View clinical trials related to Telerehabilitation.
Filter by:The study, titled The Effect of Physiotherapy and Nutrition Services Provided by Telerehabilitation Methods on the Physical, Nutritional and Psychological Conditions of Children with Autism and Their Families, aimed to evaluate the effects of physiotherapy and nutrition education to be given to the participants. Participants were children with autism spectrum disorder and parents of children with autism spectrum disorder. There will be surveys that researchers will ask participants to answer. Parent telerehabilitation group participants via smartphone video conferencing; Researchers involved in this project; A physiotherapist and a physiotherapist senior physiotherapy intern will send 1 session of online simultaneous exercise training to the parent telerehabilitation group participants, then an exercise video containing the exercises and brochures will be sent and the parent telerehabilitation group participants will be asked to do the exercises 3 days a week. Participants will be asked to keep an exercise diary and the status of the diaries will be monitored once a week. Additionally, the concepts of physical activity and recreational activity in autism will be explained to the participants. Again, via smartphone video conferencing, the researchers participating in this project; 3 different nutrition trainings will be given by 1 dietitian and 1 senior dietitian trainee within the scope of basic nutrition and nutrition-health information at 15-day intervals. Waist, hip and height measurements of autistic child participants will be measured with a tape measure, and their body weight will be measured with a scale. The study will last 2 months.
The goal of this quasi-experimental feasibility study is to determine if a home based exercise program, that is supported virtually by a physiotherapist, is feasible for frail adults that are waiting for cardiac surgery. The main questions it aims to answer are: - Will patients be interested in participating in a virtual home-based exercise program before surgery? - Is the prescribed program practical? Will participants complete the exercises as prescribed, 3x/week? - Are the exercise images, videos, and live, virtual sessions with the physiotherapists good enough to allow the participant to be independent with good exercise technique? - Are the 4 virtual sessions able to be done in the specified time frames (1hr initial assessment, 30 minute follow ups)? - Can the exercise program be done with out any major adverse events? - What are the physical activity behaviours of frail participants awaiting cardiac surgery? Do they improve with an exercise program? Participants will be required to: - meet with a physiotherapist virtually (Zoom or Microsoft Teams) 4 times over a 3 week period. 1. the first session will be 1 hour to complete an interview about current health and upcoming surgery, a physical assessment, followed by individual exercise demonstration and education. 2. the second and third session will be follow up sessions to review exercise technique and progress, the presence of abnormal responses, provide encouragement and to address any barriers to activity completion. 3. the fourth, final session will be at the end of week 3 and will take 30 minutes to review exercise progress, presence of abnormal responses with activity and complete a reassessment of physical function. - Complete an individualized exercise program 3x/week independently as instructed by the physiotherapist following the initial assessment. - Complete a home exercise diary to track exercises done and intensity of exercise, in addition to documenting any abnormal responses For participants who reside in Winnipeg: - Accelerometers will be delivered to the patients home to wear for: 1. 7 days prior to the initial assessment 2. 14 days, from day 8 - 21 of the initial assessment. - Accelerometer diaries will be provided for participants to complete during the days when the accelerometers are worn.
Anterior cruciate ligament (ACL) injuries are common in adolescents and its prevalence has increased over the years, especially with more adolescents engaging in physical activities and competitive sports. Standard of care for these injuries would be an ACL reconstruction (ACLR) to allow return to function and sports and reduce the risk of post-traumatic arthritis and recurrent knee injuries. Rehabilitation post-ACLR is crucial to optimise surgical outcomes and prevent re-rupture of ACL. However, good compliance to rehabilitation is often a challenge for patients and healthcare providers. Telerehabilitation for this group of patients may help to augment rehabilitation by improving patient compliance and overcome barriers to behavioural change often observed in traditional in-person physiotherapy. It can also allow remote monitoring and provide feedback to patients during exercises. In addition, it is a useful tool during pandemic when in-person visits are not possible. Currently, very few studies have evaluated the use of telerehabilitation with remote monitoring for ACLR, especially in adolescents. The use of home-based telerehabilitation post ACLR may be key to improving patient motivation and exercise compliance in adolescents. For this pilot study, the intervention group will undergo the TAR program in addition to standard care, which involves self-administered exercises in initial 12 weeks post ACLR using a mobile application. The mobile application will detect key landmarks on the body for human pose estimation. Participants will be able to perform their exercises with real-time feedback given, allowing for proper execution of the exercises. Exercise adherence, range of motion and pain scores will be tracked via the application and therapists are able to monitor via the online dashboard. The control group will undergo standard in-person physiotherapy. Primary aim of this study is to examine exercise adherence in TAR program versus standard care post ACLR in adolescents. Secondary aims of this study are to examine the effects of TAR program on knee strength, range, function, quality of life, treatment satisfaction, self-determination and number of face-to-face rehabilitation sessions required after ACLR.
The aim of this study is to investigate the efficacy of a home-based pulmonary rehabilitation program with the support of teletechnology in COVID-19 survivors. The main questions it aims to answer are: - The change of six-minute walk distance - The change of time of one-minute sit-to-stand test - The change of maximal strength of upper-limb, lower-limb and respiratory muscle - The change of quality of life Participants in the home-based pulmonary rehabilitation group will receive teletechnology-assisted consultations (either by videotelephony or telephone calls) for every 1-2 weeks during the intervention period, and participants in the usual care group will not receive teletechnology-assisted consultations during the intervention period.
The aim of this study is to determine the effect of telerehabilitation-based aerobic exercises on upper extremity functionality, cognitive status and quality of life in patients with survival breast cancer.
The goal of this clinical trial is to compare the rehabilitation by use of a smartphone-app with the usual care of physical therapy in patients, 60 years and older, who underwent a primary shoulder arthroplasty. The main questions it aims to answer are: - is the outcome of rehabilitation with the app as good as the usual care? - is the outcome for both types of shoulder arthroplasty similar? - what is the usability of the app?. Participants will - have treatment according to the group they are allocated to - fill in questionnaires at specific moments during the rehabilitation stage (0 - 3 months ) and at 1 year post-surgery
Objective: Physical therapists utilize telerehabilitation as the common term for telehealth applications. Many physiotherapists worked as telehealth providers during the coronavirus pandemic. The objective of the study will show the efficacy of Telerehabilitation-Based Physical Therapy (TBPT) on pain intensity and treatment satisfaction in patients with chronic pelvic pain. Method: This study is a prospective study of patients with chronic pelvic pain.42 participants will include the study. Patients who have any other distribution pattern of pelvic pain were equally considered for therapy. Women age between 18-50 years will be include. Their symptoms should be one of these follows such as chronic pain in pelvic region, hyperalgesia in vulva, and pain during sitting or intercourse. They will get diagnosed by a gynecologist who is a multidisciplinary team comprising and referred to a pelvic health physiotherapist. Prior to treatment patients will complete questionnaires and interview a pelvic health physiotherapist. Pain symptoms will be assessed with the Visual Analog Scale (VAS) and The Pelvic Pain Impact Questionnaire (PPIQ) before and after treatment. Patient Global Impression of Improvement (PGI-I) for evaluating patient satisfaction after treatment. Women with chronic pelvic pain will be treated for 16 sessions (an hour for each session) in 8 weeks with the TBPT technique by the same pelvic health physiotherapist (AB). Patients will apply internal and external trigger point release therapy and self-massage techniques by themselves with Telerehabilitation-Based Physical Therapy.
According to the results of a systematic literature review and meta-analysis based on recent studies on exercise interventions for the elderly based on augmented reality, virtual reality, and functional games, these technology-based exercise interventions It was confirmed that there was a positive effect on the function. In addition, it was found to indirectly enhance the motivation for performing physical exercise. In a recent similar study, when an exercise program was applied to 27 elderly people for 3 months through an exercise device that can measure body movements in real time through a Kinect camera, the physical activity of the elderly was induced, and the sustainability of exercise was increased. It is expected that this will be effective in preventing muscle loss in the elderly. However, due to the limitations of the existing Kinect camera, motions that have to be performed lying down or when exercising while wearing black clothes overlapped the movements of the lower extremities and caused motions in which the joint position could not be accurately tracked, thereby reducing the accuracy of exercise performance. There were limitations that could not be measured. In order to solve these technical limitations and improve clinical applicability, several existing studies have conducted inertia measurement that can accurately detect the motion of lower extremity joints by measuring the speed, acceleration, and direction of body movement in the X, Y, and Z axes. I started using Inertial Measurement Units (IMUs). Wearable sensors such as IMUs can enhance motor learning by providing immediate feedback on motor performance and motor errors. In addition, in the case of commercial camera systems such as the Kinect camera, if the user's appearance is obscured by other objects, there is a disadvantage that it is not detected. This is an important advantage in a home environment where there is no medical supervision, and this risk can be minimized, especially for the elderly who are at risk of falling. Previously, several literatures have applied the IMU sensor to the elderly and patients with total knee/hip arthroplasty and confirmed the effect. In this study, the OASIS Pro to be used can receive visual feedback by applying a virtual environment (number of exercises, exercise target point, and holding time) with the real home environment as the background. The Kinect camera can be used alone, and at the same time, an IMU sensor can be attached to the lower extremities to perform precise movements. The user performs the exercise prescribed by the manager (medical staff), and when the exercise is finished, the user can receive feedback on the accuracy and performance. Administrators can create and manage individual exercise protocols through OASIS-Manager. Therefore, the investigators intend to prove the effectiveness of OASIS Pro by applying augmented reality-based home rehabilitation exercise combined with IMU sensor to the elderly and confirming the effect on physical ability, depression, physical activity, and self-efficacy.
Pulmonary rehabilitation programs are an important part of lifelong therapy in the treatment of patients with cystic fibrosis. Although the possible benefits of exercise are known, physical activity levels and participation in exercise are low in patients with cystic fibrosis. There are barriers such as lack of time, demoralization, lack of motivation, and transportation problems. Although group exercises are an approach that increases participation and motivation, it is not considered a very suitable method because it increases the risk of cross infection in patients with cystic fibrosis when performed face-to-face. Telerehabilitation programs, which are increasingly used in chronic respiratory diseases, show similar results with clinical rehabilitation programs. Telerehabilitation programs, the effects of which have been examined in different disease groups in recent years, on patients with cystic fibrosis are limited in the literature. Group exercises that can be given with the telerehabilitation method may be a good approach for patients with cystic fibrosis, eliminating possible infection transmission. The goal of this interventional clinical trial is to compare of effects of telerehabilitation based individual and group exercises on functional exercise capacity, muscle strength, respiratory functions, balance, anaerobic power, quality of life, and adherence in children with cystic fibrosis. The main question it aims to answer are: • Is there a difference between functional exercise capacity, muscle strength, respiratory functions, balance, anaerobic performance, quality of life and compliance with treatment between telerehabilitation based group exercises and telerehabilitation based individual exercises in patients with cystic fibrosis? Participants will be randomized into three groups: Group 1: They will be divided into groups of four and included in the exercise training for eight weeks with telerehabilitation. Group 2: They will be individually included in exercise training with telerehabilitation for eight weeks. Group 3 (control group): They will continue their routine treatment (medical treatment, airway cleaning techniques, physical activity counseling).
Currently 37.9 million people are living with human immunodeficiency virus (HIV) around the world (UNAIDS, 2018). Even with antiretroviral treatment (ART), the virus enters the central nervous system and can affect the following structures: amygdala, hippocampus, thalamus, parietal, frontal, temporal regions, orbitofrontal, cingulate, motor and sensory cortex; generating cognitive, behavioral and motor alterations, up to HIV-associated neurocognitive disorder (HAND) and occasionally HIV-associated dementia (HAD). Few clinical studies have been conducted using computerized cognitive rehabilitation programs to counteract neuropsychological alterations. The aim of this project is to explore the feasibility of a cognitive stimulation program (CSP) developed to strengthen cognitive domains identified as impaired through a neuropsychological assessment in asymptomatic HIV+ patients adherent to ART, with the purpose of improving their quality of life and mood disorder.