Active clinical trials for "Paraplegia"

Will the use of sensory substitution by lingual electric stimulation improve in a suitable way, for paraplegic subject, the spatial distribution of pressure applied at the seat/skin interface in order to prevent the formation of pressure ulcer? We will try to demonstrate that paraplegic subject move in an appropriate matter, in term of pressure, after a movement way advised by periodical electric stimuli on the tongue.

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.

It is well appreciated that an extreme sedentary lifestyle from paralysis, contributes to many secondary medical problems such as diabetes and insulin resistance, obesity, constipation, poor blood pressure regulation, cardiovascular disease, reduced quality of life, and more. The ReWalk-I exoskeleton walking device permits investigation of the potential benefits of frequent upright posture and walking on many of the secondary consequences of spinal cord injury. The researchers are investigating the ability of persons with paraplegia to learn to stand and walk with the ReWalk-I and the effects of being upright and walking on several of these secondary medical consequences of spinal cord injury.

The study is a prospective, open, bicentric and observational study. It is conducted to assess the safety and performance of the Atalante exoskeleton system with patients with lower limb paralysis. The principal objective is to assess the performance of the Atalante system in performing ambulatory functions with motor complete SCI patients characterized by the success rate in performing a 10mWT at the last session of training with the Atalante system.

The loss of standing and walking capabilities in a paraplegic person is most often the result of damage to the spinal cord, either traumatic (accidental) or pathological and has both a somatic and a psychological impact on the quality of life, the risk of depression, and the difficulty of socio-professional reintegration in a society that is not adapted to people with disabilities. A motorized mechanical exoskeleton is an external device intended to compensate for a muscular or neurological deficiency enabling paraplegics to stand and walk again. The Atalante exoskeleton, designed by Wandercraft company allows patients to stand upright and walk without the aid of crutches. This early study was the first clinical investigation of the Atalante exoskeleton performed early in the development. It was used to evaluate the device design concept with respect to initial clinical safety and device functionality and guided further device modifications.

This single-centre study was carried out in collaboration with the Cardiovascular Research Laboratory of Harvard University (Boston, USA). This preliminary study does not include a control group. The aim of this study was to investigate the effect of a hybrid reconditioning programme (electrostimulation of the lower limb muscles associated with voluntary strengthening of the upper limbs) on a specially developed rowing machine in patients presenting stabilized paraplegia of a traumatic origin. This study will bear on the increase in maximal aerobic capacity (VO2max) between the start and end of the 9-month reconditioning programme.

This study evaluates the effects of ten hours C-mill training on gait adaptability in participants with hereditary spastic paraplegia (HSP). Half of the participants start with five weeks of C-mill training (ten 1-hour sessions). The other participants are placed on a waiting list, which is followed by the same five weeks of C-mill training (ten 1-hour sessions). It is hypothesized that ten hours of context specific C-mill training is effective in improving gait adaptability in participants with pure HSP.

Persons with chronic paraplegia at an increased risk of developing cardiovascular disease and type-2 diabetes compared to the able-bodied population. There is mounting evidence from the able-bodied literature that high-intensity interval training (HIIT) is more effective than moderate-intensity continuous training (MICT) at improving markers of cardiometabolic health. Before we can understand the long-term training effects of HIIT in this population, it is important to compare the acute metabolic responses to a typical mixed-macronutrient meal following both exercise modalities. This study is recruiting adults (aged 18-65 years) with paraplegia (T2 or below) who sustained their spinal cord injury more than one-year ago. Participants will need to attend the laboratory at the University of Bath on four separate occasions, once for preliminary testing, and three times for study trials.

ReWalk suit developed by Argo Medical Technologies is designed to enable people with lower limb disabilities to carry out routine ambulatory functions (stand, walk etc.); it can be used by people with disabilities such as spinal cord injury, brain injury, stroke, multiple sclerosis, cerebral palsy and other pathologies that produce severe walking impairments.

The ReWalk enables people with lower limb disabilities to carry out routine ambulatory functions (stand, walk, climb stairs etc.). It can be used by people with disabilities such as spinal cord injury, brain injury, stroke, multiple sclerosis, cerebral palsy and other severe walking impairments. The device promises to restore the dignity of disabled persons, enabling them to work and improve their general health and quality of life, as well as significantly reduce medical and other related expenses.