ENERGY-EXPENDITURE DURING GAIT USING THE WALKABOUT AND ISOCENTRIC RECIPROCAL GAIT ORTHOSES IN PERSONS WITH PARAPLEGIA

Objective: To compare the energy expenditure during walking using the Walkabout Orthosis (WO) and the Isocentric Reciprocal Gait Orthosis (I RGO) in persons with paraplegia. Design: A randomized cross-over desig n. Patients: Ten individuals with complete T9-12 paraplegia. Intervent ions: Subjects were trained to walk using the WO and the IRGO with elb ow crutches. Main Outcome Measures: Subjects' energy expenditures duri ng walking using each orthosis over three different terrains-flat tile , flat carpet, and 4 degrees uphill ramp-were compared. Data collected included expired ventilation (L/min), heart rate (beats/ min), speed of walking (m/min), oxygen uptake (VO2; L/min and mL/kg/min), oxygen c ost (O-2 cost; mL/kg/m), and Physical Cost Index (PCI; beats/m). Subje cts walked at a self-selected pace. Results: Subjects walked significa ntly slower with the WO than with the IRGO, regardless of the surface (p <.05). The average speed of walking ranged from 5.2 +/- 1.3 for the WO on the tiled surface to 11.5 +/- 2.3m/min for the IRGO on the carp eted surface. Despite marked differences in self-selected walking spee ds between the two orthoses, there were no differences in either heart rate or VO2 among orthoses or surfaces. However, the O-2 cost of gait was significantly greater for the WO (range, 3.95 to 4.91mL/kg/m) com pared with the IRGO (range, 1.6 to 1.8mL/kg/m). Likewise, the PCI was significantly greater using the WO (range, 8.4 to 10.3beats/m) than th e IRGO (range, 4.3 to 7.0beats/m). Conclusions: This study shows that the metabolic demands of walking with the WO are greater than walking with the IRGO in individuals with T9-12 paraplegia. (C) 1998 by the Am erican Congress of Rehabilitation Medicine and the American Academy of Physical Medicine and Rehabilitation.