Active clinical trials for "Paresis"

Ventilator-induced diaphragmatic dysfunction is a common issue in critically ill patients. Muscle stimulation has shown to have beneficial effects in muscle groups on the extremities. A non-invasive way to stimulate the diaphragm would be the electromagnetic stimulation but it is currently unclear if that is feasible. In this proof-of-concept trial the primary aim is to show that it is possible to induce a diaphragmatic contraction in critically ill ICU patients via an external electromagnetic stimulation of the phrenic nerve, leading to an inspiration (i) with a sufficient tidal volume (3-6 ml/kg ideal body weight) and (ii) with verifiable muscular diaphragmatic contraction through ultrasound imaging.

Approximately 20% of stroke survivors have difficulties to dorsiflex the ankle and clear the ground during walking. This impairment, termed as "foot drop", is caused by an association of weak dorsiflexors and increased spasticity and stiffness of the plantar-flexors. As a consequence, walking performances are reduced and energy cost of walking is deteriorated. This may increase performance fatigability, as the locomotion will be realized at a higher percentage of the subjects' capacities. In order to overcome these issues, different treatments are proposed. One of the most conventional solutions are the use of ankle foot orthosis (AFO) and it is the most commonly prescribed device used to compensate for "foot drop". There is a very large choice of AFO on the market which can be proposed to patients with foot drop. The aim of this study is thus to assess the mechanical effects of using a manufactured carbon AFO in by comparison to a custom-made thermo-plastic AFO on walking capacity (distance and energy cost), fatigue and "foot drop" control throughout the gait phase in patients with hemiparetic stroke.

Stroke is the first cause of disability worldwide. The motor impairment of the hand is one of the most common sequelae in patients after stroke. Indeed, approximately 60% of patients with diagnosis of stroke suffers from hand sensorimotor impairment. In the last years, new approaches in neurorehabilitation field has been permitted to enhance hand motor recovery. Wearable devices permit to apply sensors to the patient's body for monitoring the kinematic and dynamic characteristics of patient's motion. Moreover, wearable sensors combined with electrodes detecting muscle activation (i.e. surface electromyography - sEMG) permit to provide biofeedback to the patient to improve motor recovery.

This is a randomized, double-blind, placebo-controlled, multicenter Phase II study to evaluate the safety, efficacy, and pharmacokinetics of ARGX-113 for the treatment of autoimmune Myasthenia Gravis (MG) with generalized muscle weakness.

The two cerebral hemispheres find themselves in a state of balanced mutual inhibition. A stroke with involvement of motor function leads to a reduced excitability in affected hemisphere M1 and to an increased excitability of contralateral M1. Stroke therefore might impair interhemispheric balance, leading to a decreased inhibition of contralesional hemisphere by ipsilesional hemisphere and, in turn, to an increased inhibition of ipsilesional hemisphere by contralesional hemisphere. Permanence of healthy hemisphere hyperactivation in chronic phase after stroke is usually index of little functional recovery and is correlated with a greater ipsilateral structural damage. Robot-mediated physical therapy is an innovative rehabilitation technique that is effective in stroke patients. In this study, the investigators will add a non-invasive brain stimulation protocol with Transcranial stimulation with direct current (tDCS) to the robotic treatment in chronic stroke patients. tDCS is a non-invasive brain stimulation technique that is able to modulate cortical excitability. The hypothesis is that dual t-DCS (ipsilesional excitation and concomitant contralesional inhibition) could restore interhemispheric balance improving the benefits of robotic therapy with Armeo Power®.

This study will compare the effectiveness of different polarities of transcranial direct current stimulation paired with intensive motor training in recovery of upper extremity function in individuals with severe post-stroke hemiparesis. The hypothesis is that more severely impaired individuals will derive greater benefit from anodal stimulation of the ipsilesional hemisphere or cathodal stimulation of the contralesional hemisphere than dual stimulation (anodal applied to the ipsilesional hemisphere and cathodal applied to the contralesional hemisphere.)

The purpose of this single-subject, concurrent mixed methods study is to investigate the relationship between the effect of the CIMT protocol on gait and mobility and participants' and caregivers' expectations and perceptions regarding the treatment. The goal of the quantitative strand is to assess changes in quality of movement and functional use of the paretic lower limb after the treatment and investigate the participants' expectations in regards the intervention using the Participant Opinion Survey (POS). The qualitative strand (participant interviews) will determine perspectives of caregiver and participant perspectives regarding protocol acceptability. Both quantitative and qualitative data will be collected and analyzed concurrently, through triangulation and complementarity rationales; both data will be equally prioritized.

A double blind randomised placebo controlled parallel trial of the effect of fosinopril, an angiotensin converting enzyme inhibitor, on the quadriceps muscle in 80 COPD patients who have quadriceps weakness. Patients will have a baseline assessment including measures of quadriceps strength and endurance and a quadriceps biopsy. Patients with weakness will be randomised to ACE inhibitor or placebo and re-assessed after three months of treatment. The investigators aim to show that ACE-inhibition will alter the IGF-1/AKT/FoXO/atrogene pathways involved in muscle wasting in COPD.

The aim of this study was to investigate the effects of gait training on ground level, combining BWS and FES in people following chronic stroke.

The purpose of this study is to determine if tetraplegic individuals with incomplete spinal cord injury (SCI) who remain unable to move their arms normally 1 year after their SCIs are able to sense and move the affected arm(s) better after 10-13 weeks of treatment with a new robotic therapy device. The hypothesis is that using the AMES device on the arm(s) of chronic tetraplegic subjects with incomplete SCI will result in improved strength, sensation, and functional movement in treated limb(s).