manifold questionnaires. These questionnaires are obtainable in English and many other languages but in Pakistan, these cannot be applied due to differences in languages, lifestyles, culture, and activities of daily living (ADL's). In relation to the culture of Pakistan, there are many accomplishments such as offer prayers and other domestic obligation which cannot be executed appropriately if any Musculoskeletal and neurogenic disorders are existing. All these disorders can be assessed appropriately by questionnaires previously accessible but not in a single tool.
The increase in the tension of the soft tissues around a nerve restricts the movement, affects the function of the nerve, and makes the nerve vulnerable to entrapment. Even a mild nerve compression can cause entrapment and lead to neuroinflammation. It is known that inflammatory mediators amplify axonal sensitivity. Although the spontaneous discharge potential of visceral afferents is quite low under normal conditions, neuroinflammation increases the excitability of these fibers. With this mechanism, hyperalgesia may develop in sensory fibers in neuroinflammation. This may cause pathologies in the organs innervated by the relevant nerve. The fascia and muscles of the cervical region surround the vagus nerve. There are two main fascial compartments in the cervical region. The SCM and trapezius muscle fascias join to the most superficial fascia of the deep cervical fascia and they together form these compartments. These fasciae superiorly attach to the cranium and inferiorly to the pectoral region. The vagus nerve emerges from the jugular foramen together with the 9th and 11th cranial nerves. It then continues through the carotid sheath in the cervical region. The carotid sheath is in contact with the SCM muscle. For this reason, it can be thought that SCM muscle tension or thickness may affect the carotid sheath and thus the function of the vagus nerve passing through it. In summary, deterioration in vagus nerve activity plays a role in pathologies of the organs innervated by the vagus. Although the relationship between vagal dysfunction and gastrointestinal system symptoms is clear, the mechanisms affecting vagus nerve function have not yet been clarified. It has been reported in the literature that some maneuvers from the cervical region are also effective on the vagus nerve. Also, according to investigators' clinical experience, gastrointestinal symptoms are frequently observed in patients with increased cervical soft tissue tension. However, there are not enough studies investigating whether the cervical region soft tissue tension can affect the gastrointestinal system via the vagus nerve. Therefore, this study was planned to examine the relationship of cervical soft tissue tension with vagus nerve function and gastrointestinal symptoms in asymptomatic individuals and individuals with neck pain.
The purpose of the study was to examine the emotional state of the patients with neurological disorders. The evaluation was conducted with DASS-21 scale over 40 patients.
To evaluate the positive effects of a home-based physical therapy intervention added to the usual physical therapy programs performed in children with neurological pathologies that induce sensorimotor impairments that affect their quality of life and the importance of the implications of their families in their treatment.
Background. Force control is one of the major parameter of motor activity. There is few study concerning the cortical activity imply for different levels of force during gait. Objective. To investigate cortex activation while walking an exoskeleton with 4 levels of guidance force in healthy controls. Methods. The investigators acquired near-infrared spectroscopy (fNIRS) with a 20 channels device (Brite 24® ; Artinis) covering bilaterally most motor control brain regions during exoskeleton walking at different level of force (100 %, 50% aid, 0 % aid and 25 % of resistance) in 24 healthy controls. The investigators measured variations of oxyhemoglobin (HbO2) and deoxyhemoglobin (HbR). The technique was optimized by the use of reference channels (to correct for superficial hemodynamic interference).
Stroke represents the leading cause of disability worldwide, with a significant impact on an individual, family, and economic impact. The recovery of smoother, safer, and more correct walking is an essential requirement to allow the patient to regain autonomy in the activities of daily living. Some preliminary studies have shown that robotic training of the gait training has influenced the functional and motor outcome in patients with stroke outcomes an improvement in endurance and walking strategies was observed. In addition, frequently, a stroke involves an alteration of the cognitive system that contributes to the deterioration of balance and gait during dual-task activities; the study of these processes can be of interest for rehabilitation purposes. Considering these preliminary data and that the patient must continuously find balance in overground walking, it is believed that a robotic balance treatment associated with conventional therapy may be more effective than conventional therapy alone. Therefore, this study aims to evaluate the effects of technological rehabilitation utilizing a robotic platform (Hunova® Movendo Technology srl, Genova, IT): - (i) in terms of improvement in static, dynamic balance, and ambulation (assessed with clinical scales and instrumental measures); - (ii) on fatigue, on cognitive performance in terms of sustained attention, dual-task cost and cognitive-motor interference and on quality of life.