View clinical trials related to Sclerosis.
Filter by:There is no consensus in the literature upon the neurourological diagnostic algorithm of the patients with multiple sclerosis (MS). The primary aim of the study is phenotyping the patients with MS. These phenotypes might guide Neurology and Urology specialists during diagnosis and treatment. Secondary aim of this study is to define the presence and severity of urological symptoms' and disorders', involving the patients with diagnosis of MS less than 5 years into a urological follow-up and treatment process. Our study might include 4 visits (the first visit, 3rd month, 6th month and 12th month visit). Questionnaires, uroflowmetry and bladder diary might be repeated on each visit. Filling cystometry and pressure-flow study will be performed only on the first visit. All patients will receive 6 different questionnaires which aim to define the severity and presence of lower urinary tract symptoms. Bladder diary is an online application which will represent at least 3 days of frequency, urgency, incontinence episodes and the amount of fluid intake, and urination. The phenotypes would be defined after performing the first visit diagnostic tools (all of the tools are necessary during the diagnostic algorithm of neurogenic lower urinary tract symptoms). The phenotypes will be defined as: a. no symptoms with normal urodynamics, b. Lower urinary tract symptoms with normal urodynamics, c. no symptoms with abnormal urodynamics, d.lower urinary tract symptoms with abnormal urodynamics. During a follow-up period of 1 year, changes in the bladder diaries and scores in questionnaires of these groups will be compared on each visit.
Our aim is to compare ICARS and SARA scores with face-to-face and tele-assessment methods in ataxic multiple sclerosis patients. The hypotheses on which this study is based are; H1: Tele-assessment and face-to-face assessment results of the ICARS differ in patients with ataxic MS. H2: Tele-assessment and face-to-face assessment results of SARA differ in patients with Ataxic MS.
This was a retrospective cohort study utilizing secondary data from IQVIA's open source pharmacy claims database (i.e., IQVIA LRx) selecting patients with prescription claims for ofatumumab or other DMTs of interest.
Multiple sclerosis (MS) is an inflammatory, demyelinating, neurodegenerative disease of the central nervous system of unknown etiology. The most common clinical signs and symptoms are motor dysfunction, fatigue, spasticity, impaired mobility, cognitive impairment, chronic pain, depression, decreased quality of life, and bladder and bowel dysfunction. 66% of people with MS have impaired upper extremity function. As a result of the deterioration in upper extremity function, the performance of many daily living activities affects performance. As a result of this influence, there is a decrease in the functional independence of people, quality of life, and participation in activities in the community. Exercise training represents an existing behavioral treatment approach to safely manage many functional, symptomatic, and quality-of-life outcomes in MS. Telerehabilitation has been defined as "the delivery of rehabilitation services through information and communication technologies." Telerehabilitation has proven to be useful for people with MS by increasing physical activity and reducing fatigue. In the studies, telerehabilitation and face-to-face rehabilitation services were compared, and stated that they had similar results. At the same time, it was stated that telerehabilitation provides people with gains in terms of time and cost. In addition to all these, the researchers emphasized the benefits they received from telerehabilitation from the people's statements. Therefore, the results of this study, which will be performed on MS patients, will enable the evaluation of telerehabilitation strategies from the patient's point of view. The participants was included in the study titled 'Investigation of the Effects of the Synchronized Telerehabilitation-based Upper Extremity Training Program on Hand-arm Function, Pain, Fatigue, Quality of Life, and Participation in People With Multiple Sclerosis (ClinicalTrials.gov Identifier: NCT05073731)' will be included in this study. Questionnaires that will enable individuals to evaluate their telerehabilitation service will be administered once. Physicians and physiotherapists will make evaluations.
This study will investigate the effects of a 12-week arm ergometer exercise and balance training on upper extremity function in persons with multiple sclerosis.
KAIROS is a prospective, multicenter, non-interventional study (NIS) in Germany. Prospective, primary data will be collected via questionnaires and an electronic case report form (eCRF) over a period of one year (max. 1.5 years) of treatment. Additionally, medical history of participants will be collected including disease duration, EDSS, MRI parameters and relapses.
Multiple sclerosis (MS) is the most prevalent chronic inflammatory disease of the central nervous system (CNS), affecting more than 2 million people worldwide,1 it is a degenerative disease that selectively affects the central nervous system and represents the main cause of non-traumatic disability in young adults. Gait and balance disturbances in MS are common even in the early stages of the disease. Half of the patients report some alteration in the quality of walking within the first month after diagnosis, reaching 90% after 10 years of evolution. 4 5 In addition, it is the symptom to which patients give the most importance 6 and the one that most conditions their activity and participation. 7 The causes of gait disturbance are multifactorial and are influenced by different aspects such as muscle strength, balance, coordination, proprioception, vision, spasticity, fatigue and even cognitive aspects4. There are multiple interventions, including aerobic, resistance training, yoga, and combined exercise, that have shown significant improvements in walking endurance, regardless of outcome measures (six-minute walking test (6MWT), two-minute walking test 2MWT). 8 In recent years, evidence has been growing around rehabilitation with robotic equipment in people with multiple sclerosis (PwMS), in their study Ye et al. concluded that robotic locomotor training has limited impact on motor functions in multiple sclerosis, but improves fatigue and spasticity, is safe and well-tolerated for PwMS, and less demanding for physical therapists.10 Bowman et al. concluded that robot-assisted gait therapy (RAGT) improves balance and gait outcomes in a clinically significant way in PwMS, RAGT appears more effective compared to non-specific rehabilitation, while showing similar effects compared to non-specific rehabilitation. specific balance and gait training in studies with level 2 evidence. RAGT has several advantages in terms of patient motor assistance, training intensity, safety and the possibility of combining other therapeutic approaches and should be promoted for PwMS with disability in a multimodal rehabilitation setting as an opportunity to maximize recovery.11 In this setting, more larger-scale and better-designed studies with longer training duration and more studies evaluating satisfaction, usability, and effectiveness are needed. of RAGT.
Patient with amyotrophic lateral sclerosis (ALS) having anti-NRIP autoantibody showed titer-dependent detrimental Effects. Plasmapheresis might benefit this subgroup of patients via removal of anti-NRIP autoantibody
The study is a 4-week double-blind, randomized, controlled, parallel design investigation to investigate the impact of intermittent negative pressure on spasticity and pain in people with multiple sclerosis (pwMS). The investigational device (FlowOx2.0™) is composed of a Pressure Chamber and a Control Unit (and disposable parts). All subjects will receive the same pressure chamber but be randomized to either a Control Unit that generates intermittent negative pressure (INP) of - (minus) 40 mmHg or a Control Unit that generates INP of - 10 mmHg. FlowOx2.0™ generating -40 mmHg is the investigational device, and FlowOx2.0™ generating -10 mmHg, is the comparator device. After the initial 4-week double-blind period, all participants will be offered the -40mmHg control unit to be used during a 6-months optional extension part.
Endurance training is a cornerstone of rehabilitation in Multiple Sclerosis (MS) due to its beneficial effects on multiple MS-related symptoms, such as health-related quality of life, aerobic capacity (VO2peak), functional mobility, gait, depressive symptoms, and fatigue. Persons with progressive phenotypes of MS, namely primary progressive MS (PPMS) and secondary progressive (SPMS), represent a minor proportion of the total MS population, thus having been underrepresented in previous studies. The generalizability of existing evidence may be compromised by differences in symptom expression between MS phenotypes, with a dominance of motor symptoms (i.e., paraspasticity and/or paraparesis) in PPMS and SPMS. Adding up to this, clinical experiences of neurologists and sports scientists reveal that the effects of endurance exercise are characterized by a distinct time course, firstly inducing a minor and transient deterioration of motor symptoms that is followed by motor symptom alleviation beyond baseline level. This phenomenon was mainly related to the performance of High-Intensity Interval training (HIIT), but not to moderate-intensity continuous training (MCT). Therefore, this pilot study aims to systematically investigate the time course of acute motor effects on spasticity, functional mobility, gait, and dexterity in persons with PPMS and SPMS following two different endurance training protocols, that are HIIT and MCT.