Quantifying weight bearing while in passive standers and a comparison of standers

Abstract

Mechanical loading plays an important role in skeletal health, and this is a major reason standing devices are widely used with non-ambulatory persons. However, little is known about the true axial loading that occurs while in a stander, or the factors which may impact loading. The purpose of this study was to quantify weight borne while in a stander, and to directly compare different standers. Load measuring footplate adaptors were designed and fabricated specifically for this study. Weight bearing loads in 20 non-ambulatory persons with quadriplegic cerebral palsy aged 6 to 21 years (median 14y) were continuously monitored during routine 30-minute standing sessions. Fourteen participants were female, six were male; one was Gross Motor Function Classification System (GMFCS) Level IV, and 19 were GMFCS Level V. Each participant was monitored on four to six occasions over an 8-week period, two to three times in each of two different standers (total 108 standing sessions). Weight bearing loads ranged widely from 37 to 101% of body weight. The difference between standers was as much as 29% body weight.: There is wide variance in the actual weight borne while in passive standers. The type of stander utilized is one factor which can significantly affect the amount of weight borne. © 2008 Mac Keith Press.