View clinical trials related to Paresis.
Filter by:The randomized study (in Phase II of the U44) compares the efficacy and durability of 9 weeks (18 sessions) of robot-assisted physical therapy (PTR) versus physical therapy (PT) alone on foot drop as assessed by gait biomechanics (ankle angle at initial contact, peak swing ankle angle, number of heel-first strikes - % total steps, gait velocity) and blinded clinician assessment (dorsiflexion active range of motion, ankle muscle strength, assistive device needs).
Texas Biomedical Device Center (TxBDC) has developed an innovative strategy to enhance recovery of motor and sensory function after neurological injury termed targeted plasticity therapy (TPT). This technique uses brief pulses of vagus nerve stimulation to engage pro-plasticity neuromodulatory circuits during rehabilitation exercises. Preclinical findings demonstrate that VNS paired with rehabilitative training enhances recovery in multiple models of neurological injury, including stroke, spinal cord injury, intracerebral hemorrhage, and traumatic brain injury. Recovery is associated with neural plasticity in spared motor networks in the brain and spinal cord. Moreover, two initial studies and a recently completed Phase 3 clinical trial using a commercially available device demonstrates that paired VNS with rehabilitation is safe and improves motor recovery after stroke. The purpose of this study is to extend these findings and evaluate whether VNS delivered with the new device paired with rehabilitation represents a safe and feasible strategy to improve recovery of motor and sensory function in participants with stroke.
Stroke is the leading cause of severe acquired disabilities in adults. It can affect sensory and motor functions which are closely entangled. Among them, upper limb function is often strongly impaired. In this study the investigators are interested in the eventuality to improve motor recovery by the mean of stimulating the proprioception. Proprioception can be stimulated by tendinous vibrations in order to act on the neuromuscular system through the vibratory tonic reflex and by movement illusion. Stimulation by tendinous vibrations, applied to the musculotendinous endings, has been already proposed in post stroke rehabilitation, but only at late stages. Thus the aim of our study is to observe the effects of repeated tendon vibrations, applied in the early post stroke phase, the effect being measured on the excitability of the motor cortex by the Motor Evoked Potentials and on the motor recovery (motor control and activities).
This study is designed to further develop and test the hardware and software components of the MyHand device based on user feedback and results from our pilot study. The goal is to refine the device so that is more effective and easier for stroke patients to use to increase their hand function.
In the present study, the severity of recurrent laryngeal nerve injury (RLNI) and hypocalcemia (H) will be followed-up and the probable interrelation between them will be proposed considering the clinical situation of patients, e.g. improvement in hypocalcemia also make a positive effect on voice? (any objective sign? Ca? PTH?), return of voice is parallel with the improvement in hypocalcemia? Postoperative calcium (Ca), parathyroid hormone (PTH), regular vocal cord evaluations by ear-nose-throat (ENT) exams, deterioration-stability-improvement of clinical symptoms regarding both Ca metabolism and vocal cord function will be noted at regular intervals (postoperative day 1-3-first, weekly control/first month, monthly/first 6-month, 3-monthly/6-12 months) at outpatient controls. Serum Ca, PTH, ENT evaluation of vocal cords-noted.
The aim of our study is to investigate the effectiveness of two exercise programs supervised by a physiotherapist, performed in the hospital or at their home via electronic connection in a group of LGMD and SMA patients. One exercise session will consist of breathing, posture, dynamic core stabilization, upper and lower extremity strengthening exercises. The basic exercises from each group will be performed as 1 set of 5 repetitions at the beginning and will be gradually increased according to the tolerability of the patient. Fourteen subjects will be enrolled this randomized controlled study. Demographic characteristics, Vignos scale, Brooke scale, Barthel index, upper extremity functional index, Nottingham Health profile, short form-36, 6 minute walk test and muscle thicknesses measured by ultrasound of certain muscles will be recorded.
Texas Biomedical Device Center at UT Dallas has developed an innovative strategy to enhance recovery of motor and sensory function after neurological injury termed targeted plasticity therapy (TPT). This technique uses brief pulses of vagus nerve stimulation to engage pro-plasticity neuromodulatory circuits during rehabilitation exercises. Recovery is associated with neural plasticity in spared motor networks in the brain and spinal cord. Moreover, an early feasibility study and an independent, double-blind, placebo-controlled study in chronic stroke participants indicate that VNS is safe in participants with upper limb deficits, and yields a clinically-significant three-fold increase in neural connections during rehabilitation exercises. Given the track record of safety and potential for VNS to enhance recovery of upper limb motor function in spinal cord injured individuals, the purpose of this double blind randomized placebo controlled optional open-label extension study is to assess the safety of using a new device to deliver vagus nerve stimulation to reduce symptom severity in participants with SCI. Additionally, the study will assess the prospective benefit of the system and garner an initial estimate of efficacy for a subsequent trial. Participants may undergo additional sessions of training with VNS.
Children with cerebral palsy hemiplegia present a restriction in the daily activities due to the limitation in the active movement of the affected upper extremity. The mirror therapy (MT) in children with hemiparesis produces an improvement in the quality of movement and in the perception of the affected upper extremity. The action-observation therapy (AOT) favors the motor behaviour of the affected upper extremity through the observation of sequences of systematic activities and their posterior execution. It also produces an increase in the excitability of the corticospinal tract, originating muscular pattern contraction similar to the observed ones and favoring the motor activity. The combination of both therapies might improve the quality of movement of the upper extremity and provide a major cortical activation and increase the spontaneous use on having created the only protocol of intervention which includes the benefits of both interventions. The principal aim of this study is to analyze the influence of the quality of movement in the spontaneous use of the upper extremity affected in children with hemiparesis as well as the improvement of both variables across MTAO. Another specific aim will be to determine if "the non-use" is determined by the quality of the movement of the segment, if the MTAO reduces "the non-use" of this extremity as well as to obtain a protocol of intervention that increases the quality of movement and the spontaneous long-term use. A randomized controlled trial will be carry out in children with hemiparesia between 6 and 12 years, with a spontaneous use of the hand according to the scale HOUSE, a level Manual Ability Classification System (MASC) I-III and a good cooperation and cognition. Those with a severe spasticity, previous surgery of the upper extremity and the use of botox will be excluded. The children will be divided in two groups. The experimental group will receive for 20 days a daily therapy of 15 minutes at home of MT and 45 of AOT, whereas the control group will receive 60 minutes of AOT. Four measurements will be obtained: basal situation, at the end of the treatment and measures of follow-up to 3 and 6 months after the end of the treatment. Despite the sociodemographic variables, measures of the quality of the movement, the spontaneous use of the upper extremity, the questionnaire CHEQ and the AHA scale.
The instrumental evaluation of standing postural control by posturographic analysis supplements the clinical evaluation and, as such, is recommended by the French National Authority for Health (HAS 2007). The quantitative data obtained after a standardized postural examination appear relevant for the longitudinal follow-up of neuromuscular patients and hemiparetic patients. Neuro muscular (NM) diseases are progressive, these instrumental evaluations can highlight a deterioration or stabilization of postural control possibly not observable with the scores on clinical scales. The K-Force Plates, recently developed appear to be an interesting alternative to the stabilometry platforms currently used. Static and dynamic conditions in upright position are tested. Moreover, posturologic, kinematics data and clinical scores are correlated to increase understanding of strategies during postural control tasks in patients with stroke and in patients with NM disorders.
This is a randomized control trial to determine if there is a measurable change in voluntary quadriceps activation, RTD, pain, and function before and after a single session of manual physical therapy. The researchers will utilize a sample of convenience with consecutive sampling at the Brooke Army Medical Center physical therapy clinic for patients referred for knee osteoarthritis. As is standard of care, patients will be provided a medical intake form and a clinical outcome measure commensurate with their primary anatomic region for which they are seeking physical therapy (i.e.: Lower Extremity Functional Scale for hip, knee, or ankle pain). If patients choose to partake in the study, they will complete the consent form and the initial physical therapy evaluation will be conducted. They will then be provided an appointment for data collection at the Army-Baylor Center for Rehabilitation Research biomechanics lab at the Army Medical Department Center and School. The treatment group will receive one 30-minute session of orthopedic manual physical therapy targeting the knee joint and soft tissues with complementary exercises targeted at their impairment. The control group will receive a 30-minute class on knee OA diagnosis, prognosis, various treatment options, and will conclude with a question and answer with the researcher. Both groups will receive their intervention from a board-certified physical therapist in the Army-Baylor Orthopedic Manual Therapy Fellowship program. At the conclusion of formal testing, the patient will be provided standard physical therapy care as deemed appropriate by their evaluating physical therapist. Thus, all subjects, regardless of their assigned group, will receive the same standard of care for their knee pain.