View clinical trials related to Rehabilitation.
Filter by:Previous research has demonstrated balance deficits ranging from 28%-43% depending on the nature of the balance task in individuals with CP compared to controls (Kenis-Coskun et al., 2016). As balance is critical for underlying normal movement, improvements in static and dynamic balance are important goals in rehabilitation for ambulatory children with CP (Saether et al., 2013). Balance deficits are among the symptoms that having a more profound impact on motor function and quality of life inn with CP children (Lai et al., 2017). Poor balance reduces the ability to perform gait-related activities and increases the risk of falling, which, in turn, limits participation in daily activities, including sports and physical activities (Usuba et al., 2015).
In this study, the investigators aim to assess the effectiveness of the Comprehensive Intensive Rehabilitation Program After Stroke implementing the International Classification of Functioning, Disability and Health model, and to compare it with two cohorts receiving Comprehensive Intensive Rehabilitation Program After Stroke of the same length but different in physical therapy content (program implementing modern technological approach and neuroproprioceptive "facilitation and inhibition"). Moreover, control group will undergo standard care.
Stroke is of high morbidity and mortality, and surviving patients are often unable to take care of themselves because of severe motor dysfunction. The brain has plasticity, and makes adaptive changes after stroke, resulting in the reorganization and compensation of neural networks. However, the muscle tone of some patients will significantly increase during the recovery process, which affects the rehabilitation effect. Neuromodulation techniques such as repetitive transcranial magnetic stimulation (rTMS) have been widely used to promote brain network remodeling after stroke. The investigators attempted to evaluate the motor brain network characteristics of spastic patients by fNIRS, and used the most active brain regions as rTMS stimulation regions to evaluate the improvement effect of this individualized treatment on post-stroke spasticity.
Following lung transplantation (LTX), patients may exhibit respiratory and skeletal muscle weakness that will affect exercise capacity, increase dyspnea and fatigue, limit activities of daily living (ADL) and decrease quality of life. Inspiratory muscle training (IMT) has been extensively studied in a variety of non-LTX populations and research has shown that IMT improves exercise capacity, diaphragmatic thickness, and reduced dyspnea during activities of daily living and improved quality of life in patients with advanced lung disease. The aim of this randomized controlled study is to investigate the benefits of providing inspiratory muscle training via use of an inspiratory muscle trainer device in addition to standard physical therapy in the acute phase of rehabilitation following LTX. Patients targeted for enrollment will be those with any type of advanced lung disease requiring LTX with the objective of demonstrating improvements in respiratory muscle recovery, perceived dyspnea, severity of fatigue, and overall functional status following the transplant procedure.
The purpose of this study is to investigate the effects of a training program in patients that have suffered a COVID infection
As a result, will be developed: a list of criteria for functional impairment in patients after myocardial revascularization combined with low back pain; a list of criteria for disabilities in patients after myocardial revascularization combined with low back pain; method of medical rehabilitation of patients after myocardial revascularization combined with low back pain; and criteria for evaluating its effectiveness.
This feasibility study will explore the clinical effectiveness of additional upper limb therapy compared to standard care delivered to Stroke Survivors at Sussex Rehabilitation Centre (SRC). Randomization via sealed envelope will allocate treatment group to either routine care or upper limb training for self-management plus routine care. If randomized to upper limb training, a patient will undertake 10 therapy sessions with an instructor from the Action for Rehabilitation for Neurological Injury (ARNI) program during their hospital stay. The last two ARNI-led sessions will be filmed by a nurse/carer on either their own tablet/phone or an i-pad. Participants in the ARNI group will be encouraged to continue doing their personalized exercises while in hospital and continued at home. The participants in the ARNI group will also be given a task-training board to take home. This randomized controlled trial will measure outcomes of each group over six months. Each patient in the study will have upper limb physical measurements taken by a blinded Research Nurse (RN2) at baseline. Research Nurse (RN1) will gather data in a Clinical Report File from a weekly exercise diary completed by the patient or carer and well-being questionnaires. On discharge, RN2 will conduct upper limb measurements, collect completed hospital diaries and issue new ones to take4 home. RN1 will give a weekly phone call or text reminders so that patients to complete exercise diaries at home. At 6 months RN2 will do final measurements and complete patient questionnaires in an out patients clinic visit. The investigators aim to recruit 36 patients and anticipate 30(8.3%) will complete the 6 month follow-up. The study sponsor will be the University of Sussex. However, as the study is run in rehabilitation unit in an NHS hospital, University Hospitals Sussex NHS Trust will host the study.
The purpose of the study is to prove the clinical superiority of respiratory rehabilitation software "Redpill Breath" and evaluate the clinical improvement effect by 6-minute walk test of the software, compared to the manual rehabilitation management for those who need respiratory rehabilitation(COPD, Asthma, Lung Cancer, etc.)
The LOARAL 2 project concerns patients who have undergone total knee arthroplasty to treat symptomatic osteoarthritis. Patient will be divided into three groups: a control group where patients will do standard rehabilitation associated with the judgments of videos represented non-human action and two experimental groups where patients will do standard rehabilitation associated with the judgement of human point-light display. The aim of this study is to measure the benefits of attentional focus and sex correspondence in the use of point-light display for the rehabilitation of patients with a total arthroplasty of the knee.
Intensive Care Unit (ICU) patients commonly experience muscle loss at a rate of 2-3% day. Traditionally, critically ill patients have been managed in bed, however current research suggests that prolonged bedrest cause mechanical silencing of the muscles and exacerbates this muscle wasting. This ICU acquired weakness (ICUAW) leads to poor functional outcome and higher mortality. Research suggests that early out-of-bed mobilisation should occur within 48-hours of ICU admission to militate against this risk, however, this is only achieved in 30% of cases. Common barriers to mobilisation are unstable blood pressure, ventilation, sedation and fatigue. It is plausible that 48-hours is an unrealistic timeframe for mobilisation. The aim of this study is to explore the mobility practices on a given day in UK adult ICUs. The objectives are to: 1. Determine the level of mobility that is achieved by each patient on adult ICUs, on a given day in the UK. 2. Determine the typical physiological profile of patients on ICU that are both able and unable to participate in antigravity exercise 3. Determine the proportion of adult ICU admissions that achieve out of bed mobilisation in the first 48-72 hours 4. Explore clinician decision making about mobilisation This is a multi-centre cross-sectional study on one-day only. Over a 24-hour period data will be collected for all ICU patients at the participating centres. The lead physiotherapist will record the highest level of mobility achieved that day, and the physiological parameters from clinical observations. The reasons for the level of mobility achieved will be ranked in order of importance. These data are routinely collected. Data will be anonymised. Data will be analysed to determine feasibility of mobilisation at 48hours and develop a flow diagram of mobilisation decision-making.