Marjorie Hines Woollacott

Learn More
BACKGROUND AND PURPOSE This study examined the sensitivity and specificity of the Timed Up & Go Test (TUG) under single-task versus dual-task conditions for identifying elderly individuals who are prone to falling. SUBJECTS Fifteen older adults with no history of falls (mean age=78 years, SD=6, range=65-85) and 15 older adults with a history of 2 or more(More)
BACKGROUND Previous literature indicates that attentional resources are required for recovery of postural stability. Previous studies have also examined the effect of aging on the performance of a static postural task while a secondary cognitive task is being conducted. This study describes the effect of a cognitive task on the neuromuscular response(More)
Research on the relationship between attention and the control of posture and gait is a new and expanding area with studies on young adults revealing the role of cognitive factors in the control of balance during standing and walking. The use of dual task paradigms to examine the effect of age related changes in attentional requirements of balance control(More)
BACKGROUND Cognitive demands associated with balance and locomotion may contribute to the incidence of falling among older adults. This study addressed issues related to the effects of aging on the attentional demands of recovering from an external disturbance to balance. This research also investigated whether performing a secondary cognitive task(More)
BACKGROUND This study used a dual task design to investigate the effects of two different types of cognitive tasks on stability (as measured by center of pressure displacement) in young vs older adults with and without a history of falls. METHODS Two secondary cognitive tasks, a sentence completion and a visual perceptual matching task, were used to(More)
OBJECTIVE To compare the effect of 3 different approaches to balance training on dual-task balance performance in older adults with balance impairment. DESIGN A double-blind, randomized controlled trial. SETTING University research laboratory. PARTICIPANTS Older adults (N=23) with balance impairment (mean age, 74.8y). They scored 52 or less on the(More)
Age- and pathology-related changes in the relative contributions of visual and somatosensory inputs to dynamic balance control were evaluated. Young adults (mean age = 25, SD = 4) were compared to older adults (mean age = 68, SD = 5). Electromyographic responses were collected when subjects' balance was perturbed on a movable platform. The amounts of visual(More)
BACKGROUND This study used a dual task design to examine the effect of sensory context on postural stability during the concurrent performance of an attentionally demanding cognitive task in young and older adults with and without a history of imbalance and falls. METHODS A choice reaction time auditory task was used to produce changes in attention during(More)
In this article, we highlight the unique nature of balance control during walking in humans. A control framework, including proactive and reactive balance control, is introduced to lay out age-related changes in different balance control mechanisms during walking. Clinical implications that may be useful for clinicians for assessment and treatment of(More)
The following study examined two aspects of balance control in the older adult: the coordination of the timing and the amplitude of muscle responses to postural perturbations, and the ability of the participant to reorganize sensory inputs and subsequently modify postural responses as a consequence of changing environmental conditions. Coordination of(More)