BACKGROUND AND PURPOSE: Treadmill-walking training (TWT) as an intervention to improve the gait of frail older adults has not been well studied. In this pilot study, we describe the feasibility, tolerance, and effect of TWT on specific gait parameters during overground walking in 4 frail older adults as a prelude to developing larger-scale exercise intervention trials in this high-risk population. CASE DESCRIPTION: Four community-residing frail older individuals (age > 70 years) with Mini-Mental State Examination score of 26 or higher and no activity limitations. Frailty was defined as the presence of at least 3 of the following 5 attributes: slow gait (<1 m/s); unintentional weight loss (>10 lb in prior year); self-report of poor grip strength; exhaustion; and low level of physical activity. INTERVENTION: The TWT consisted of 24 sessions (3 times per week for 8 weeks). Five quantitative gait parameters (velocity, stride length, swing time, percentage of double support phase, and coefficient of variation [COV] of stride length) during overground walking were measured at baseline, weekly during training, and immediately post-TWT. OUTCOME: All participants tolerated TWT without significant complications. Following TWT, gait velocity increased in all participants by 6.4 to 26.8 cm/s, which was larger than the reported value for meaningful change in gait velocity (4 cm/s). Stride length and double support phase also showed improvement in all participants (mean percentage increase of 10.8% for stride length and 17.1% reduction for double support phase posttraining compared with baseline). Swing time improved in 3 participants (mean reduction of 4.5%). The COV of stride length did not show consistent improvement. DISCUSSION: This case series shows that TWT is feasible and well tolerated by frail older adults and may improve most gait parameters in this high-risk population.
BACKGROUND AND PURPOSE: Treadmill-walking training (TWT) as an intervention to improve the gait of frail older adults has not been well studied. In this pilot study, we describe the feasibility, tolerance, and effect of TWT on specific gait parameters during overground walking in 4 frail older adults as a prelude to developing larger-scale exercise intervention trials in this high-risk population. CASE DESCRIPTION: Four community-residing frail older individuals (age > 70 years) with Mini-Mental State Examination score of 26 or higher and no activity limitations. Frailty was defined as the presence of at least 3 of the following 5 attributes: slow gait (<1 m/s); unintentional weight loss (>10 lb in prior year); self-report of poor grip strength; exhaustion; and low level of physical activity. INTERVENTION: The TWT consisted of 24 sessions (3 times per week for 8 weeks). Five quantitative gait parameters (velocity, stride length, swing time, percentage of double support phase, and coefficient of variation [COV] of stride length) during overground walking were measured at baseline, weekly during training, and immediately post-TWT. OUTCOME: All participants tolerated TWT without significant complications. Following TWT, gait velocity increased in all participants by 6.4 to 26.8 cm/s, which was larger than the reported value for meaningful change in gait velocity (4 cm/s). Stride length and double support phase also showed improvement in all participants (mean percentage increase of 10.8% for stride length and 17.1% reduction for double support phase posttraining compared with baseline). Swing time improved in 3 participants (mean reduction of 4.5%). The COV of stride length did not show consistent improvement. DISCUSSION: This case series shows that TWT is feasible and well tolerated by frail older adults and may improve most gait parameters in this high-risk population.
Authors: Michelle L Harris-Love; Richard F Macko; Jill Whitall; Larry W Forrester Journal: Neurorehabil Neural Repair Date: 2004-09 Impact factor: 3.919
Authors: Joe Verghese; Jeannette Mahoney; Anne F Ambrose; Cuiling Wang; Roee Holtzer Journal: J Gerontol A Biol Sci Med Sci Date: 2010-07-19 Impact factor: 6.053
Authors: Miriam E Nelson; W Jack Rejeski; Steven N Blair; Pamela W Duncan; James O Judge; Abby C King; Carol A Macera; Carmen Castaneda-Sceppa Journal: Circulation Date: 2007-08-01 Impact factor: 29.690
Authors: L P Fried; C M Tangen; J Walston; A B Newman; C Hirsch; J Gottdiener; T Seeman; R Tracy; W J Kop; G Burke; M A McBurnie Journal: J Gerontol A Biol Sci Med Sci Date: 2001-03 Impact factor: 6.053
Authors: G Abellan van Kan; Y Rolland; S Andrieu; J Bauer; O Beauchet; M Bonnefoy; M Cesari; L M Donini; S Gillette Guyonnet; M Inzitari; F Nourhashemi; G Onder; P Ritz; A Salva; M Visser; B Vellas Journal: J Nutr Health Aging Date: 2009-12 Impact factor: 4.075