View clinical trials related to Sclerosis.
Filter by:Botulinum toxin type A injections into the detrusor at a dose of 200 units (U) of BOTOX® are a recognized second-line treatment for the treatment of adult neurogenic lower urinary tract disorders. Anticholinergics are established as the usual first-line treatment for neurogenic detrusor hyperactivity, but are oft not sufficiently effective and have significant side effects. In patients with multiple sclerosis (MS) suffering from overactive bladder, the 200 U dose of BOTOX® is very effective but induces a risk of urinary retention in 30% of patients requiring the temporary use of self-catheterization1. At 100 U, a recent study shows the efficacy and very good tolerance of botulinum toxin A in terms of probing risk in MS patients with overactive bladder and failure of anticholinergics. Furthermore, the efficacy of anticholinergics in MS has been little studied and is also disputed. The investigators plan to test the therapeutic alternative as the first line of treatment in two groups of randomized MS patients from a homogeneous population suffering from overactive bladder: - a group testing the effectiveness of low doses of botulinum toxin type A (100 U, BOTOX®), - the other group receiving the standard anticholinergic treatment (solifenacin succinate, Vesicare®). During this pilot study, the efficacy and side effects profile of each treatment will be analyzed in order to determine the amplitudes of effect and the safety profiles in this population and in order to establish the statistical hypotheses for a subsequent randomized multicenter study. The aim of this study will be to establish the benefit of botulinum toxin at a dose of 100 U as a first-line treatment instead of anticholinergics
The aim of this project is to analyze the macrophage transcriptome and protein markers of Amyotrophic Lateral Sclerosis (ALS) patients compared to controls (non-affected individuals, patients with other motor impairments) and asymptomatic ALS gene carriers, to find new pathways for therapeutic targets and disease biomarkers.
The randomized controlled trial is aimed to study the efficacy of virtual reality (VR) and its impact on upper limb function and postural stability in people with mild to severe multiple sclerosis (pwMS). The conceptual idea is to compare two kinds of neuroproprioceptive "facilitation and inhibition" physical therapy, first in a real environment and second in virtual reality, in out-patient therapy that will be held in 15 hourly therapies, 2x a week in a period of two months. The efficacy will be assessed by a blinded independent clinical examiner using clinical examination and questionnaire survey before and in a week following the therapeutic intervention. The main focus is on upper limb gross and fine motor skills, trunk stability and stability, and sit to stand stability.
This clinical study aims to identify MS related beneficial plasticity and by contrast maladaptive reorganization in combination with elements of daily functional status as a response to a cognitive training program
Through this study, a group composed of multiple sclerosis patients will be compared to a healthy volunteers group to determine if the positive emotions recognitions is preserved in the first group.
The study aims at identifying the type of B and CD4 T cell subsets with pathogenic properties in the different clinical forms of multiple sclerosis. This research might open new therapeutic approaches for the treatment of multiple sclerosis particularly progressive MS.
The measurement of the facial deformation according to the body posture will be conducted by 3D scanning for each posture after marking the landmarks on the face. A 3D scan of the face will be conducted for 1 minute in a static state for the sitting posture to be used as a reference, the supine posture to gaze at the ceiling while lying down correctly, and the lateral posture to the side with the upper body facing left. Healthy volunteer and ALS with bulbar palsy participants will be asked to keep their mouths closed gently while the 3D scan was being processed. A post-processing of the 3D face scan data will be conducted to analyze facial deformation by the body postures. A facial deformation will be analyzed by measuring the amount of change in position for each reference point after aligning and rotating the facial data on the same basis. The relative ratio of the amount of position change to the size of the face will be analyzed. The present study will analyze the effect of the body posture on the position changes of the landmarks.
The term gut microbiota describes the entire intestinal microbial communities. Studies have established the important role played by the gut microbiome in modulating vital functions of the healthy host. The physiological effects of the microbiota for the host are, for the most part, beneficial. In several pathologies, an imbalance in the composition of the microbiota has been demonstrated. Systemic sclerosis is an autoimmune, disorder of the connective tissue, characterized by vascular lesions, immunological abnormalities, and fibrosis of skin and internal organs As in many inflammatory diseases, there are painful digestive manifestations in systemic scleroderma that affect up to 90% of patients. The exact pathophysiology of the digestive involvement in systemic sclerosis is uncertain. The digestive manifestations of systemic sclerosis are frequent and can affect the entire digestive system. However, there are few studies of the intestinal microbiota in this disease, which seems to be part of the same continuum of diseases with abnormalities of innate immunity. By analogy with chronic inflammatory bowel diseases, particularly Crohn's disease, we have raised the question of the existence of dysbiosis during scleroderma which could lead to episodes of acute, severe and recurrent inflammation of the peritoneum under the influence of triggering factors. The long-term prospects would be to look for ways to prevent attacks or to treat them more rapidly and effectively by using therapeutic targets in the intestinal microbiota. The study population will be seen in the usual care setting, identically to all patients with systemic sclerosis treated in the department. In case of an inflammatory disease outbreak, and depending on its severity, the patient will be seen again in consultation or hospitalized. Appropriate complementary examinations (biology, imaging, endoscopy) will be carried out and the treatment adapted.
The purpose of this study is to determine whether itacitinib is safe and effective in the treatment of systemic sclerosis in adults.
This study will compare ofatumumab vs. European approved platform first line self-administered disease modifying therapy (DMT) in newly diagnosed MS patients