Abstract
Age-related mobility research often highlights significant mobility differences comparing neurotypical young and older adults, while neglecting to report mobility outcomes for middle-aged adults. Moreover, these analyses regularly do not determine which measures of mobility can discriminate groups into their age brackets. Thus, the current study aimed to provide a comprehensive analysis for commonly performed aspects of mobility (walking, turning, sit-to-stand, and balance) to determine which variables were significantly different and furthermore, able to discriminate between neurotypical young adults (YAs), middle-aged adults (MAAs), and older adults (OAs). This study recruited 20 YAs, 20 MAAs, and 20 OAs. Participants came into the laboratory and completed mobility testing while wearing wireless inertial sensors. Mobility tests assessed included three distinct two-minute walks, 360° turns, five times sit-to-stands, and a clinical balance test, capturing 99 distinct mobility metrics. Of the various mobility tests assessed, only 360° turning measures demonstrated significance between YAs and MAAs, although the capacity to discriminate between groups was achieved for gait and turning measures. A variety of mobility measures demonstrated significance between MAAs and OAs, and furthermore discrimination was achieved for each mobility test. These results indicate greater mobility differences between MAAs and OAs, although discrimination is achievable for both group comparisons.
Highlights
IntroductionCoinciding reduced mobility, is the increased incidence of falls, which can lead to devastating repercussions, especially for individuals over the age of 65 [1,2]
99 independent metrics were collected from the four mobility tests
The primary objectives of this study were to identify whether measures of gait, turning, sit-to-stand, and balance were significantly different and able to discriminate between neurotypical young adults (YAs) and middle-aged adults (MAAs) and MAAs and older adults (OAs)
Summary
Coinciding reduced mobility, is the increased incidence of falls, which can lead to devastating repercussions, especially for individuals over the age of 65 [1,2]. While various mobility characteristics can help predict individuals at greater risk of falling [3,4,5,6,7,8,9,10,11], most age-related mobility research has focused on mobility differences between neurotypical young adults (e.g., ≤30 years of age) and their elderly (≥65 years) counterparts. Mobility adaptations and differences for those in the middle-aged years of life (30–65 years of age) have received far less attention to date
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