Prediction of ambulatory performance based on motor scores derived from standards of the American Spinal Injury Association.

Assessment of strength using motor scores derived from the standards of the American Spinal Injury Association (ASIA) was compared with assessment using motor scores based on biomechanical aspects of walking in the prediction of ambulatory performance. Measurements of strength, gait performance, and the energy expenditure were performed in 36 spinal cord injured patients. The ASIA scoring system compared favorably with the biomechanical scoring system. The ASIA score strongly correlated with the percent increase in the rate of O2 consumption above normal (p < .0005), O2 cost per meter (p < .0006), peak axial load exerted by the arms on crutches (p < .0001), velocity (p < .0001), and cadence (p < .0001). Patients with lower extremity ASIA scores < or = 20 were limited ambulators with slower average velocities at higher heart rates, greater energy expenditure, and greater peak axial load exerted on assistive devices than patients with lower extremity ASIA scores > or = 30 who were community ambulators. We conclude the ASIA motor score is a simple clinical measure that strongly correlates with walking ability.

[1]  Stauffer Es,et al.  Spinal cord injury: requirements for ambulation. , 1973 .

[2]  K V Kuhlemeier,et al.  Energy cost of ambulation in paraplegic patients using Craig-Scott braces. , 1979, Archives of physical medicine and rehabilitation.

[3]  R. Waters,et al.  Energy cost of paraplegic locomotion. , 1985, The Journal of bone and joint surgery. American volume.

[4]  J W GERSTEN,et al.  ENERGY COST OF AMBULATION IN THE TRAUMATIC PARAPLEGIC , 1964, American journal of physical medicine.

[5]  E E GORDON,et al.  Energy requirements in paraplegic ambulation. , 1956, Archives of physical medicine and rehabilitation.

[6]  W. Donovan,et al.  The International Standards Booklet for Neurological and Functional Classification of Spinal Cord Injury , 1994, Paraplegia.

[7]  G Barnes,et al.  Determinants of gait performance following spinal cord injury. , 1989, Archives of physical medicine and rehabilitation.

[8]  B Balke,et al.  Efficiency of assisted ambulation determined by oxygen consumption measurement. , 1974, The Journal of bone and joint surgery. American volume.

[9]  A Chantraine,et al.  Energy expenditure of ambulation in paraplegics: effects of long term use of bracing , 1984, Paraplegia.

[10]  Energy expenditure in patients with low-, mid-, or high-thoracic paraplegia using Scott-Craig knee-ankle-foot orthoses. , 1985, Mayo Clinic proceedings.

[11]  Mb Lerner-Frankiel Functional community ambulation : what are your criteria? , 1990 .

[12]  H J Hislop,et al.  Energetics: application to the study and management of locomotor disabilities. Energy cost of normal and pathologic gait. , 1978, The Orthopedic clinics of North America.

[13]  R. Waters,et al.  Energy Cost of Three‐Point Crutch Ambulation in Fracture Patients , 1987, Journal of orthopaedic trauma.

[14]  R. Waters,et al.  Comparable energy expenditure after arthrodesis of the hip and ankle. , 1988, The Journal of bone and joint surgery. American volume.