Multiple Sclerosis Clinical Trial
Official title:
Technological Balance and Gait Rehabilitation in Patients With Multiple Sclerosis: Effects on Functional, Motor and Cognitive Outcomes (ROAR-MS).
Multiple sclerosis (MS) is a chronic, inflammatory and neurodegenerative disease of the central nervous system that often results in motor and/or cognitive impairment. Epidemiologically, the onset occurs between the ages of 20 and 40, with a peak around the age of 30. MS is an extremely heterogeneous disease in terms of signs and symptoms, both in terms of the neurological systems involved and the degree of impairment and severity. The most common symptoms include, among others, difficulty walking and lack of balance. The lack of stability and coordination reduces independence and mobility, predisposing people with MS to accidental falls and compromising mobility in daily life. Another symptom that characterises MS is cognitive impairment, which mainly alters information processing speed and short- and long-term memory. MS-related cognitive impairment is detectable at every stage of the disease. Very often, people with MS have co-existing cognitive and motor deficits, which add to the complexity of managing MS. In order to address this condition, a treatment strategy that combines cognitive and motor rehabilitation needs to be identified. Despite the increasing availability of effective drug therapies that may impact on balance, rehabilitation is a very important means to counteract the progression of disability and improve physical function, affecting social participation and improving quality of life. In recent years, rehabilitation makes use of various robotic devices, which are based on repeatable, intense and motivating exercises, integrated with an enriched virtual environment, capable of improving the quality of movement. In light of the literature, which mainly focuses on robotic therapy for walking, this pilot study aims to evaluate the effects of a specific robotic treatment for balance in MS patients. The primary objective of the study is the evaluation of the effects of technological rehabilitation by means of a robotic platform (Hunova® Movendo Technology srl, Genoa, IT) on static balance. The secondary objective is the evaluation of the effects of technological rehabilitation by means of a robotic platform (Hunova® Movendo Technology srl, Genoa, IT) 1. on dynamic balance and walking (assessed with clinical and instrumental scales) 2. on fatigue and cognitive performance in terms of sustained attention, dual-task cost and cognitive-motor interference; 3. on quality of life.
Twenty-four patients of both sexes will be recruited, evaluated and treated at the Multiple Sclerosis UOS of the Fondazione Policlinico Universitario Agostino Gemelli IRCCS in Rome from the date of approval of the study by the ethics committee and for the following 12 months, meeting the inclusion criteria. Patients will be divided into two groups by randomisation: one group (experimental group, HO, Hunova-Observation) will perform specific rehabilitation for balance disorder using the robotic platform Hunova® Movendo Technology srl, Genova, IT), followed by 4 weeks of observation. The other group (OH, Observation-Hunova) will instead carry out 4 weeks of observation, at the end of which they will carry out the specific treatment for the balance disorder using the robotic platform Hunova® Movendo Technology srl, Genova, IT). ;
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