Proprioceptive Stimulation With Manual Bilateral Rhythmic Exercise in Post-stroke Patients
StrokeHemiparesisThe purpose of this study is to evaluate the effect of the repetitive proprioceptive bilateral stimulation for the early recovery of the voluntary muscle contraction in stroke patients.
Investigation of Neural Stem Cells in Ischemic Stroke
Ischemic StrokeChronic Stroke2 moreA study of stereotactic, intracerebral injection of CTX0E03 neural stem cells into patients with moderate to moderately severe disability as a result of an ischemic stroke.
Evaluating Muscle Weakness Improvement With Lorcaserin in ICU
Muscle WeaknessSepsisICU acquired muscle weakness is a significant problem in patients recovering from critical illness. This trial will evaluate the safety and efficacy of a drug in improving muscle weakness in critically ill patients.
FAME: Functional Assessment of a Myoelectric Orthosis Hand Orthoses
ParesisStrokeThe primary study objective is to compare post-stroke upper extremity (UE) movement while wearing a brace called the MyoPro 2 Motion G versus UE movement while wearing a resting splint and no device in stroke survivors with moderate UE dysfunction. During the study, subjects will undergo general training in the operation of the EMG-controlled orthosis and the comparison orthosis, and then guided through a series of standard clinical outcome measures. These outcome measures will allow the researchers to directly compare the relative benefit of the MyoPro 2 Motion G with a resting hand splint and no device in reducing UE impairment and increasing UE dexterity and functional task performance.
Strategies for Recovery of Dexterity Post Stroke
Stroke With HemiparesisMotor learning can be affected by the sensory difficulties that may be experienced as a result of a stroke. This study will help us better understand what kinds of sensory information can help with the re-learning of grasping with the affected hand despite the sensory difficulties produced by the stroke.
Repetitive TMS and Occupational Therapy in Children and Young Adults With Chronic Hemiparesis
Pediatric StrokeCerebral Palsy1 moreThe purpose of this study is to determine whether Repetitive Transcranial Magnetic Stimulation (rTMS) can augment occupational therapy in improving motor function in children (10 years of age or older) and young adults (< 21 years of age) with chronic hemiparesis from either stroke or cerebral palsy.
Upper Limb Treatment With "Gloreha Aria" in the Hemiplegic Patients
Hemiplegia and/or Hemiparesis Following StrokeUpper Extremity InjuryStroke is one of the leading causes of death and disability and has been described as a worldwide epidemic (1). Stroke survivors are affected by impairments and limitations of cognitive, language, perceptual, sensory, and motor functions. After a stroke, patients can improve spontaneously within the first 3 months (2) and then more slowly in the following year. The first day, decreased oedema and partial reperfusion of the ischemic penumbra may possibly explain these phenomena, but the improvement of neurological deficit in the following weeks suggests plasticity phenomena and brain cortical reorganization (3). While most recovery is thought to be made in the first few weeks after stroke, patients may make improvements on functional tasks many months after having a stroke (4). Restoring arm and hand skill after a stroke remains challenging, even though stroke rehabilitation programs have proven partial efficacy Repetitive task training has been shown to be effective in some aspects of rehabilitation, such as improving walking distance and speed and improving upper limb function (5). In this project, the investigators will use "Gloreha ARIA" (7) a new sensor-based therapy device designed for motor recovery of impaired upper limb Gloreha Aria offers specific programs that help patients to move arm, wrist and fingers. Therapists can customize therapy by focusing on a specific motor task.
Low-load Blood Flow Restriction Training in COPD
COPDMuscle WeaknessPeripheral muscle weakness is a predominant problem in patients with COPD and treated using exercise training in pulmonary rehabilitation. Despite pulmonary rehabilitation being an effective intervention, muscle strength impairment is a persisting problem in COPD patients. Patients have problems to tolerate the high training loads, which are necessary to develop strength. Low-load blood flow restriction training (LL-BFRT) might therefore be an option to enhance muscular response of patients with COPD to strength training. Up to now, no studies investigating LL-BFRT in respiratory diseases are available. The primary outcome of this randomized pilot study is knee extensor muscle strength. Secondary, the study will evaluate if LL-BFRT is well tolerated and feasible in COPD patients attending outpatient pulmonary rehabilitation.
Efficacy of a Combined Transcranial Direct Current Stimulation and Virtual Reality Intervention...
StrokeHemiparesis2 moreRehabilitation options for stroke survivors who present severe hemiparesis in chronic stages are limited and may end in compensation techniques that involve the use of the less affected arm to achieve some degree of functional independence. Transcranial direct current stimulation (tDCS) is a non-invasive technique that has been used after stroke to promote excitability of the surviving neural architecture in order to support functional recovery. Interestingly, cortical excitability has been reported to increase when tDCS is combined with virtual reality. This synergetic effect could explain the promising results achieved by preliminary experimental interventions that combined both approaches on upper limb rehabilitation after stroke. The objective of this study is to explore the use of these interventions in subjects with severe hemiparesis and to determine its efficacy in comparison to conventional physical therapy
NIBS With mCIMT for Motor and Functional Upper Limb Recovery in Stroke Patients.
StrokeUpper Extremity Paresis2 moreStroke is one of the leading causes of serious long-term impairment. According to the estimates, 12,500 people suffer a new or recurrent ischemic stroke in Chile annually, which shows the magnitude of the problem. Motor impairment of the upper limb (UL) stands out as the principal sequel after a CVA (50% of the patients experience it), and the Constraint-Induced Movement Therapy (CIMT) is the rehabilitation approach that shows more scientific evidence today. Even though patients reach certain recuperation levels through this approach, results are still insufficient since 50-80% of the patients continue having upper limb motor impairment after completing standard rehabilitation. Because of this, it is pertinent to conduct research to explore new rehabilitation strategies to reduce the impairment indexes and to provide information for decision making based on evidence. Recent studies on functional neuroimaging propose that there is an abnormal balance in the motor cortex excitability after stroke - relative under-excitability in the affected hemisphere and over-excitability in the unaffected hemisphere (with the consequent inhibitory influence on ipsilesional regions) in stroke patient with moderate motor impairment. This imbalance in the hemispheres function would limit the possibilities of a greater recovery. Then, in order to reestablish brain balance, the investigators proposed that the early introduction of noninvasive techniques of brain stimulation, such as tDCS, to the motor rehabilitation training could promote improvement of upper limb function in patients with stroke. However, we lack studies that confirm the benefits of using these techniques, define the most appropriate protocols, and determine what patients and under which evolving stages would be the best candidates for treatment. This study aims to "compare the effectiveness of seven days of bi-hemispheric tDCS, both active and sham, combined with modified CIMT (mCIMT) in the motor and functional recovery of the hemiparetic upper limb in hospitalized patients with subacute unihemispheric stroke at Hospital Clínico de la Universidad de Chile and Hospital San José". This comparison responds to the hypothesis that patients who receive bi-hemispheric and active tDCS combined with mCIMT (experimental group) get at least 30% more recovery of the paretic upper limb compared to the control group who receive sham bi-hemispheric tDCS plus mCIMT after a protocol of seven days treatment.