View clinical trials related to Fall Prevention.
Filter by:This study is designed to investigate the effect of adding trunk and upper extremity exercises in traditional and mobile game formats to the Otago exercise program on balance performance, fall risk, and fear in older adults. A randomized controlled, cross-sectional, single-blind (evaluator) study will be conducted with 36 older adults aged 65 and older enrolled at Muğla Sıtkı Koçman University (MSKÜ) Elderly Studies Application and Research Center. Participants will be divided into three randomized groups: control group (12 individuals receiving the Otago exercise program), study group 1 (12 individuals receiving additional trunk and upper extremity exercises with traditional methods added to the Otago exercise program), and study group 2 (12 individuals receiving additional trunk and upper extremity exercises with mobile game method added to the Otago exercise program). Participant demographics informations will be recorded in Form 1. Participants' cognitive functions , levels of independence in activities of daily living, fall risk , and fear of falling will be evaluated. Balance performance will be assessed using the Mini Balance Evaluation Systems Test (Mini-BESTest), portable computerized kinetic balance measurement (SportKAT 650-TS), "5 Times Sit-to-Stand" and "Four-Stage Balance Test" from the Otago Exercise Program. Participants' body sway will be assessed simultaneously with the second part of the Mini-BESTest using a mobile application. All assessments will be conducted by a researcher blinded to the exercises, both before and after the exercises, in a one-on-one face-to-face setting. In the exercise protocol, a personalized, home-based, 30-minute Otago exercise program consisting of strength, balance, and walking exercises performed three times a week will be implemented for 8 weeks with home visits and telerehabilitation sessions (via Videoconferencing) under the supervision of the responsible researcher. In addition to the Otago exercise program, trunk and upper extremity exercises (totaling 45 minutes) will be implemented in study group 1 using traditional methods and in study group 2 using the mobile game method. Telerehabilitation sessions will be conducted via an Android-based tablet if the study is supported by Tübitak 1002 A Rapid Support Module. Individual smartphones of participants will be used if the study is not supported. All questionnaires, scales, and tests used in the initial assessments will be repeated at the end of the 8-week exercise protocol for all participants.
Background: Falls and fall-related injuries among older adults are a significant health problem that results in injuries, prolonged hospitalisation, reduced mobility, and poorer quality of life. Previous falls prevention programs have demonstrated the effectiveness of multi-component falls prevention interventions in improving functional outcomes and reducing falls compared to usual care. A previous trial of a tailored multi-component falls intervention program for older adults recruited from the emergency department (SAFE) found that there is significant heterogeneity in terms of falls risk factors in high falls risk older adults. Thus, the effectiveness of SAFE in participants with poorer cognitive function or had more comorbidities were less effective and less cost-effective. Therefore, the aim of this trial is to demonstrate the effectiveness of a technology-enhanced, multi-domain and multi-component falls prevention intervention in reducing number of fallers and injurious fallers among older adults with elevated fall risk. Hypothesis: Using novel wearable technologies to a) identify older adults who are at high risk of falls and more likely to benefit from a multi-component intervention and b) tailor the exercise and educational components by giving individualized biofeedback will improve the effectiveness of an enhanced multi-domain, multi-component falls intervention program for community dwelling older adults. Methodology: This study is a randomized controlled trial aimed at demonstrating the effectiveness of a technology-enhanced, multi-domain and multi-component falls prevention intervention (SAFE-TECH) in community- dwelling older adults with elevated fall risk compared with usual care. Participants in both arms are selected based on questionnaire based and wearable sensor based predictions of their falls risk. Participants in the intervention arm will receive a 12-week active falls intervention program consisting of exercise and educational components, with detailed biofeedback of their functional status.
The purposes of this project to examine whether older adults can learn safe landing strategy during a fall. The research hypotheses are three-fold: 1) To determine whether older adults can learn a safe landing strategy to reduce impact severity of falling; 2) To examine whether the training effect on the right side falls can be transferred to the left side falls; and 3) To examine 1-week and 3-month retention effect of fall strategy training in older adults.