View clinical trials related to Nervous System Diseases.
Filter by:A significant proportion of patients with functional neurological disorders (FND) report urinary, anorectal or genitosexual disorders. However, until now, no study has focused on bladder-sphincter disorders in patients with FND. The symptoms of this pathology are, therefore, not precisely characterized. Thus, the objective of this research is to specify if urinary, anorectal or sexual disorders can be observed in patients suffering from functional neurological disorders and to better describe them in order to propose better therapeutic options.
In this randomised placebo-controlled trial, the investigators will include 30 PD (Parkinson's disease) patients with HY (Hoehn Yahr stage) >2 and L-dopa unresponsive gait characteristics. Each participant will receive taVNS at 25Hz, taVNS at 100Hz and sham VNS (sVNS). During each stimulation, different gait characteristics will be measured with wearable insertion motion sensors.
The aim of this study is to increase parasympathetic activity and decrease the severity of symptoms by providing vagal stimulation with the t-VNS method in order to suppress the increased sympathetic activity in patients with prolonged Covid symptoms.The main question[s] it aims to answer are: Question 1:Is left ear transcutaneous vagus nerve stimulation effective in suppressing the symptoms of patients in Post Covid syndrome? Question 2:Is bilateral auricular transcutaneous vagus nerve stimulation effective in suppressing the symptoms of patients in Post Covid syndrome? A 5-minute heart rate variability measurement will be performed to measure the effectiveness of vagus nerve stimulation in participants.HRV is a non-invasive method used to evaluate ANS activity and is a measure of heart rate change over a period of time
Electroceuticals is a new field in which the goal is to treat a wide variety of medical diseases with electrical stimulation of autonomic nerves. A prime target for intervention is the cervical vagus nerve as it is easily surgically accessible and supplies many organs in the neck, thorax and abdomen. It would be desirable to stimulate selectively in order to avoid the off-target effects that currently occur. This has not been tried in the past, both because of limitations in available technology but also because, surprisingly, the fascicular organisation of the cervical vagus nerve is almost completely unknown. The aim of this research is to investigate the functional anatomy of fascicles in the cervical vagus nerve of humans. This will include defining innervation to the heart, lungs and recurrent laryngeal and, if possible, the oesophagus, stomach, pancreas, liver and gastrointestinal tract. It will be achieved by defining fascicle somatotopic functional anatomy with spatially-selective vagus nerve stimulation (sVNS) and the new method of fast neural imaging with Electrical Impedance Tomography (EIT). EIT is a novel imaging method in which reconstructed tomographic images of resistance changes related to the opening of ion channels over milliseconds can be produced using rings or arrays of external electrodes. In humans, using a nonpenetrating nerve cuff with sVNS or fast neural EIT, this will be performed for 30 minutes transiently during an operation to insert a vagal nerve stimulator for treatment of epilepsy and deliver images in response to activity such as respiration or the electrocardiogram (ECG).
Double-blind Superiority Randomized Controlled Clinical Trial. Objective of the study: To evaluate the effectiveness of photobiomodulation using the LED board in the prevention of peripheral neuropathy in the lower limbs in women with breast cancer undergoing chemotherapy at the Cancer Hospital III of the National Cancer Institute (HCIII/INCA).
This is a placebo-controlled clinical trial to assess whether Guanfacine Extended Release (GXR) reduces aggression and self injurious behavior in individuals with Prader Willi Syndrome (PWS). In addition, the study will establish the safety of GXR with a specific focus on metabolic effects.
The choice of the most suitable chair as well as the improvement of the patient's positioning on this wheelchair is important to limit the discomfort, to prevent the risks of bedsores, the pains related to prolonged sitting and finally to support the interaction of the patient with its environment. The goal of this prospective, longitudinale, monocentric study is to evaluate the impact of standardized positioning in wheelchair-bound patients at risk of slipping. The main questions on the positioning actions are: - their actions impact of positioning actions on shear forces - their impact on sliding in the chair - their impact on the feeling of discomfort in the chair - their impact on the caregivers' feelings about the patient's difficulties (eating, transfers, sliding) Participation in this study will involve an increase in the number of transfers required for shear sheet placement and removal, as well as the time required for ischial measurement and the time to complete the (Tool for Assessing Wheelchair disComfort) TAWC questionnaire.
A pre-post, randomized control trial comparing cost-effective and functional outcomes of participants with neurological diagnoses using robotic devices and advanced technology during inpatient rehabilitation to the outcomes of control participants without the use of robotic devices and advanced technology during rehabilitation. We aim to show at least similar inpatient rehabilitation outcomes and improved health economics in participants with neurological diagnoses by using robotic devices and advanced technology to increase the intensity and dose of rehabilitation.
The aim of our study is to investigate the effect of high-frequency Repetitive Transcranial Magnetic Stimulation(rTMS) therapy applied to the dorsolateral PFC (DLPFC) area on neuropathic pain in patients with spinal cord injury. In this area, there are very few studies on the effectiveness of rTMS treatment added to medical treatment in neuropathic pain. In addition, the number of studies comparing the effect of rTMS therapy applied to the DLFPC area is very few.
Patients with neurodevelopmental diseases and their families need to identify the genetic cause of the disease to allow for recognition of the disability, genetic counseling, and possible hope for participation in therapeutic research studies. Access to high-throughput genomic exome or genome analysis allows the identification of a genetic cause for approximately half of the patients. However, families with no result or with a variant of unknown significance after these tests may find themselves in a new diagnostic impasse. The high-throughput sequencing used today generates sequences of the order of 100 base pairs (so-called "short read" sequencing). This allows an analysis of about 90% of the genome. However, many regions are not accessible in regions of interest for the genetic diagnosis of rare diseases. Long fragment sequencing generates sequences that are about 20 times larger and its use has recently made it possible to sequence the human genome almost completely (https://www.science.org/doi/10.1126/science.abj6987). The main contribution lies in the analysis of complex regions of the genome such as segmental duplications or centromeric regions. It is likely that this technology increases the sensitivity of detection of genetic variants in patients with genetic diseases. Its contribution should be studied in patients for whom no genetic cause has been identified by classical techniques. This study aim to investigate the contribution of long fragment genome sequencing.