View clinical trials related to Rehabilitation.
Filter by:The primary aim of this study is to evaluate the effect of physical rehabilitation performed in intensive care unit on the range of joint motions and muscle strength of survivors following discharge from intensive care unit in patients with COVID-19. Secondary outcome is to assess the duration of mechanical ventilation, length of stay in intensive care unit and in hospital, and mortality rates during intensive care unit stay and health related quality of life following discharge in survivors. Until April 14 patients were provided all the intensive care managements except for rehabilitation and patients discharged before this time constituted the 'non-rehabilitation' group (n=17). Patients discharged after April 14 were provided rehabilitation in addition to usual intensive care unit care and constituted the study 'rehabilitation' group (n=18). Passive range of motion exercises to each joint and neuromuscular electrical stimulation to bilateral quadriceps and tibialis anterior muscles were applied 6 days/week in the 'rehabilitation' group during intensive care unit stay.
This study aimed to investigate the effects of lifestyle redesign program plus treatment as usual versus treatment as usual on cognition, psychiatric symptoms, quality of life, and occupational engagement for schizophrenia.
Feasibility trial investigating robotic assisted early mobilization vs. early mobilization in critically ill patients.
This study aims to examine the effect of external, internal and no attention focus walking training during gait rehabilitation on real-time conscious motor processing (reinvestment), balance, walking ability and fear of falling by older adults at risk of falling in Hong Kong. One-hundred and eight older adults will be recruited from elderly community centers in Hong Kong. Participants will be randomly assigned into 3 groups (i.e., No Attention Focus Walking Group (NAFWG; active control group, n=36), an External Attention Focus Walking Group (EAFWG, n = 36) or an Internal Attention Focus Walking Group (IAFWG, n = 36)). Participants in different groups will have training sessions (about 45 minutes each) three times per week for 4 weeks in a group of 6 participants. A total of 12 sessions will be completed by each participant. All training sessions will be conducted by experienced registered physiotherapists in Hong Kong and a research assistant with experience in exercise training for older adults. In each training session, all groups will have warm-up (5 minutes), balance training (5 minutes), body transport training (5 minutes), body transport with hand manipulation training (5 minutes), walking training with various levels of difficulties in a 40-meter walkway with different instructions in different walking groups (20 minutes) and cool down (5 minutes). For the walking training (20 minutes), all participants will be invited to conduct walking training on a walking field with an area of 25 meter square and a total walking distance of about 40 meters for each walking trial from cone 1 to 9. Two screens that connected with a laptop computer will be positioned 1 meter beside the walking field. Both screens will be projected different digits from 0 to 9 randomly in the speed of 2 seconds per digit. Participants in the NAFWG, EAFWG, and IAFWG will receive different instructions during walking training. Each participant will complete assessment sessions (total 3 assessment sessions) before training at baseline (T0), just after completion of all training sessions (T1) and 6 months after completion of all training sessions (T2). In the baseline assessment (T0), a structural questionnaire will be used to ask for demographics, medical history, detailed history of fall incident, social history and social economic status of all participants. A battery of assessments will be conducted to assess physical and cognitive abilities of the participants in all assessment sessions (T0, T1, & T2). Walking ability will be assessed by the 10 meters comfortable and fast walking speed (Bohannon, 1997). Functional balance and gait assessment will be done by the Tinetti Balance Assessment Tool (Tinetti, 1986), the Berg Balance Scale (BBS) (Berg et al., 1989) and the Timed 'Up & Go' Tests (TU&G) (Podsiadlo & Richardson, 1991). Cognitive function will be evaluated by the Chinese version Mini-Mental State Examination (MMSE-C) (Folstein et al., 1975; Chiu et al., 1994). The Chinese version of the Fall Efficacy Scale International (FES-I (Ch)) (Kwan, Tsang, Close & Lord, 2013) will be completed to assess the fear of falling. The Chinese version Movement Specific Reinvestment Scale (MSRS-C) (Masters et al., 2005; Wong et al., 2015a; Wong et al., 2015b) will be administered to examine the conscious motor processing propensity (i.e., movement specific reinvestment). The alpha2 EEG coherence between T3 (verbal-analytical region of the brain) and the Fz (motor planning region of the brain) (i.e., T3-Fz EEG coherence) of all participants when walking at the 6-meter level-ground walkway (three walking trials) will be determined to identify the real-time conscious motor processing propensity (Zhu et al., 2011; Ellmers et al., 2016; Chu & Wong, 2019). All participants will be equipped with EEG electrodes before the start of the three walking trials. EEG activity will be received using a wireless EEG device (Brainquiry PET 4.0, Brainquiry, The Netherlands) and will be recorded using the real-time biophysical data acquisition software (BioExplorer 1.5, CyberEvolution, US). Previous research has demonstrated that alpha2 (10-12Hz) T3-Fz EEG coherence is sensitive at detecting within-subject changes in real-time conscious motor processing propensity during a postural sway task (Ellmers et al., 2016). T4-Fz EEG coherence will be utilized to identify whether the changes in the alpha2 T3-Fz EEG coherence will be due to global activation of the brain. The EEG electrodes are non-invasive and will not be used in any diagnostic purpose. All participants will be asked to record their number of falls prospectively at the time between T1 (completion of all training sessions) and T2 (6 months after completion of all training sessions) using a structural calendar. The number of falls within the 6-month follow-up period will then be collected.
Total knee replacements are a common orthopaedic procedure undertaken at Blackpool Victoria Hospital. Following surgery patients are routinely seen by Physiotherapists who prescribe exercises to improve the range of movement and strength of the knee joint, thus aiding recovery. One of the key exercises prescribed involves the bending and straightening of the knee to improve range of movement. At this early stage of rehabilitation , due to weakness in the knee joint, reducing any resistance to this motion is beneficial. The Orthoglide device is designed to aid the patient in performing this movement by reducing the friction/resistance caused by the heel sliding against the bed. Currently this is achieved using a 'slider board' and placing a rolled up piece of fabric under the patients heel. The aim of this study is to investigate whether or not issuing an Orthoglide device to patients following total knee replacements improves functional outcomes reported by the patient at 6 weeks and 12 weeks post-surgery. Participants will be assigned to either receive an Orthoglide device and standard Physiotherapy or standard Physiotherapy alone. A series of patient reported outcome measures will be taken pre-surgery, 6 weeks post surgery and 12 weeks post surgery and the results compared.
Coronavirus disease (COVID-19) is caused by the Severe Acute Respiratory Syndrome CoronaVirus 2 (SARS-CoV-2) virus. This virus was identified in December 2019 in the Chinese city of Wuhan, in the province of Hubei, where it determined a state of health emergency proclaimed by China on January 30, 2020. Since February 2020, Italy has been involved in the emergency of the COVID-19 infection, with devastating consequences for the health of the population and the economy of our country. As published by the Italian National Institute of Health, the starting date of the symptoms dates back to the end of January, the first case diagnosed dates back to 21 February 2020 while the first cases of home isolation date back to March 1st, 2020. On March 30, 2020, there were 101739 positive subjects and 11591 deaths (Civil Protection data). According to data published by the World Health Organization, most people with COVID-19 develop a flu-like form, 14% develop a severe form that requires hospitalization and oxygen therapy and 5% require an ICU admission. The emergency from Covid19 made it necessary to provide institutional social distancing conditions which resulted in rehabilitation departments being prohibited from visiting patients by family members and/or caregivers. This event, although necessary, led to the first moment of discomfort on the part of patients and family members; to overcome this reaction "technological" solutions were found, trying to give continuity to the contact between the patient and the family member through the use of video calls. Despite this, the COVID-19 emergency and the limitations resulting from social distancing likely have an impact on both patients and family members/caregivers that needs to be assessed.
The purpose of this study is to validate the usability of ArmAssist medical device, a robotic system for the rehabilitation of upper limbs in stroke patients (based on serious games). This study evaluate the usability of the system in a home environment, taking into account the ease-to-use, consistency and others; and will pretend demonstrate the feasibility of including or no, robotic therapy in home like complement of daily rehabilitation program. Finally this study investigate the acceptance from patients and therapists.
The main hypothesis of the present study is that a safer knee joint is likely to encourage post stroke patients at an early stage to rely on their hemiparetic leg and transfer their weight onto it while walking. The main purpose of the present work is to assess the feasibility of FES-induced muscular control of the hemiplegic knee joint in order to improve stance phase support symmetry recovery in individuals with post stroke hemiplegia. Functional electrical stimulation (FES) is delivered to the quadriceps and hamstrings of the paretic limb based on the real-time estimation of the knee angle and support phase.
The aim of this study was to research the effects of hippotherapy simulator in children with Cerebral Palsy. In order to evaluate its effectiveness, assessment of gross motor functions, lower extremity functions, muscle tone and spasticity, trunk control, sitting and standing balance, walking functions and functional independence were being applied.
COVID-19 has a big impact on individuals and society as a whole. Especially persons with (multiple) comorbidities such as stroke are affected. The impact of COVID-19 on stroke rehabilitation delivery and stroke patients' functioning is unclear.