View clinical trials related to Paresis.
Filter by:Neurological pathologies cause important and permanent disabilities in every day life. These pathologies can follow stoke, affecting two people per one thousand each year or cerebral palsy, affecting two births per one thousand each year. To date, the diagnosis and the rehabilitation of motor and cognitive problems has been carried out separately by different domains. For example, physiotherapists have focused on motor problems and neuropsychologists have focused on cognitive functions. However, a number of studies have demonstrated a link between motor and cognitive abilities in adults and children. The present study has three main aims: (1) to better evaluate motor and cognitive problems in brain damaged patients (all ages), (2) to understand the link between motor and cognitive abilities in patients and healthy participants and, (3) to propose new types of therapies based on the link between motor and cognitive functions.
Rationale: About 80% of stroke patients suffer motor impairments, but current therapies have limited effects on motor recovery. Therefore, investigating new potential therapeutic approaches is crucial. Transcranial Direct Current Stimulation (tDCS) is a form of non-invasive electrical stimulation where a weak current is applied through electrodes over the scalp. This stimulation is known to (1) induce changes in neuronal excitability -which can last up to one day with late LTP-like plasticity protocols in a polarity and site-specific manner, and (2) facilitate motor learning and stroke recovery. So far, several pilot studies have reported beneficial results from tDCS in both subacute and chronic stroke patients, but it's still unclear how tDCS should be repeated over multiple days to optimally enhance recovery and training effects. Using a late LTP-like plasticity protocol could increase effectiveness of standard clinical care rehabilitation sessions and thus enhance the effects of rehabilitation. Therefore, the investigators want to investigate how late LTP-like plasticity tDCS affects rehabilitation in subacute stroke patients. The outcome of this study can provide important guidelines on effective motor therapy during stroke rehabilitation. Objective: Identify the effect of late LTP-like plasticity on motor rehabilitation during the subacute phase after stroke. Study design: Double-blinded, randomized between-subjects trials. Study population: Subacute stroke patients. Main study parameters/endpoints: The primary outcome measure is the upper limb motor function during the subacute phase after stroke.
The investigators are intending to enroll Patients who are chronically treated with pyridostigmine for the treatment of any medical condition and presenting at the investigators' outpatient clinics for follow up appointment. Subjects taking pyridostigmine for the treatment of myasthenia gravis will be excluded. Both adults and children older than 12 years of age will be approached. Those subjects that agree to participate will be asked to sign an informed consent. For the participation of minors a parental (or guardian) consent and subject assent will be obtained. Those that participate will answer a few questions pertaining to their medical history and will then undergo electromyograph (CMAP) measurement with repetitive stimulation at 2 sites (ulnar nerve at the wrist and the accessory nerve in the neck). Evoked electromyogram will be recorded on a computer hard drive. Eight percent or greater decrement in the CMAP response on repetitive stimulation will be considered positive.
Motor deficits are common after stroke, being one of the major causes of disability in this population. Because of the impact that motor impairments have in the life of patients and the associated financial costs, it is a health care priority to develop effective and efficient treatments to restore motor deficits. Music-supported therapy (MST) has been recently developed to enhance the use of the affected extremity after stroke. In the present project, a new multidisciplinary approach (neurology, neuropsychology, music and cognitive neurosciences) will be undertaken in order to investigate the effectiveness of MST as a neurorehabilitation technique to restore the motor function in stroke patients. In addition, the complex pattern of reorganization of the sensorimotor system will be studied in order to provide information about the physiological mechanisms underlying the neurorehabilitation process. A randomized controlled trial is proposed to compare for first time the effectiveness of MST (at the hospital and at home) compared to conventional treatment in subacute stroke patients suffering from motor deficits. Our hypothesis is that patients will experience a large improvement in the functional use of the affected arm due to the implementation of the MST program when compared to conventional treatment. We also expect to observe improvements in cognitive functions, mood and quality of life. Besides, we hypothesize that these amelioration in motor and cognitive domains will be accompanied by neuroplastic changes in the sensorimotor cortex and corticospinal tract.
This research study will investigate the use of smart lower limb robotic exoskeleton (developed by the CSIC, Spain) in rehabilitation after stroke. It will compare robotic-assisted rehabilitation with supervised motor practice. Additionally, it will also examine the use of noninvasive scalp electroencephalography (EEG) to learn specific brain wave patterns associated with learning to walk on the powered lower limb exoskeleton. The findings will be used to understand human-robot interaction and to design smart orthotic devices that can be controlled by thought activity and assist those that have lost all or part of their walking abilities.
Check if the Mirror therapy represents an effective method in improving the motor activity of the hands of institutionalized elderly.
Quadriceps muscle strength is an important determinant of quality of recovery in elderly patients after total knee arthroplasty. We try to compare the quadriceps muscle strength change between 0.2 % ropivacaine continuous fixed femoral infusion and patient controlled femoral analgesia group.
Respiratory failure following extubation causes significant morbidity and increases mortality in teh surgical intensive care unit (SICU). However the causes of respiratory failure following extubation remain poorly understood. The investigators hypothesize that extubation failure can be predicted based on preoperative risk factors as well as ICU acquired morbidities including muscle weakness and renal failure.
Levosimendan is a relatively new drug that improves cardiac contractility in patients with heart failure. Its main mechanism of action is enhanced binding of calcium to the myocardial contractile proteins. Recent data from our lab showed that levosimendan improves contractility of human diaphragm in vitro (muscle fibers from COPD patient diaphragm) and in vivo (healthy subjects). Accordingly, levosimendan may appear of value in the treatment of disorders associated with impaired respiratory muscle function, such as mechanically ventilated patients.We hypothesize that levosimendan could improve respiratory muscle function in mechanically ventilated patients commencing a CPAP trial.
Rehabilitation after stroke improves motor functions by promoting plastic changes however, after completing standard rehabilitation, 50-60% of patients still exhibit some degree of motor impairment and require at least partial assistance in activities of day living. Therefore, the exploration of other approaches to promote recovery is compulsory. Non invasive brain stimulation and motor rehabilitation are thought to share similar mechanisms in inducing neuroplastic changes in the human cortex and an emerging field of research is focusing on the possibility of coupling both therapies in order to achieve an additive effect and improve outcome. We hypothesize that coupling bihemispheric transcranial direct current stimulation (tDCS) with simultaneous physical/occupational therapy in the subacute phase of ischemic stroke patients may improve upper limb motor recovery in humans. This is a randomized, controlled, double blind, cross-over, multicentre, clinical trial. Thirty-six ischemic stroke patients in the subacute phase will be recruited in three centers of neurorehabilitation in Switzerland. After stratification based on the Fugl-Meyer Assessment Upper Extremity according to the severity of the deficit, the patient will be randomized to receive besides standardized physical/occupational treatment according to the Impairment-Oriented Training, tDCS of themotor cortex (1.5 mA, 30 minutes) (group 1: 12 patients) or sham stimulation (without current) (group 2: 12 patients). After three weeks of treatment group 1 and 2 will cross-over and will be treated for other three weeks. Group 3 (12 patients) will receive routine physical/occupational treatment and sham tDCS for six weeks. Assessment will be performed before starting tDCS, at week 3, 6 and at 6 months. Outcome measures are the Fugl-Meyer Assessment Upper Extremity, the extended Barthel Index, the Ashworth scale, the Test of Upper Limb Apraxia (only baseline, week 6, month6), the grip strength evaluated by the Jamar Hydraulic Hand dynamometer. At baseline at week 6 and at month 6 depression will be assessed by the Hamilton depression Rating Scale.