View clinical trials related to Fall Risk.
Filter by:Chemotherapy-induced peripheral neuropathy syndrome (CIPN) causes significant pain in hands and feet and is an adverse effect of treatment. Few non-pharmacological interventions have been tested and individuals experience CIPN symptoms years after treatment. This is the first study to explore a somatic yoga and meditation (SYM) intervention on functional outcomes and quality of life in cancer survivors.
Background: Falls are a problem among the elderly population, it is known that currently about 30% of people over 65 years falls every year. The European Union estimates a cost of € 281 per inhabitant per year and a cost of € 25 billion per year for health care1 which translates into a significant economic impact. The World Health Organization2 argues that it is possible to reduce these costs through prevention and health promotion strategies. For this, it is important to raise awareness, evaluate risk factors and identify and implement intervention programs. Objective: To test the effect of an exercise program on the prevention of risk of fall. Methods: This study, which lasted 4 months, was experimental, prospective. The experimental group (EG) performed an exercise program and the control group (CG) maintained their usual routine. For the measurement and evaluation of the variables under study, were used: sociodemographic data questionnaire, self-efficacy for exercise scale, Portuguese version of the falls efficacy scale (FES), 10m walking speed (WS), Timed Up & Go test (TUG), step test and Hercules® Force Platform (static balance). A significance level of 5% (p ≤ 0.05) was considered for all comparisons.
The research objective of this study is to determine whether an intervention and associated robotic device called "Assisted Movement with Enhanced Sensation (AMES) can be used to enhance balance recovery following an unexpected loss of balance by conditioning areas of the brain involved in lower-limb (LL) motor control. It is hypothesized that AMES can improve balance recovery, gait, and reduce falls in near-frail elderly people by improving LL strength, speed, and coordination. AMES, is a medical intervention and robotic device originally developed to aid patients' recovery from injuries to the central nervous system that limit movement. Earlier published studies demonstrated a unique property of AMES, namely that it is capable of reducing sensorimotor impairment in the severely impaired, an underserved population of patients with brain and spinal cord injuries. AMES applies assisted movement, biofeedback, and sensory stimulation simultaneously and non-invasively to the upper or lower limb, the initial intent being to address impairments such as weakness, spasticity, sensory loss, and dyssynergia (i.e., co-contraction). These reductions in impairment are achieved through cortical plasticity. In the present study, the same methodology will be applied to the lower limbs of the near-frail elderly to reduce falls by training faster reaction times, stronger reactions, and more coordinated recoveries from slips and trips
Middle-aged or older people with fall risk were assessed and invited to a multidisciplinary falls prevention program. This program consisted on an adapted exercise program. Two sessions per week were performed, during 6 weeks supervised by a physiotherapist. At the end of this program, measures of physical condition and of self-efficacy were repeated to determine its related-effect.
Our objective was to determine if an ultrasound guided ACB can preserve quadriceps strength, thus minimizing weakness of knee extension compared with ultrasound guided femoral nerve block. Our primary outcome was the percent of maximum voluntary isometric contraction (MVIC) of knee extension preserved at 30 mins after either an ACB or FNB. Secondary outcomes included MVIC of knee extension at 60 min, hip adduction at 30 and 60 mins, and assessment of fall risk with the Berg Balance Scale (BBS) at 30 minutes.
Because the increasing fall problem, mainly due to an impaired gait and balance ability, this study will investigate fall risk by detecting fall related movement characteristics. Based on the promising results using accelerometry for accurate and objective gait analysis, fall risk will be measured using a triaxial accelerometer. At the moment our group is performing a study titled 'identify subjects at risk for falling using accelerometry'. In this study, fall related movement characteristics (gait, balance, stumble reaction) are identified in healthy younger and older subjects under standardised laboratory circumstances. In this way, specific characteristics can be selected which are responsible for fall risk. The aim of this study is investigating if the acceleration based fall risk detector can be applied in daily life with target groups.
Because the increasing fall problem, mainly due to an impaired gait and balance ability and partly caused by trips, this study will investigate fall risk by detecting fall related movement characteristics and by detecting stumbles inclusive the compensation mechanism to recover from the trip. Based on the promising results using accelerometry for accurate and objective gait analysis, fall risk will be measured in younger and older (>60y) subjects using a triaxial accelerometer.