Energy Cost of Propulsion in Standard and Ultralight Wheelchairs in People with Spinal Cord Injuries

Overview

Journal Phys Ther

Publisher Oxford University Press

Specialty Rehabilitation Medicine

Date 1999 Feb 24

PMID 10029055

Citations 14

Authors

C E Beekman

M Schoneberger

Affiliations

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Abstract

Background And Purpose: Wheelchair- and subject-related factors influence the efficiency of wheelchair propulsion. The purpose of this study was to compare wheelchair propulsion in ultralight and standard wheelchairs in people with different levels of spinal cord injury.

Subjects: Seventy-four subjects (mean age=26.2 years, SD=7.14, range=17-50) with spinal cord injury resulting in motor loss (30 with tetraplegia and 44 with paraplegia) were studied.

Method: Each subject propelled standard and ultralight wheelchairs around an outdoor track at self-selected speeds, while data were collected at 4 predetermined intervals. Speed, distance traveled, and oxygen cost (VO2 mL/kg/m) were compared by wheelchair, group, and over time, using a Bonferroni correction.

Results: In the ultralight wheelchair, speed and distance traveled were greater for both subjects with paraplegia and subjects with tetraplegia, whereas VO2 was less only for subjects with paraplegia. Subjects with paraplegia propelled faster and farther than did subjects with tetraplegia.

Conclusion And Discussion: The ultralight wheelchair improved the efficiency of propulsion in the tested subjects. Subjects with tetraplegia, especially at the C6 level, are limited in their ability to propel a wheelchair.

Citing Articles

Outdoor experiences and outdoor-based activities and interventions for individuals with spinal cord injury: a systematic scoping review.

Aaby A, Williamson S, Madsen L, Maribo T, Ravn S J Rehabil Med. 2025; 57:jrm40705.

PMID: 39835451 PMC: 11770228. DOI: 10.2340/jrm.v57.40705.

Wheelchair Axle Position Effect on the Propulsion Performance of Persons With C7 Tetraplegia: A Repeated-Measures Study.

Freixes O, Fernandez S, Passuni D, Gatti M, Buffetti E, Rivas M Top Spinal Cord Inj Rehabil. 2022; 28(4):113-120.

PMID: 36457356 PMC: 9678217. DOI: 10.46292/sci21-00043.

Metabolic Cost and Mechanical Efficiency of a Novel Handle-Based Device for Wheelchair Propulsion.

Puchinger M, Kurup N, Gstaltner K, Pandy M, Gfohler M J Rehabil Med. 2022; 54:jrm00346.

PMID: 36264132 PMC: 9706873. DOI: 10.2340/jrm.v54.1503.

Effect of Manual Wheelchair Type on Mobility Performance, Cardiorespiratory Responses, and Perceived Exertion.

da Silva Bertolaccini G, Sandnes F, Medola F, GjOvaag T Rehabil Res Pract. 2022; 2022:5554571.

PMID: 35726217 PMC: 9206577. DOI: 10.1155/2022/5554571.

Effects of wheels and tires on high-strength lightweight wheelchair propulsion cost using a robotic wheelchair tester.

Misch J, Sprigle S Disabil Rehabil Assist Technol. 2021; 18(8):1393-1403.

PMID: 34958616 PMC: 9234103. DOI: 10.1080/17483107.2021.2012274.