Browsing by Person "Rowe, Philip"

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The development and implementation of a portable balance platform for re-education postural stability in older adults
(British Geriatrics Society, 2016-09-16) Tarfali, Georgia; Roeles, Sanne; Childs, Craig; Rowe, Philip
Falls in elderly are the leading cause of injury. A fall can result in serious injuries leading to loss of independence, hospitalization, increased medical costs, and a greater economic burden. Therefore, the development and implementation of effective strategies to prevent falls in elderly is a vital challenge for the health society.
Development of a perturbation protocol to quantity gait resilience using mechanical, visual and auditory perturbations: A case study
(International Society of Biomechanics, 2015-07-16) Roeles, Sanne; Tarfali, Georgia; Steenbrink, Frans; Childs, Craig; Rowe, Philip
Falls are the leading cause of death due to injury in the elderly and therefore a major problem in our aging society. In order to prevent falls it is of great importance that clinicians are able to identify those who are at risk of falling and intervene early. However, capturing gait instability is difficult as the human body is well capable of compensating for impairments and hence it is difficult to distinguish fallers from non-fallers during steady state walking using currently available stability measures1. Most falls in the elderly occur during locomotion as gait resilience is compromised due to aging and therefore the ability to resist external perturbations during walking is also decreased. Measuring the response to external perturbations has been proposed to quantify dynamic stability and to identify fall-risk. However, perturbations used in these studies are unlikely to occur in everyday life and are dangerous and difficult to monitor. Little is known about the type of experimental perturbations that could be used for diagnosis of fallers . Therefore, the aim of this study is to evaluate the feasibility of a protocol that mimics perturbations encountered in daily life like, a push, a trip, a slip, sudden darkness or a loud noise
Gait perturbations to discriminate between older adults with and without history of falls
(International Society of Posture & Gait Research, 2017-06-29) Roeles, Sanne; Rowe, Philip; Bruijn, Sjoerd; Childs, Craig; Tarfali, Georgia; Steenbrink, Frans; Pijnappels, Mirjam
BACKGROUND AND AIM: While falls among older adults are considered a major health problem, the sensitivity of conventional fall risk assessments to identify individuals at risk is poor [1]. Among the main risk factors for falls are balance and gait impairments [2]. The ability to resist or recover from gait perturbations to prevent falling requires fast and accurate responses and might discriminate between fallers and non-fallers. We therefore investigated the ability to discriminate between older adults with and without history of falls using medio-lateral and anterior-posterior gait perturbations. METHODS: Twenty-five older adults (14 females; 74.0±11.1 years of age) walked at a fixed treadmill speed (1.03±0.20 m/s) on the GRAIL (Motekforce Link BV, Amsterdam, The Netherlands). Trunk and lower limb kinematics were collected (Vicon, Oxford, UK) during steady state walking and in response to four types of perturbations: ipsi-lateral and contra-lateral platform sway and unilateral belt acceleration and deceleration. Maximum pelvic velocity per step in the medio-lateral and anterior-posterior direction was calculated during baseline walking and the first step after each perturbation. Participants were categorized as fallers or non-fallers based on their self-reported fall history over the past 12 months. Additionally, falls efficacy score (FES), physical activity questionnaire (PAQ), one-legged stance test (OLST) and the timed up and go (TUG) test were assessed. Differences between fallers and non-fallers were analysed using one-way ANOVAs. RESULTS: Seven participants (28%) reported at least one fall in the past 12 months and were categorized as fallers. Fallers showed significantly lower maximum pelvic velocity in response to the deceleration perturbation compared to non-fallers (F=5.651; p=0.026). No significant differences in maximum pelvic velocity were found during baseline walking and for the other perturbation types (Figure 1). Moreover, no significant differences were found between fallers and nonfallers for the conventional measures (i.e. the FES, PAQ, OLST and TUG). CONCLUSIONS: We successfully discriminated fallers from non-fallers based on the recovery from deceleration perturbations, while we were not able to do so by means of the conventional measures. Fallers had more difficulties in maintaining walking speed as indicated by the lower maximum pelvic velocity. On average, their maximum pelvic velocity was negative, meaning that their position on the treadmill became more rearward after the deceleration perturbation. Therefore, assessing the ability to recover from deceleration perturbations may be used to identify fall risk in older adults. The added value of other perturbation outcomes and strategies to recover from perturbations will be discussed. [1] Gates S. et al. (2008). J Rehabil Res Dev, 45(8): 1105-16. [2] Ambrose, AF et al. (2013). Maturitas, 75(1): 51-61.